EXAR XRT94L43IB

XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
NOVEMBER 2006
GENERAL DESCRIPTION
The XRT94L43 is an SDH to PDH physical layer
processor with integrated SONET OC-12 and 12
DS3/E3 framing controller. The XRT94L43 contains
an integral SONET framer which provides framing
and error accumulation in accordance with ANSI/ITUT specifications. For a multiple channel DS3/E3
feature, each channel contains identical elements.
The configuration of this device is through internal
registers accessible via an 8-bit parallel, memory
mapped, microprocessor interface.
The SONET/SDH transmit and receive blocks are
used to transmit/receive an STS-12/STM-4 signals or
compose and decompose 12, STS-1/DS3/E3 signals.
The blocks operate at a peak internal clock speed of
77 MHz and support 8-bit internal data paths. The
transmit and receive blocks are compliant with both
SONET and SDH standards.
The XRT94L43 performs all SONET transport and
path overhead processing for use in broadband data
transport applications.
REV. 1.0.2
FEATURES
• Single Chip solution for 12 DS3/E3 to SONET/SDH
Mapping
• Generates and terminates SONET section, line and
path layers.
• Provides
SONET
descrambling.
frame
scrambling
and
• Differential Line Interfaces
• 8-bit microprocessor interface
• Requires +2.5 and +3.3V power supplies with +5V
input tolerance
• -40°C to +85°C Operating Temperature Range
• Available in a 516 Ball PBGA package
APPLICATIONS
• Network switches
• Concentrators
• Frame Relay Switches
• SONET Customer Premises Multiplexers
• Network Access Equipment
• Test/Monitoring Equipment
Exar Corporation 48720 Kato Road, Fremont CA, 94538 • (510) 668-7000 • FAX (510) 668-7017 • www.exar.com
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
FIGURE 1. BLOCK DIAGRAM OF THE XRT94L43 WHEN CONFIGURED IN SONET MODE
Tx STM -4
Tx STM -4
SOH Processor
SOH Processor
Block
Block
Tx TUG -3
Tx TUG -3
Mapper /
Mapper /
VC -Tx
3 POH
-3
VC -Tx
3 VC
POH
VC -3
Processor
POH
Processor
POH
Block
Processor
Block
Processor
Block
Block
Tx AU -4
Tx AU -4
Mapper/VC -4
Mapper/VC -4
POH
POH
Processor
Processor
Block
Block
Rx STM - 4 SOH
Rx STM - 4 SOH
Processor
Processor
Block
Block
STM -4
STM -4
Telecom Bus
Telecom Bus
Block
Block
SERDES
SERDES
Block
Block
(Primary)
(Primary)
SERDES
SERDES
Block
Block
(APS)
(APS)
DS3/E3
DS3/E3
DS3/E3
DS3/E3
Mapper
DS3/E3
Mapper
DS3/E3
Mapper
Mapper
Block
Mapper
Block
Mapper
Block
Block
Block
Block
Rx AU -4
Rx AU -4
Mapper/VC -4
Mapper/VC -4
POH
POH
Processor
Processor
Block
Block
DS3/E3
DS3/E3
Jitter
Jitter
Attenuator
Attenuator
Block
Block
DS3/E3
DS3/E3
DS3/E3
Framer
DS3/E3
DS3/E3
Framer
Framer
DS3/E3
Block
Framer
Framer
Block
Block
Framer
Block
Block
Block
Rx TUG -3
Rx TUG -3
Mapper /
Mapper /
VC - 3 POH
VC - 3 POH
Processor
Processor
Block
Block
AUG # 1
To AUG # 2
From AUG # 2
- 4
- 4
Microprocessor Interface
Microprocessor Interface
Clock Synthesizer Block
Clock Synthesizer Block
2
JTAG Test Port
JTAG Test Port
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
FIGURE 2. BLOCK DIAGRAM OF THE XRT94L43 WHEN CONFIGURED IN SDH/TUG-3 MODE
TxSTM-4
TxSTM-4
SOH Processor
SOH Processor
Block
Block
Rx STM-4 SOH
Rx STM-4 SOH
Processor
Processor
Block
Block
STM-4
STM-4
TelecomBus
TelecomBus
Block
Block
SERDES
SERDES
Block
Block
(Primary)
(Primary)
SERDES
SERDES
Block
Block
(APS)
(APS)
Tx AU-3
Tx AU-3
Mapper/VC-3
Mapper/VC-3
POH
POH
Processor
Processor
Block
Block
Rx VC-3
Rx VC-3
Pointer
Pointer
Justification
Justification
Block
Block
Rx AU-3
Rx AU-3
Mapper/VC-3
Mapper/VC-3
POH
POH
Processor
Processor
Block
Block
TxVC-3
TxVC-3
Pointer
Pointer
Justification
Justification
Block
Block
DS3/E3
DS3/E3
Mapper
Mapper
Block
Block
Rx STM-0
Rx STM-0
VC-3 POH
VC-3 POH
Block
Block
Rx STM-0
Rx STM-0
SOH
SOH
Block
Block
TxSTM-0
TxSTM-0
VC-3 POH
VC-3 POH
Block
Block
TxSTM-0
TxSTM-0
SOH
SOH
Block
Block
DS3/E3
DS3/E3
Jitter
Jitter
Attenuator
Attenuator
Block
Block
DS3/E3
DS3/E3
Framer
Framer
Block
Block
Channel 1
To Channels 2 –12
FromChannels 2 –12
Microprocessor Interface
Microprocessor Interface
Clock Synthesizer Block
Clock Synthesizer Block
JTAGTest Port
JTAGTest Port
FIGURE 3. BLOCK DIAGRAM OF THE XRT94L43 WHEN CONFIGURED IN SDH/AU-3 MODE
TxSTS-12
TxSTS-12
TOH Processor
TOH Processor
Block
Block
Rx STS-12 TOH
Rx STS-12 TOH
Processor
Processor
Block
Block
TxSONET
TxSONET
POH
POH
Processor
Processor
Block
Block
Rx STS-1
Rx STS-1
Pointer
Pointer
Justification
Justification
Block
Block
Rx SONET
Rx SONET
POH
POH
Processor
Processor
Block
Block
TxSTS-1
TxSTS-1
Pointer
Pointer
Justification
Justification
Block
Block
STS-12
STS-12
TelecomBus
TelecomBus
Block
Block
SERDES
SERDES
Block
Block
(Primary)
(Primary)
SERDES
SERDES
Block
Block
(APS)
(APS)
DS3/E3
DS3/E3
Mapper
Mapper
Block
Block
Rx STS-1
Rx STS-1
POH
POH
Block
Block
Rx STS-1
Rx STS-1
TOH
TOH
Block
Block
TxSTS-1
TxSTS-1
POH
POH
Block
Block
TxSTS-1
TxSTS-1
TOH
TOH
Block
Block
DS3/E3
DS3/E3
Jitter
Jitter
Attenuator
Attenuator
Block
Block
DS3/E3
DS3/E3
Framer
Framer
Block
Block
Channel 1
To Channels 2 –12
FromChannels 2 –12
Microprocessor Interface
Microprocessor Interface
Clock Synthesizer Block
Clock Synthesizer Block
3
JTAGTest Port
JTAGTest Port
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
PRODUCT FEATURES
SONET TRANSMITTER
• Generates and Transmits Standard STS-12/STM-4 data
• Generates and Transmits either an STM-4/TUG-3 or STM-4/AU-3 signals for SDH applications
• Conforms to ITU-T 1.432, ANSI T1.105 and Bellcore GR-253 Standards
• Performs SONET frame insertion and accepts external frame synchronization
• Performs Optional Transmit Data Scrambling
• Permits the user to externally insert their own values for the POH and TOH into the outbound STS-12/STM-4
traffic
• Generates transmit payload pointer (H1,H2) (fixed at 522) with NDF insertion
• Inserts A1/A2 with optional error mask
• Computes and inserts BIP-8 (B1,B2) with optional error mask
• Generates and transmits REI-L and RDI-L either upon Software Command or automatically based upon
errors and defects that are detected/declared by the SONET Receiver.
• Permits the user to transmit the LOS pattern via Software Command.
• Generates and transmits RDI-P and REI-P either upon Software Command or automatically based upon
errors and defects that are detected/declared by the SONET Receiver.
• Inserts the fixed-stuff columns, calculates and inserts the B3 byte value into each outbound STS-1 SPE/VC3 or STS-3c SPE/VC-4
SONET RECEIVER
• Receives and processes standard STS-12/STM-4 signals
• Receives and processes either an STM-4/TUG-3 or STM-4/AU-3 signal for SDH Applications
• Permits the user to fully program the B2 Byte Error-rate thresholds for declaration and clearance of the SD
and SF defect conditions
• Provides section trace buffer with mismatch detection and invalid message detection
• Performs SONET Frame Synchronization
• Supports NDF, positive stuff and negative stuff for pointer processor
• Performs receive data de-scrambling
• Performs POH and TOH interpretation/extraction
• Interprets payload pointer (H1,H2)
• Extracts data communication channels from D1-D3 and D4-D12
• Declares and Clears the SEF (Severely Erred Frame), LOF (Loss of Frame) and LOS (Loss of Signal) defect
conditions
• Declares and clears the Line AIS (AIS-L) and the Line Remote Defect Indicator (RDI-L) defect conditions
• Declares and Clears the Path - AIS (AIS-P), Loss of Pointer (LOP-P) and Path - Unequipped (UNEQ-P)
defect conditions.
• Supports either the Single-Bit or Extended form of RDI-P
• Monitors the Path Signal Label and declares/clears the PLM-P defect condition
4
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
• Contains 12 on-chip 64 byte Expected Receive Path Trace Message Buffer, in which the user will load in an
expected Path Trace Message
• Contains 12 on-chip 64 byte Actual" Receive Path Trace Message Buffers, that will contain the actual
Received Path Trace Message
• The SONET Receiver will use the contents within both the Expected and Actual Receive Path Trace
Message Buffers to either declare or clear the TIM-P defect condition
• Computes and verifies the B3 bytes within each incoming STS-1 SPE/VC-3 or STS-3c SPE/VC-4 and
increments on-chip Performance Monitoring registers each time it detects B3 byte errors.
• Detects and Flags Line - Remote Error Indicator (REI-L) and Path - Remote Error Indicator (REI-P) events,
and increments on-chip Performance Monitoring registers each time it detects REI-L or REI-P events
• Computes and verifies both the B1 and B2 bytes within the incoming STS-12/STM-4 data-stream and
increments on-chip Performance Monitoring registers each time it detects B1 or B2 byte errors
MAPPER
• Maps DS3 data into/De-maps DS3 data from an STS-1 SPE per the requirements in Telcordia GR-253CORE
• Maps DS3/E3 data into/De-Maps DS3/E3 data from a VC-3 per ITU-T G.707
• Implements AU-3 to VC-3 multiplexing and de-multiplexing
DS3 RECEIVE FRAMER
• Offers off-line framing algorithm
• Complies with the standards as: Bellcore TR-NWT-000499 and TR-NWT-000009
• Supports overhead extraction
• Detects and flags LCV (Line Code Violations) and EXZ (Excessive Zero Events).
• Reports and counts FEBE
• HDLC controller complies with ITU-T Q.921 LAPD protocol
• Provides Line and Local Loop-backs
• Supports either the M13 or the C-bit Parity Framing formats
• Supports B3ZS line decoding which can be user enabled.Replaces valid B0V or 00V with 3 zeros
• Synchronizes to incoming frame based upon 10 valid F bits followed by 3 consecutive valid M frames, Offers
optional AIC-bit or parity verification before declaration of sync
• Detects Out of Frame (OOF) upon 3 or 6 F bits out of 15 F bits in error or 1 or more M bits in 3 of 4
consecutive frames in error
• Detects Loss of Signal (LOS) upon encountering 180 consecutive 0’s and clears on at least 60 of successive
received 1’s.Offers optional disable
• Detects idle state by checking C-bit in subframe 3 are all zero, X-bits are one and repeating 11001100
payloads. Declaration occurs when all the above conditions persist for 63 M-frames. Clears the condition
when 63 valid M-frames are received
• Detects AIS with different algorithm
• Computes and verifies P and CP-Bits
• Validate FERF bits, sets to one when both X-bits are zero and clears when they are One
• Detects and validates FEAC codes upon 8 out of 10 last identical received codes.Invalidates on 3 in 10
mismatch
5
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
• Provides 15-bit PRBS lock
DS3 TRANSMIT FRAMER
• Offers following frame generation mechanism: Asynchronous operation, using receive side clock, external
framing
• Supports either C-bit operation or M13 operation: optional all C bits set to "1" or C-bit parity ID bit (C11)
toggled in each frame for M13 operation
• Provides start of frame control with external pin
• Inserts frame overhead bits via External serial port or Internal generation
• Generates and checks parity
• Automatically transmits the DS3 FERF/REI indicator whenever the DS3 Receiver declares either the DS3
LOS, DS3 AIS or DS3 OOF defect conditions.
• Permits the user to control the DS3 FEBE/REI bit-fields via Software Control, or to automatically transmit the
FEBE/REI indicator whenever the DS3 Receiver detects CP-Bit or Framing (F or M) bit errors
• Provides FEAC channel processing including generation of valid FEAC patterns and transmissions of all 1’s
upon programming of idle code
• Inserts path maintenance data link through HDLC transmitter which contains the following features:
AM for storage of entire LAPD message
Selection of message length to 82 or 76 bytes
Optional frame header generation
Generation of flag sequences
Computation and insertion of CRC
Zero stuffing
Register bits for communication with microprocessor
Interrupt generation upon transmission of message
• LOS Insertion enabled by register bit
• AIS Insertion enabled by register bit or pin
• Idle signal insertion enabled by register bit
• Supports B3ZS encoding
• Generates AIS, Idle and Yellow force alarms
• Inserts errors optionally in the P, F, FEBE and M bits
• Provides 15-bit PRBS generator
E3 RECEIVE FRAMER
• Offers off-line framing algorithm
• Complies with standards as: ITU-T G.751 and G.832
• Provides line code violation detection and excess zero count
• LAPD controller complies with ITU Q.921 LAPD protocol
• Provides local loop-back
• Supports G.751 and G.832 framing formats
• Supports HDB3 line decoding which can be user enabled. Replaces valid B00V or 000V with 4 zero’s
6
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
• Synchronizes to incoming frame based upon occurrence of two sets of FA1, FA2 with expected separation G.832 or detection of three consecutive frame alignment signals (FAS) - G.751
• Detects Out of Frame (OOF) upon 4 consecutive invalid frames
• Detects Loss of Signal (LOS) upon encountering 32 consecutive 0’s and clears on occurrence of 32 bits
without a string of 4 0s
• Detects AIS if 7 or less 0s detected in each of 2 consecutive frames and clears if more than seven 0’s
detected in each of 2 consecutive frames
• Calculation and comparison of BIP-8 (G.832) or BIP-4 (G.751). BIP-4 calculation can be disabled
• Supports overhead extraction
• Microprocessor access to TR trail trace message - 16 TTB registers (G.832) or service (Alarm and Nation)
bits (G.751)
• Detects MA FERF if 3 or 5 consecutive MA MSBs are 1and clears if 3 or 5 consecutive MA MSBs are 0 (only
E3 G.832)
• Indicates last validated FERF value and interrupt upon a change in validated FERF value
• Extracts payload type (MA) bits and stores in a register (Only E3 G.832)
• Extracts Timing Marker bit and checks for consistency over 3 or 5 consecutive frames (only E3 G.832)
• Extracts Synchronous Status Message bits and stores it in register bits when enabled (only G.832)
• Overhead output on synchronous serial interface
E3 TRANSMIT FRAMER
• Offers following frame generation mechanism: Asynchronous operation, using receive side clock, external
framing
• Supports either G.751 or G.832 framing format
• Generates and checks parity BIP-8 (G.832), BIP-4 (G.751) BIP-4 computation can be disabled
• Inserts data link message through E3 data line channel which contains the following features:
Insertion into NR or GC byte (programmable through register bit) (E3 G.832 only)
Insertion into Nation bit in case of E3 G.751 when LAPD is enabled
RAM storage of entire LAPD message
Selection of message length to 82 or 76 bytes
Generation of flag sequences
Computation and insertion of CRC-16
Zero stuffing
Register bits for communication with microprocessors
Interrupt generation upon complete transmission of message
• LOS insertion enabled by register bit to force all 0s in the transmit stream
• AIS insertion enabled by register bit and/or pin to force all 1’s in the transmit stream
• Supports HDB3 encoding enabled by register bit
• Inserts frame overhead bits via External serial/nibble port (except for FA1,FA2 and EM bytes in case of E3
G.832 and FAS and BIP-4 in case of G.751) or through external overhead interface or from configuration
register or internal generation
• Inserts FA1, FA2, EM, TR, MA and GC bytes into G.832 stream or FAS service bits and BIP4 (if enabled) into
G.751 stream
7
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
• Inserts MA,NR,GC and TR (TTB) from microprocessor accessible registers (service bit for G.751)
• Inserts FEBE in MA upon receipt of EM byte errors.Programmable through register bit (G.832)
• Asserts FERF upon any combination of LOS,OOF or AIS received from receiver (G.832)
• Inserts synchronous status message from microprocessor accessible registers, when enabled (G.832)
• Error masks for framing bytes, and computed parity (BIP-8 in case of G.832 and BIP-4 in case of G.751)
• Optionally accepts overhead bits (except FA bytes for G.832 and FAS bits for G.751) from input interface
E3/DS3/STS-1 DE-JITTERING/DE-SYNC CIRCUIT
• Meets the E3/DS3/STS-1 jitter requirements
• Compliant with jitter transfer template outlined in ITU G.751,G.752,G.755 and GR-499-CORE
• Meets output jitter requirement as specified by ETSI TBR24
• Meets the jitter and wander specifications described in T1.105.03b,GR-253 and GR-499 standards
• Performs the De-synchronizer function and pointer adjustments for STS-1 to DS3 mapping
PERFORMANCE MONITORING
• Supports line and path performance monitoring
• Provides 32-bit saturating counter of OOF errors
• Provides 32-bit saturating counter LOF errors
• Provides 32-bit saturating counter of LOS errors
• Provides 32-bit saturating counter of SD errors
• Provides 32-bit saturating counter of SF errors
• Provides 32-bit saturating counter B3 errors
• Provides 32-bit saturating counter of the line RDI, path AIS,REI-L errors, REI-P errors and BIP-8(B1,B2),B3
errors and loss of pointer
• Provides 16-bit saturating counter of DS3 framing bit errors, DS3 frame parity errors, line code violations,
frame parity (BIP) errors, DS3 frame CP bit errors and DS3 Far-End Block errors
• One second statistics
1. Bipolar violations
2. Frames with parity errors
3. Frames with CP bit errors
4. Errored second indication
5. Severely errored second indication
INTERRUPT, STATUS AND TEST
• Provides individually maskable interrupts
• Provides one second interrupt generations
• Generates interrupts from the following causes:
• DS3 OOF status change, LOS status change,
DS3 AIS status, LAPD message received, DS3 parity
error,DS3 FEAC validation, DS3 FEAC removal, DS3 IDLE status change, FEBE (E3) change, DS3 FERF
change, DS3 format change (AIC), LAPD end of message transmission and DS3 FEAC end of message
transmission, DS3 Framing alignment change, SONET OOF status change and COFA
• Provides local and remote line loopback
8
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
• Provides SONET remote loopback
9
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
ORDERING INFORMATION
PART NUMBER
PACKAGE TYPE
OPERATING TEMPERATURE RANGE
XRT94L43IB
516 Ball BGA
-40°C to +85°C
FIGURE 4. PIN OUT OF THE XRT94L43
(See pin list for pin nam es and function)
TOP VIEW
AF
AF
26
AF
1
AE
AE
1
AD
AD
1
AC
AC
26
AC
23
AC
4
AC
1
AB
AB
1
AA
AA
1
Y
Y1
W
W1
V
V1
U
T
U1
Y
26
T2
25
T
24
T
23
T
22
T
21
G
G
G
G
G
G
R
V2
V2
G
G
V1
V1
R1
P
V2
V2
G
G
V1
V1
P1
N
V2
V2
G
G
V1
V1
N1
V2
V2
G
G
V1
V1
M1
V3
V3
V3
V3
V3
V3
M
L
L
26
L
25
L
24
L
23
L
22
L
21
K
T6
L6
T5
L5
T4
L4
T3
L3
T2
L2
L1
K1
XRT94L43
J
T1
J1
H
H1
G
G1
F
F1
E
E1
D
D
26
D
23
D4
D1
C
C1
B
A
B1
A
26
26
A1
25
24
23
22
21
20
19
18
17
16
15
14
10
13
12
11
10
9
8
7
6
5
4
3
2
1
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
TABLE OF CONTENTS
GENERAL DESCRIPTION ................................................................................................ 1
FEATURES ................................................................................................................................................. 1
APPLICATIONS .......................................................................................................................................... 1
FIGURE 1. BLOCK DIAGRAM OF THE XRT94L43 WHEN CONFIGURED IN SONET MODE ..................................................................... 2
FIGURE 2. BLOCK DIAGRAM OF THE XRT94L43 WHEN CONFIGURED IN SDH/TUG-3 MODE .............................................................. 3
FIGURE 3. BLOCK DIAGRAM OF THE XRT94L43 WHEN CONFIGURED IN SDH/AU-3 MODE ................................................................. 3
PRODUCT FEATURES ..................................................................................................... 4
SONET TRANSMITTER .................................................................................................................................. 4
SONET RECEIVER........................................................................................................................................ 4
MAPPER ....................................................................................................................................................... 5
DS3 RECEIVE FRAMER ................................................................................................................................. 5
DS3 TRANSMIT FRAMER ............................................................................................................................... 6
E3 RECEIVE FRAMER .................................................................................................................................... 6
E3 TRANSMIT FRAMER .................................................................................................................................. 7
E3/DS3/STS-1 DE-JITTERING/DE-SYNC CIRCUIT .......................................................................................... 8
PERFORMANCE MONITORING ......................................................................................................................... 8
INTERRUPT, STATUS AND TEST ...................................................................................................................... 8
ORDERING INFORMATION ............................................................................................................................. 10
FIGURE 4. PIN OUT OF THE XRT94L43.......................................................................................................................................... 10
TABLE OF CONTENTS ............................................................................................................ I
PIN DESCRIPTIONS - DIRECT ADDRESSING ............................................................... 8
MICROPROCESSOR INTERFACE ...................................................................................................................... 8
SONET/SDH SERIAL LINE INTERFACE PINS ................................................................................................ 13
STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION .............................................................. 19
STS-12/STM-4 TELECOM BUS INTERFACE - RECEIVE DIRECTION ................................................................ 22
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION ...................................................................... 24
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION ................................................................ 33
RXSTS-1 TOH/POH INTERFACE................................................................................................................. 82
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION .................................................................. 85
RECEIVE TRANSPORT OVERHEAD INTERFACE ............................................................................................. 128
GENERAL PURPOSE INPUT/OUTPUT ........................................................................................................... 135
CLOCK INPUTS .......................................................................................................................................... 139
BOUNDARY SCAN ...................................................................................................................................... 139
MISCELLANEOUS PINS ............................................................................................................................... 139
POWER SUPPLY PINS ................................................................................................................................ 140
VDD = 3.3V ............................................................................................................................................ 140
VDD (2.5V).............................................................................................................................................. 140
GROUND ................................................................................................................................................... 142
NO CONNECTS .......................................................................................................................................... 142
PIN DESCRIPTIONS - INDIRECT ADDRESSING ....................................................... 144
MICROPROCESSOR INTERFACE .................................................................................................................. 144
SONET/SDH SERIAL LINE INTERFACE PINS .............................................................................................. 146
STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION ............................................................ 153
STS-12/STM-4 TELECOM BUS INTERFACE - RECEIVE DIRECTION .............................................................. 156
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION .................................................................... 158
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION .............................................................. 167
RXSTS-1 TOH/POH INTERFACE............................................................................................................... 219
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION ................................................................ 222
RECEIVE TRANSPORT OVERHEAD INTERFACE ............................................................................................. 272
GENERAL PURPOSE INPUT/OUTPUT ........................................................................................................... 279
CLOCK INPUTS .......................................................................................................................................... 287
BOUNDARY SCAN ...................................................................................................................................... 287
MISCELLANEOUS PINS ............................................................................................................................... 287
I
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
POWER SUPPLY PINS ...............................................................................................................................
VDD = 3.3V............................................................................................................................................
VDD (2.5V) .............................................................................................................................................
GROUND ..................................................................................................................................................
NO CONNECTS .........................................................................................................................................
288
288
288
290
290
DC ELECTRICAL CHARACTERISTICS ...................................................................... 292
DC CHARACTERISTICS FOR TTL INPUT/CMOS OUTPUT ............................................................................. 292
DC CHARACTERISTICS FOR LVPECL I/O .................................................................................................. 292
AC ELECTRICAL CHARACTERISTICS....................................................................... 293
1.0 MICROPROCESSOR INTERFACE TIMING FOR REVISION D SILICON ......................................... 293
1.1 MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS INTEL MODE .......................................... 293
FIGURE 5. ASYNCHRONOUS MODE 1 - INTEL TYPE PROGRAMMED I/O TIMING (WRITE CYCLE) ....................................................... 293
FIGURE 6. ASYNCHRONOUS MODE 1 - INTEL TYPE PROGRAMMED I/O TIMING (READ CYCLE)......................................................... 293
TABLE 1: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE INTEL ASYNCHRONOUS
MODE ......................................................................................................................................................................... 294
1.2 MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS MOTOROLA (68K) MODE ..................... 294
FIGURE 7. ASYNCHRONOUS MODE 2 - MOTOROLA 68K PROGRAMMED I/O TIMING (WRITE CYCLE) ................................................ 294
FIGURE 8. ASYNCHRONOUS MODE 2 - MOTOROLA 68K PROGRAMMED I/O TIMING (READ CYCLE) ................................................. 295
TABLE 2: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE WHEN CONFIGURED TO OPERATE IN THE MOTOROLA (68K) ASYNCHRONOUS MODE ........................................................................................................................................................ 295
1.3 MICROPROCESSOR INTERFACE TIMING - POWER PC 403 SYNCHRONOUS MODE ............................ 296
FIGURE 9. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (WRITE CYCLE)....................................................... 296
FIGURE 10. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (READ CYCLE) ...................................................... 297
TABLE 3: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE IBM POWER PC403 MODE
297
1.4 MICROPROCESSOR INTERFACE TIMING - IDT3051/52 MODE.................................................................. 298
FIGURE 11. SYNCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (WRITE CYCLE)................................................................. 298
FIGURE 12. SYNCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (READ CYCLE) .................................................................. 299
TABLE 4: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE IDT3051/52 MODE 299
2.0 STS-12/STM-4 TELECOM BUS INTERFACE TIMING INFORMATION ............................................. 299
2.1 STS-12/STM-4 TELECOM BUS INTERFACE TIMING INFORMATION......................................................... 300
2.2 THE TRANSMIT STS-12/STM-4 TELECOM BUS INTERFACE TIMING ....................................................... 300
FIGURE 13. WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE TRANSMIT STS-12/STM-4 TELECOM BUS INTERFACE ......... 300
FIGURE 14. TIMING RELATIONSHIPS BETWEEN THE TXSBFP INPUT PIN AND THE TXA_CLK OUTPUT PIN WITHIN THE TRANSMIT STS-12/STM4 TELECOM BUS INTERFACE ........................................................................................................................................ 301
TABLE 5: TIMING INFORMATION FOR THE TRANSMIT STS-12/STM-4 TELECOM BUS INTERFACE ..................................................... 301
2.3 THE RECEIVE STS-12/STM-4 TELECOM BUS INTERFACE TIMING .......................................................... 301
FIGURE 15. WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-12/STM-4 TELECOM BUS INTERFACE .............. 302
TABLE 6: TIMING INFORMATION FOR THE RECEIVE STS-12/STM-4 TELECOM BUS INTERFACE ....................................................... 302
3.0 STS-12/STM-4 PECL INTERFACE TIMING INFORMATION ............................................................. 303
3.1 THE RECEIVE STS-12/STM-4 PECL INTERFACE TIMING........................................................................... 303
FIGURE 16. WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-12/STM-4 PECL INTERFACE........................... 303
TABLE 7: TIMING INFORMATION FOR THE RECEIVE STS-12/STM-4 PECL INTERFACE ................................................................... 303
3.2 THE TRANSMIT STS-12/STM-4 PECL INTERFACE BLOCK....................................................................... 304
FIGURE 17. WAVEFORMS OF THE TRANSMIT STS-12/STM-4 PECL INTERFACE SIGNALS .............................................................. 304
TABLE 8: TIMING INFORMATION FOR THE TRANSMIT STS-12/STM-4 PECL INTERFACE ................................................................. 304
4.0 DS3/E3/STS-1 LIU INTERFACE TIMING INFORMATION.................................................................. 304
4.1 INGRESS DS3/E3/STS-1 INTERFACE TIMING.............................................................................................. 304
FIGURE 18. WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE INPUT TO THE DS3/E3/STS-1 LIU INTERFACE IN THE INGRESS DIRECTION ........................................................................................................................................................................... 305
4.2 INGRESS TIMING FOR DS3/E3 APPLICATIONS .......................................................................................... 305
TABLE 9: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS WHEN THE DS3/E3 FRAMER
BLOCK HAS BEEN CONFIGURED TO SAMPLE THE DS3/E3/STS_1_DATA_IN AND DS3/E3/STS_1_NEG_IN INPUT PINS UPON THE
RISING EDGE OF DS3/E3/STS_1_CLOCK_IN ............................................................................................................ 305
TABLE 10: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS AND WHEN THE DS3/E3
FRAMER BLOCK HAS BEEN CONFIGURED TO SAMPLE THE DS3/E3/STS_1_DATA_IN AND DS3/E3/STS_1_NEG_IN INPUT PINS
UPON THE FALLING EDGE OF DS3/E3/STS_1_CLOCK_IN ........................................................................................... 306
4.3 INGRESS TIMING FOR STS-1/STM-0 APPLICATIONS ................................................................................ 306
TABLE 11: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0 APPLICATIONS ................. 306
4.4 THE EGRESS DS3/E3/STS-1 INTERFACE TIMING....................................................................................... 306
FIGURE 19. WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE OUTPUT FROM THE DS3/E3/STS-1 LIU INTERFACE (IN THE RECEIVE/
EGRESS DIRECTION).................................................................................................................................................... 307
II
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
4.5 EGRESS TIMING FOR DS3/E3 APPLICATIONS ........................................................................................... 307
TABLE 12: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS AND WHEN THE DS3/E3
FRAMER BLOCK HAS BEEN CONFIGURED TO OUTPUT THE OUTBOUND DS3/E3 DATA (VIA THE DS3/E3/STS_1_DATA_OUT AND
DS3/E3/STS_1_NEG_OUT OUTPUT PINS) UPON THE RISING EDGE OF DS3/E3/STS_1_CLOCK_OUT ....................... 307
TABLE 13: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS AND WHEN THE DS3/E3
FRAMER BLOCK HAS BEEN CONFIGURED TO OUTPUT THE OUTBOUND DS3/E3 DATA (VIA THE DS3/E3/STS_1_DATA_OUT AND
DS3/E3/STS_1_NEG_OUT OUTPUT PINS) UPON THE FALLING EDGE OF DS3/E3/STS_1_CLOCK_OUT ..................... 307
4.6 EGRESS TIMING FOR STS-1/STM-0 APPLICATIONS.................................................................................. 308
TABLE 14: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0 APPLICATIONS .................. 308
5.0 STS-3/STM-1 TELECOM BUS INTERFACE TIMING INFORMATION ............................................... 308
5.1 STS-3/STM-1 TELECOM BUS INTERFACE TIMING INFORMATION ........................................................... 308
5.2 THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE TIMING ............................................................ 308
FIGURE 20. WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE ............. 309
TABLE 15: TIMING INFORMATION FOR THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE ....................................................... 309
5.3 THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE TIMING.......................................................... 309
FIGURE 21. WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE .............. 310
TABLE 16: TIMING INFORMATION FOR THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE ..................................................... 310
6.0 TRANSMIT TOH OVERHEAD INPUT PORT....................................................................................... 310
6.1 TRANSMIT TOH OVERHEAD INPUT PORT .................................................................................................. 310
FIGURE 22. TIMING WAVEFORM OF THE TRANSMIT TOH OVERHEAD INPUT PORT .......................................................................... 311
TABLE 17: TIMING INFORMATION FOR THE TRANSMIT TOH OVERHEAD INPUT PORT ....................................................................... 311
7.0 TRANSMIT POH OVERHEAD INPUT PORT....................................................................................... 311
7.1 TRANSMIT POH OVERHEAD INPUT PORT .................................................................................................. 311
FIGURE 23. TIMING WAVEFORM OF THE TRANSMIT POH OVERHEAD INPUT PORT .......................................................................... 312
TABLE 18: TIMING INFORMATION FOR THE TRANSMIT POH OVERHEAD INPUT PORT ....................................................................... 312
8.0 TRANSMIT ORDERWIRE (E1, F1, E2) BYTE OVERHEAD INPUT PORT ......................................... 312
8.1 TRANSMIT E1, F1, E2 (ORDER-WIRE) BYTE OVERHEAD INPUT PORT ................................................... 312
FIGURE 24. TIMING WAVEFORM OF THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT .................................................... 313
TABLE 19: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT ................................................. 313
9.0 TRANSMIT SECTION DCC INSERTION INPUT PORT ...................................................................... 313
9.1 TRANSMIT SECTION DCC INSERTION INPUT PORT .................................................................................. 313
FIGURE 25. TIMING WAVEFORM OF THE TRANSMIT SECTION DCC OVERHEAD INSERTION PORT .................................................... 314
TABLE 20: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT ................................................. 314
10.0 TRANSMIT LINE DCC INSERTION INPUT PORT ............................................................................ 314
10.1 TRANSMIT LINE DCC INSERTION INPUT PORT........................................................................................ 314
FIGURE 26. TIMING WAVEFORM OF THE TRANSMIT LINE DCC INSERTION INPUT PORT ................................................................... 315
TABLE 21: TIMING INFORMATION FOR THE TRANSMIT LINE DCC INSERTION INPUT PORT ................................................................ 315
11.0 RECEIVE TOH OVERHEAD OUTPUT PORT.................................................................................... 315
11.1 RECEIVE TOH OVERHEAD OUTPUT PORT ............................................................................................... 315
FIGURE 27. TIMING WAVEFORM OF THE RECEIVE TOH OVERHEAD OUTPUT PORT ........................................................................ 316
TABLE 22: TIMING INFORMATION FOR THE RECEIVE TOH OVERHEAD OUTPUT PORT ..................................................................... 316
12.0 RECEIVE POH OVERHEAD OUTPUT PORT ................................................................................... 316
12.1 RECEIVE POH OVERHEAD OUTPUT PORT ............................................................................................... 316
FIGURE 28. TIMING WAVEFORM OF THE RECEIVE POH OVERHEAD OUTPUT PORT ........................................................................ 317
TABLE 23: TIMING INFORMATION FOR THE RECEIVE POH OVERHEAD OUTPUT PORT ..................................................................... 317
13.0 RECEIVE ORDERWIRE (E1, F1, E2) BYTES OVERHEAD OUTPUT PORT ................................... 317
13.1 RECEIVE E1, F1, E2 (ORDER-WIRE) BYTE OVERHEAD OUTPUT PORT ................................................ 317
FIGURE 29. TIMING WAVEFORM OF THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT PORT ................................................... 318
TABLE 24: TIMING INFORMATION FOR THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT PORT ................................................ 318
14.0 RECEIVE SECTION DCC EXTRACTION OUTPUT PORT ............................................................... 318
14.1 RECEIVE SECTION DCC OUTPUT PORT ................................................................................................... 318
FIGURE 30. TIMING WAVEFORM OF THE RECEIVE SECTION DCC OUTPUT PORT............................................................................ 319
TABLE 25: TIMING INFORMATION FOR THE RECEIVE SECTION DCC OUTPUT PORT ......................................................................... 319
15.0 RECEIVE LINE DCC EXTRACTION OUTPUT PORT ....................................................................... 319
15.1 RECEIVE LINE DCC OUTPUT PORT ........................................................................................................... 319
FIGURE 31. TIMING WAVEFORM OF THE RECEIVE LINE DCC OUTPUT PORT .................................................................................. 320
TABLE 26: TIMING INFORMATION FOR THE RECEIVE LINE DCC OUTPUT PORT ............................................................................... 320
ORDERING INFORMATION.......................................................................................... 321
PACKAGE DIMENSIONS.............................................................................................. 321
REVISION HISTORY.................................................................................................................................... 322
III
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
PIN DESCRIPTIONS - DIRECT ADDRESSING
MICROPROCESSOR INTERFACE
PIN #
U22
SIGNAL NAME
PCLK
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Microprocessor Interface Clock Input:
This clock input signal is only used if the Microprocessor Interface has been
configured to operate in one of the Synchronous Modes (e.g., Power PC
403 Mode). If the Microprocessor Interface is configured to operate in one
of these modes, then it will use this clock signal to do the following.
• To sample the CS, WR/R/W, A[15:0], D[7:0], RD/DS and DBEN input
pins, and
• To update the state of the D[7:0] and the RDY/DTACK output signals.
NOTES:
L25
L23
L22
A23
F24
W21
AE22
A25
H24
AB23
AD15
V26
R24
P26
M24
T26
M22
M25
L26
1.
The Microprocessor Interface can work with µPCLK frequencies
ranging up to 66MHz.
2.
This pin is inactive if the user has configured the Microprocessor
Interface to operate in either the Intel-Asynchronous or the
Motorola-Asynchronous Modes. In this case, the user should tie
this pin to GND.
PTYPE_0
PTYPE_1
PTYPE_2
I
TTL
Microprocessor Type Select input:
These three input pins are used to configure the Microprocessor Interface
block to readily support a wide variety of Microprocessor Interfaces. The
relationship between the settings of these input pins and the corresponding
Microprocessor Interface configuration is presented below.
PTYPE[2:0] Microprocessor Interface Mode
000
Intel - Asynchronous Mode
l001
Motorola - Asynchronous Mode (Motorola 68k)
010
Intel X86
011
Intel I960
100
IDT3051/52 (MIPS)
101
Power PC 403 Mode
PADDR_0
PADDR_1
PADDR_2
PADDR_3
PADDR_4
PADDR_5
PADDR_6
PADDR_7
PADDR_8
PADDR_9
PADDR_10
PADDR_11
PADDR_12
PADDR_13
PADDR_14
PADDR_15
I
TTL
Address Bus Input pins (Microprocessor Interface):
These pins permit the Microprocessor to identify on-chip registers and
Buffer/Memory locations (within the XRT94L43) whenever it performs
READ and WRITE operations with the XRT94L43.
8
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
MICROPROCESSOR INTERFACE
PIN #
SIGNAL NAME
T22
R22
U24
R21
W26
T25
R25
R26
PDATA_0
PDATA_1
PDATA_2
PDATA_3
PDATA_4
PDATA_5
PDATA_6
PDATA_7
Y26
WR/
R/W
I/O
SIGNAL
TYPE
I/O
TTL
Bi-Directional Data Bus Pins (Microprocessor Interface):
These pins are used to drive and receive data over the bi-directional data
bus,, whenever the Microprocessor performs READ or WRITE operations
with the Microprocessor Interface of the XRT94L43.
I
TTL
Write Strobe/Read-Write operation Identifier:
The function of this input pin depends upon which mode the Microprocessor Interface has been configured to operate in.
Intel-Asynchronous Mode - WR - Write Strobe Input:
If the Microprocessor Interface is configured to operate in the Intel-Asynchronous Mode, then this input pin functions as the WR (Active Low WRITE
Strobe) input signal from the Microprocessor. Once this active-low signal is
asserted, then the input buffers (associated with the Bi-Directional Data
Bus pin, D[7:0]) will be enabled. The Microprocessor Interface will latch the
contents on the Bi-Directional Data Bus (into the "target" register or address
location, within the XRT94L43) upon the rising edge of this input pin.
Motorola-Asynchronous Mode - R/W - Read/Write Operation Identification Input Pin:
If the Microprocessor Interface is operating in the "Motorola-Asynchronous
Mode", then this pin is functionally equivalent to the "R/W" input pin. In the
Motorola Mode, a "READ" operation occurs if this pin is held at a logic "1",
coincident to a falling edge of the RD/DS (Data Strobe) input pin. Similarly
a WRITE operation occurs if this pin is at a logic "0", coincident to a falling
edge of the RD/DS (Data Strobe) input pin.
Power PC 403 Mode - R/W - Read/Write Operation Identification Input:
If the Microprocessor Interface is configured to operate in the Power PC
403 Mode, then this input pin will function as the "Read/Write Operation
Identification Input" pin.
Anytime the Microprocessor Interface samples this input signal at a logic
low (while also sampling the CS input pin "low") upon the rising edge of
µPCLK, then the Microprocessor Interface will (upon the very same rising
edge of µPCLK) latch the contents of the Address Bus (A[15:0]) into the
Microprocessor Interface circuitry, in preparation for this forthcoming READ
operation. At some point (later in this READ operation) the Microprocessor
will also assert the DBEN/OE input pin, and the Microprocessor Interface
will then place the contents of the "target" register (or address location
within the XRT94L43) upon the Bi-Directional Data Bus pins (D[7:0]), where
it can be read by the Microprocessor .
Anytime the Microprocessor Interface samples this input signal at a logic
high (while also sampling the CS input pin a logic "low") upon the rising
edge of µPCLK, then the Microprocessor Interface will (upon the very same
rising edge of µPCLK) latch the contents of the Address Bus (A[15:0]) into
the Microprocessor Interface circuitry, in preparation for the forthcoming
WRITE operation. At some point (later in this WRITE operation) the Microprocessor will also assert the RD/DS/WE input pin, and the Microprocessor
Interface will then latch the contents of the Bi-Directional Data Bus (D[7:0])
into the contents of the "target" register or buffer location (within the
XRT94L43).
DESCRIPTION
9
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
MICROPROCESSOR INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
T23
RD/
DS/
WE
I
TTL
READ Strob/Data Strobe:
The function of this input pin depends upon which mode the Microprocessor Interface has been configured to operate in.
Intel-Asynchronous Mode - RD - READ Strobe Input:
If the Microprocessor Interface is operating in the Intel-Asynchronous
Mode, then this input pin will function as the RD (Active Low Read Strobe)
input signal from the Microprocessor. Once this active-low signal is
asserted, then the XRT94L43 will place the contents of the addressed register (or buffer location) on the Microprocessor Interface Bi-directional data
bus (D[7:0]). When this signal is negated, then the Data Bus will be tristated.
Motorola-Asynchronous (68K) Mode - DS - Data Strobe:
If the Microprocessor Interface is operating in the Motorola-Asynchronous
Mode, then this input pin will function as the DS (Data Strobe) input signal.
Power PC 403 Mode - WE - Write Enable Input:
If the Microprocessor Interface is operating in the Power PC 403 Mode,
then this input pin will function as the WE (Write Enable) input pin.
Anytime the Microprocessor Interface samples this active-low input signal
(along with CS and WR/R/W) also being asserted (at a logic low level) upon
the rising edge of µPCLK, then the Microprocessor Interface will (upon the
very same rising edge of µPCLK) latch the contents on the Bi-Directional
Data Bus (D[7:0]) into the "target" on-chip register or buffer location within
the XRT94L43.
R23
PALE/PAS_L
I
TTL
Address Latch Enable/Address Strobe:
This input pin is used to latch the address (present at the Microprocessor
Interface Address Bus pins (A[6:0]) into the Mapper/Framer Microprocessor
Interface block and to indicate the start of a READ or WRITE cycle. This
input pin is active-High, in the Intel Mode and active-Low in the Motorola
Mode.
V22
PCS_L
I
TTL
Chip Select Input:
The user must assert this active low signal in order to select the Microprocessor Interface for READ and WRITE operations between the Microprocessor and the XRT94L43 on-chip registers and buffer locations.
10
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
MICROPROCESSOR INTERFACE
PIN #
Y25
SIGNAL NAME
PRDY_L/
DTACK/
RDY
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS READY or DTACK Output:
The function of this input pin depends upon which mode the Microprocessor Interface has been configured to operate in.
Intel-Asynchronous Mode - RDY - Ready Output:
If the Microprocessor Interface has been configured to operate in the IntelAsynchronous Mode, then this output pin will function as the "active-low"
READY output.
During a READ or WRITE cycle, the Microprocessor Interface block will
toggle this output pin to the logic low level, ONLY when it (the Microprocessor Interface) is ready to complete or terminate the current READ or
WRITE cycle. Once the Microprocessor has determined that this input pin
has toggled to the logic "low" level, then it is now safe for it to move on and
execute the next READ or WRITE cycle.
If (during a READ or WRITE cycle) the Microprocessor Interface block is
holding this output pin at a logic "high" level, then the Microprocessor is
expected to extend this READ or WRITE cycle, until it detects this output
pin being toggled to the logic low level.
Motorola-Asynchronous Mode - DTACK - Data Transfer Acknowledge
Output
If the Microprocessor Interface has been configured to operate in the
Motorola-Asynchronous Mode, then this output pin will function as the
"active-low" DTACK output.
During a READ or WRITE cycle, the Microprocessor Interface block will
toggle this output pin to the logic low level, ONLY when it (the Microprocessor Interface) is ready to complete or terminate the current READ or
WRITE cycle. Once the Microprocessor has determined that this input pin
has toggled to the logic "low" level, then it is now safe for it to move on and
execute the next READ or WRITE cycle.
If (during a READ or WRITE cycle) the Microprocessor Interface block is
holding this output pin at a logic "high" level, then the Microprocessor is
expected to extend this READ or WRITE cycle, until it detects this output
pin being toggled to the logic low level.
Power PC 403 Mode - RDY - Ready Output:
If the Microprocessor Interface has been configured to operate in the Power
PC 403 Mode, then this output pin will function as the "active-high" READY
output.During a READ or WRITE cycle, the Microprocessor Interface block
will toggle this output pin to the logic high level, ONLY when it (the Microprocessor Interface) is ready to complete or terminate the current READ or
WRITE cycle. Once the Microprocessor has sampled this signal being at
the logic "high" level (upon the rising edge of PCLK), then it is now safe for
it to move on and execute the next READ or WRITE cycle.
If (during a READ or WRITE cycle) the Microprocessor Interface block is
holding this output pin at a logic "low" level, then the Microprocessor is
expected to extend this READ or WRITE cycle, until it samples this output
pin being at the logic low level.
NOTE: The Microprocessor Interface will update the state of this output pin
upon the rising edge of µPCLK.
11
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
MICROPROCESSOR INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
T21
PDBEN_L
I
TTL
Bi-directional Data Bus Enable Input Pin:
This input pin permits the user to either enable or tri-state the Bi-Directional
Data Bus pins (D[7:0]), as described below.
Setting this input pin "low" enables the Bi-directional Data bus. Setting this
input "high" tri-states the Bi-directional Data Bus.
U25
PBLAST_L
I
TTL
Last Burst Transfer Indicator input Pin:
If the Microprocessor Interface is operating in the Intel-I960 Mode, then this
input pin is used to indicate (to the Microprocessor Interface block) that the
current data transfer is the last data transfer within the current burst operation.
The Microprocessor should assert this input pin (by toggling it "Low") in
order to denote that the current READ or WRITE operation (within a
BURST operation) is the last operation of this BURST operation.
NOTE: If the user has configured the Microprocessor Interface to operate
in the Intel-Asynchronous, the Motorola-Asynchronous or the
Power PC 403 Mode, then he/she should tie this input pin to GND.
AC26
PINT_L
O
CMOS Interrupt Request Output:
This active-Low, active-low output signal will be asserted when the
XRT94L43 is requesting interrupt service from the Microprocessor. This
output pin should typically be connected to the Interrupt Request input of
the Microprocessor.
L24
RESET_L
I
TTL
Reset Input:
When this active-Low signal is asserted, the XRT94L43 will be asynchronously reset. When this occurs, all outputs will be tri-stated and all on-chip
registers will be reset to their default values.
M26
FULL_ADDR_
SEL
I
TTL
Full Address Select input pin:This input pin, along with
"DIRECT_ADD_SEL" (pin M23) must both be pulled "HIGH" in order to
configure the Microprocessor Interface block to operate in the "Full
Address" Mode.If the Microprocessor Interface is configured to operate in
the "Full Address" Mode, then it will then provide a 16-bit Address Bus
(which is sufficient to "Directly Address" all of the on-chip registers.
M23
DIRECT_ADD
_SEL
I
TTL
Direct Address Select input pin:This input pin, along with
"FULL_ADDR_SEL" (pin M26) must both be pulled "HIGH" in order to configure the Microprocessor Interface block to operate in the "Full Address"
Mode.If the Microprocessor Interface is configured to operate in the "Full
Address" Mode, then it will then provide a 16-bit Address Bus (which is sufficient to "Directly Address" all of the on-chip registers.
12
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
M5
SIGNAL NAME
RXL_CLKL_P
I/O
SIGNAL
TYPE
I
LVPECL
DESCRIPTION
Receive STS-12/STM-4 Clock - Positive Polarity PECL Input:
This input pin, along with RXL_CLKL_N functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface Block will sample the
data, applied at the RXLDATA_P/RXLDATA_N input pins, upon the
rising edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_N functions as the
Primary Receive Clock Input port.
L5
RXL_CLKL_N
I
LVPECL
Receive STS-12/STM-4 Clock - Negative Polarity PECL Input:
This input pin, along with RXL_CLKL_P functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receiver STS-12/STM-4 Interface Block will sample
the data applied at the RXLDATA_P/RXLDATA_N input pins, upon
the falling edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_P functions as the
Primary Receive Clock Input Port.
K2
RXL_CLKL_R_P
I
LVPECL
Receive STS-12/STM-4 Clock - Positive Polarity PECL Input Redundant Port:
This input pin, along with RXL_CLKL_R_N functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface Block will sample the
data, applied at the RXLDATA_P/RXLDATA_N input pins, upon the
rising edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_R_N functions as the
Redundant Receive Clock Input Port.
K1
RXL_CLKL_R_N
I
LVPECL
Receive STS-12/STM-4 Clock - Negative Polarity PECL Input Redundant Port:
This input pin, along with RXL_CLKL_P functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receiver STS-12/STM-4 Interface Block will sample
the data applied at the RXLDATA_P/RXLDATA_N input pins, upon
the falling edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_R_ P functions as the
Redundant Receive Clock Input Port.
K4
RXL_DATA_P
I
LVPECL
Receive STS-12/STM-4 Data - Positive Polarity PECL Input:
This input pin, along with RXL_DATA_N functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_P (and the falling edge of the RXL_CLKL_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_N functions as the
Primary Receive Data Input Port.
13
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
L4
SIGNAL NAME
RXL_DATA_N
I/O
SIGNAL
TYPE
I
LVPECL
DESCRIPTION
Receive STS-12/STM-4 Data - Negative Polarity PECL Input:
This input pin, along with RXL_DATA_P functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_P (and the falling edge of the RXL_CLKL_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_P functions as the
Primary Receive Data Input Port.
K3
RXL_DATA_R_P
I
LVPECL
Receive STS-12/STM-4 Data - Positive Polarity PECL Input Redundant Port:
This input pin, along with RXL_DATA_R_N functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_R_P (and the falling edge of the RXL_CLKL_R_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_R_N functions as the
Redundant Receive Data Input Port.
L3
RXL_DATA_R_N
I
LVPECL
Receive STS-12/STM-4 Data - Negative Polarity PECL Input Redundant Port:
This input pin, along with RXL_DATA_R_P functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_R_P (and the falling edge of the RXL_CLKL_R_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_R_N functions as the
Redundant Receive Data Input Port.
T3
TXL_CLKI_P
I
LVPECL
Transmit Reference Clock - Positive Polarity PECL Input:
This input pin, along with TxL_CLKI_N can be configured to function as the timing source for the STS-12/STM-4 Transmit Interface
Block.
If these two input pins are configured to function as the timing
source, then a 622.08MHz clock signal must be applied to these
input pins in the form of a PECL signal. These two inputs can be
configured to function as the timing source by writing the appropriate data into the Interface Control Register - Byte 2 (Indirect
Address = 0x00, 0x31), (Direct Address = 0x0131).
14
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
T4
TXL_CLKI_N
I
LVPECL
Transmit Reference Clock - Negative Polarity PECL Input:
This input pin, along with TxL_CLKI_P can be configured to function as the timing source for the STS-12/STM-4 Transmit Interface
Block.
If these two input pins are configured to function as the timing
source, then a 622.08MHz clock signal must be applied to these
input pins in the form of a PECL signal. These two inputs can be
configured to function as the timing source by writing the appropriate data into the Interface Control Register - Byte 2 (Indirect
Address = 0x00, 0x31), (Direct Address = 0x0131).
N1
TXL_DATA_P
O
LVPECL
Transmit STS-12/STM-4 Data - Positive Polarity PECL Output:
This output pin, along with TXL_DATA_N functions as the Transmit
Data Output, to the System back-plane (for transmission to some
other System Board) or an Optical Transceiver (for transmission to
remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_P/TXL_CLKO_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_N functions as the
Primary Transmit Data Output Port.
N2
TXL_DATA_N
O
LVPECL
Transmit STS-12/STM-4 Data - Negative Polarity PECL Output:
This output pin, along with TXL_DATA_P functions as the Transmit
Data Output, to the System back-plane (for transmission to some
other System Board) or an Optical Transceiver (for transmission to
remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_P/TXL_CLKO_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_P functions as the
Primary Transmit Data Output Port.
P1
TXL_DATA_R_P
O
LVPECL
Transmit STS-12/STM-4 Data - Positive Polarity PECL Output Redundant Port:
This output pin, along with TXL_DATA_R_N functions as the
Transmit Data Output, to the System back-plane (for transmission
to some other System Board) or an Optical Transceiver (for transmission to remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_R_P/TXL_CLKO_R_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_N functions as the
Redundant Transmit Data Output Port.
15
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
P2
SIGNAL NAME
I/O
SIGNAL
TYPE
TXL_DATA_R_N
O
LVPECL
DESCRIPTION
Transmit STS-12/STM-4 Data - Negative Polarity PECL Output Redundant Port:
This output pin, along with TXL_DATA_R_P functions as the Transmit Data Output, to the System back-plane (for transmission to
some other System Board) or an Optical Transceiver (for transmission to remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_R_P/TXL_CLKO_R_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_R_P functions as the
Redundant Transmit Data Output Port.
M1
TXL_CLKO_P
O
LVPECL
Transmit STS-12/STM-4 Clock - Positive Polarity PECL Output:
This output pin, along with TXL_CLKO_N functions as the Transmit
Clock Output signal. These output pins are typically used in HighSpeed Back-Plane Applications. In this case, outbound STS-12/
STM-4 data is output via the TXL_DATA_P/TXL_DATA_N output
pins upon the rising edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_CLKO_N functions as the
Primary Transmit Output Clock signal.
M2
TXL_CLKO_N
O
LVPECL
Transmit STS-12/STM-4 Clock - Negative Polarity PECL Output:
This output pin, along with TXLCLKO_P functions as the Transmit
Clock Output signal. These output pins are typically used in HighSpeed Back-Plane Applications. In this case, outbound STS-12/
STM-4 data is output via the TXL_DATA_P/TXL_DATA_N output
pins upon the falling edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_CLKO_N functions as the
Primary Transmit Output Clock signal.
R1
TXL_CLKO_R_P
O
LVPECL
Transmit STS-12/STM-4 Clock - Positive Polarity PECL Output
- Redundant Port:
This output pin, along with TXL_CLKO_R_N functions as the
Transmit Clock Output signal. These output pins are typically used
in High-Speed Back-Plane Applications. In this case, outbound
STS-12/STM-4 data is output via the TXL_DATA_R_P/
TXL_DATA_R_N output pins upon the rising edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_CLKO_R_N functions as the
Redundant Transmit Output Clock signal.
16
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH SERIAL LINE INTERFACE PINS
SIGNAL NAME
I/O
SIGNAL
TYPE
R2
TXL_CLKO_R_N
O
LVPECL
Transmit STS-12/STM-4 Clock - Negative Polarity PECL Output
- Redundant Port:
This output pin, along with TXL_CLKO_R_P functions as the
Transmit Clock Output signal. These output pins are typically used
in High-Speed Back-Plane Applications. In this case, outbound
STS-12/STM-4 data is output via the TXL_DATA_R_P/
TXL_DATA_R_N output pins upon the rising edge of this clock signal.
For APS (Automatic Protection Switching) purposes, this output
pin, along with TXL_CLKO_R_P functions as the Redundant
Transmit Output Clock signal.
R4
REFCLK
I
TTL
77.76MHz or 622.08MHz Clock Synthesizer Reference Clock
Input Pin:
The function of this input pin depends upon whether or not the
Transmit STS-12/STM-4 Clock Synthesizer block is enabled.
If Clock Synthesizer is Enabled.
If the Transmit STS-12/STSM-4 Clock Synthesizer block is to be
used to generate the 77.76MHz and/or 622.08MHz clock signal for
the STS-12/STM-4 block, then a clock signal of either of the following frequencies, must be applied to this input pin.
PIN #
DESCRIPTION
• 12.96MHz
• 19.44MHz
• 51.84 MHz
• 77.76 MHz
Afterwards, the appropriate data needs to be written into the Interface Control Register - Byte 2 (Indirect Address = 0x00, 0x31),
(Direct Address = 0x0131) in order to;
(1) configure the Clock Synthesizer Block to accept any of the
above-mentioned signals and generate a 77.76MHz or 622.08MHz
clock signal,
(2) to configure the Clock Synthesizer to function as the Clock
Source for the STS-12/STM-4 block.
If Clock Synthesizer is NOT Enabled:
If the Transmit STS-12/STSM-4 Clock Synthesizer block is NOT to
be used to generate the 77.76MHz and/or 622.08MHz clock signal
for the STS-12/STM-4 block, then a 77.76MHz clock signal must
be applied to this input pin.
AF6
LOS
I
TTL
Loss of Optical Carrier Input - Primary:
The Loss of Carrier output (from the Optical Transceiver) should be
connected to this input pin.
If this input pin is pulled "High", then the Primary Receive STS-12
TOH Processor block will declare a Loss of Optical Carrier condition.
NOTE: This input pin is only active if the Primary Port is active. This
input pin is inactive if the Redundant Port is active.
17
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
AE6
SIGNAL NAME
LOS-R
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Loss of Optical Carrier Input - Redundant:
The Loss of Carrier output (from the Optical Transceiver) should be
connected to this input pin.
If this input pin is pulled "High", then the Redundant Receive STS12 TOH Processor block will declare a Loss of Optical Carrier condition.
NOTE: This input pin is only active if the Redundant Port is active.
This input pin is inactive if the Primary Port is active.
AB7
EXSWITCH
O
CMOS
External (APS) Switch Output Pin:
This output pin can be used to permit the XRT94L43 to perform
APS externally. Specifically, this output pin can be connected to
some circuitry that permits the re-direction of STS-12/STM-4 traffic,
should an APS event be needed.
NOTE: This output pin is disabled if the EXSWITCHDIS input pin
number AB6 is pulled "High".
AB6
EXSWITCHDIS
I
TTL
External (APS) Switch Disable:
This input pin permits the user to configure the XRT94L43 to perform Line APS Switching internally or externally.
0 - Configures the XRT94L43 to perform APS externally. In this
mode, the XRT94L43 will execute an APS by toggling the state of
the "EXSWITCH" output pin.
1 - Configures the XRT94L43 to perform APS internally. In this
mode, each of the 12 Receive SONET POH Processor blocks
(within the XRT94L43) will internally switch from processing the
incoming STS-1 SPE data from the "Primary" Receive STS-12
TOH Processor block, to now processing the incoming STS-1 SPE
data from the "Redundant" Receive STS-12 TOH Processor block
(or vice-versa).
18
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
G2
TXA_CLK
O
CMOS
STS-12/STM-4 Transmit Telecom Bus Clock Signal:
This output clock signal functions as the clock source for the STS-12/
STM-4 Transmit Telecom Bus. All output signals (on the Transmit
STS-12/STM-4 Telecom Bus) are updated upon the rising edge of this
clock signal.
This clock signal operates at 77.76MHz and is derived from the Transmit Clock Synthesizer block.
J1
TXA_C1J1
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - C1/J1 Byte Phase Indicator
Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the TxA_D[7:0] output,
and
2. Whenever the J1 byte is being output via the TxA_D[7:0] output.
NOTES:
1. The STS-12/STM-4 Transmit Telecom Bus will indicate that it
is transmitting the C1 byte (via the TXA_D[7:0] output pins),
by pulsing this output pin "High" (for one period of TXA_CLK)
and keeping the TXA_PL output pin pulled "Low".
2. The STS-12/STM-4 Transmit Telecom Bus will indicate that it
is transmitting the J1 byte (via the TXA_D[7:0] output pins),
by pulsing this output pin "High" (for one period of TXA_CLK)
while the TXA_PL output pin is pulled "High".
3. This output pin is only active if the STS-12/STM-4 Telecom
Bus is enabled.
J3
TXA_ALARM
O
CMOS
Transmit STS-12/STM-4 Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", corresponding to any STS-1 signal (that
is being output via the TXA_D[7:0] output pins) is carrying the AIS-P
indicator.
This output pin is "Low" for all other conditions.
H1
TXA_DP
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - Parity Output Pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output via the
TXA_D[7:0] output pins.
2. The EVEN or ODD parity value of the bits which are being output via
the TXA_D[7:0] output pins and the states of the TXA_PL and
TXA_C1J1 output pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Telecom Bus Control
Register (Indirect Address = 0x00, 0x37), (Direct Address =
0x0137)..
19
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
K5
SIGNAL NAME
TxSBFP
I/O
I
SIGNAL
TYPE
TTL
DESCRIPTION
Telecom Bus Sync Reference Input:
If either the STS-12/STM-4 or any of the STS-3/STM-1 Telecom Bus
Interfaces are enabled, then an 8kHz pulse must be applied to this
input pin.
If the STS-12/STM-4 Telecom Bus Interface is enabled:
The Transmit STS-12/STM-4 Telecom Bus Interface will begin transmitting the very first byte of given STS-12 or STM-4 frame, upon sensing a rising edge (of the 8kHz signal) at this input pin.
If any of the STS-3/STM-1 Telecom Bus Interfaces are enabled:
The Receive STS-3/STM-1 Telecom Bus Interfaces will begin transmitting the very first byte of a given STS-3 or STM-1 frame, upon sensing
a rising edge (of the 8kHz signal) at this input pin.
NOTE: If none of the Telecom Bus Interfaces are used, then this pin
should be tied to GND.
NOTES:
1. 1.If this input pin is tied to GND, then the Transmit STS-12
TOH Processor block will generate its outbound STS-12/
STM-4 frames asynchronously with respect to any input
signal.
2. This input signal must be synchronized with the signal that is
supplied to the REFCLK input pin. Failure to insure this will
result in bit errors being generated within the outbound STS12/STM-4 signal.
3. An 8kHz pulse must be applied to this input pin, that has a
width of approximately 12.8ns (one 77.76MHz clock period).
Do not apply a 50% duty cycle 8kHz signal to this input pin.
20
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
F3
TxA_PL
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - Payload Data Indicator Signal:
This output pin indicates whether or not TOH (Transmit Overhead)
bytes are being output via the TXA_D[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-12/STM-4
Transmit Telecom Bus is transmitting a Transport Overhead byte via
the TXA_D[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the
STS-12/STM-4 Transmit Telecom Bus is transmitting something other
than a Transport Overhead (e.g., the POH or STS-1/STS-3c SPE
bytes) byte via the TXA_D[7:0] output pins.
G1
J5
J2
H5
E1
F2
F1
E3
TxA_D0
TxA_D1
TxA_D2
TxA_D3
TxA_D4
TxA_D5
TxA_D6
TxA_D7
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - Transmit Output Data Bus
pins:
These 8 output pins function as the "STS-12/STM-4 Transmit Telecom
Bus" Transmit Output data bus. If the STS-12/STM-4 Telecom Bus
Interface is enabled, then all STS-12/STM-4 data is output via these
pins (in a byte-wide manner), upon the rising edge of the TXA_CLK
output pin.
NOTES:
1. The pin TXA_D7 will output the MSB (Most Significant Bit) of
each byte that is output via the Transmit STS-12/STM-4
Telecom Bus Interface.
2. The pin TXA_D0 will output the LSB (Least Significant Bit) of
each byte that is output via the Transmit STS-12/STM-4
Telecom Bus Interface.
21
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
V4
SIGNAL NAME
RxD_CLK
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Receive STS-12/STM-4 Telecom Bus Interface - Clock Input Signal:
This input clock signal functions as the clock source for the Receive STS12/STM-4 Telecom Bus Interface. All Receive STS-12/STM-4 Telecom
Bus Interface input signals are sampled upon the rising edge of this input
clock signal.
This clock signal should operate at 77.76MHz.
NOTE: This input pin is only used if the STS-12/STM-4 Telecom Bus has
been enabled. It should be tied to GND otherwise.
U5
RxD_PL
I
TTL
Receive STS-12/STM-4 Telecom Bus Interface - Payload Indicator Signal:
This input pin indicates whether or not STS-1/STS-3c SPE bytes are being
input via the RXD_D[7:0] input pins.
This input pin should be pulled "High" coincident to whenever the Receive
STS-12/STM-4 Telecom Bus Interface block is receiving STS-1/STS-3c
SPE data bytes via the RXD_D[7:0] input pins.
Conversely, this input pin should be pulled "Low" coincident to whenever
the Receive STS-12/STM-4 Telecom Bus Interface block is receiving
something other than an STS-1/STS-3c SPE byte (e.g., a TOH byte) via
the RXD_D[7:0] input pins.
NOTE: The user should tie this pin to GND if the STS-12/STM-4 Telecom
Bus Interface is configured to operate in the "Re-Phase ON" Mode
or is disabled.
V2
RxD_C1J1
I
TTL
STS-12/STM-4 Receive Telecom Bus C1/J1 Byte Phase Indicator Input
Signal:
This input pin should be pulsed "High" during both of the following conditions.
1. Whenever the C1 byte is being input to the Receive STS-12/STM-4
Telecom Bus Interface - Data Bus Input pins (RXD_D[7:0]).
2. Whenever the J1 byte is being input to the Receive STS-12/STM-4
Telecom Bus Telecom Bus Interface -Data Bus Input pins
(RXD_D[7:0]).
This input pin should be pulled "low" for all other times.
NOTE: Tie this pin to GND if the STS-12/STM-4 Telecom Bus is NOT
enabled.
22
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
U4
SIGNAL NAME
RxD_DP
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
STS-12/STM-4 Receive Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via the
RXD_D[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input via
the RXD_D[7:0] input and the states of the RXD_PL and RXD_C1J1
input pins.
The Receive STS-12/STM-4 Telecom Bus Interface will use this pin to
compute and verify the parity within the incoming STS-12/STM-4 datastream.
NOTES:
T2
RxD_ALARM
I
TTL
1.
Any one of these configuration selections can be made by writing
the appropriate value into the Telecom Bus Control register
(Indirect Address = 0x00, 0x37, direct Address = 0x0137.
2.
Tie this pin to GND if the STS-12/STM-4 Telecom Bus Interface is
configured to operate in the Re-Phase ON Mode or is disabled.
Receive STS-12/STM-4 Telecom Bus - Alarm Indicator Input:
This input pin pulses "High" corresponding to any STS-1 signal that is carrying the AIS-P indicator.
More specifically, this input pin will be pulsed "High" coincident to whenever a byte, corresponding to given STS-1 signal (that is carrying the AIS-P
indicator) is being placed on the Receive STS-12/STM-4 Telecom Bus Data Bus Input pins (RxD_D[7:0]). This input pin should be pulled "Low" at
all other times.
NOTES:
U3
V3
U2
T1
V5
U1
W1
V1
RxD_D0
RxD_D1
RxD_D2
RxD_D3
RxD_D4
RxD_D5
RxD_D6
RxD_D7
I
TTL
1.
If the RxD_ALARM input signal pulses "High" for any given STS-1
signal (within the incoming STS-12), then the XRT94L43 will
automatically declare the AIS-P defect for that particular STS-1
channel.
2.
Tie this pin to GND if the STS-12/STM-4 Telecom Bus Interface
has been cofigured to operate in the Re-Phase On Mode or is
disbled.
Receive STS-12/STM-4 Receive Telecom Bus - Receive Input Data Bus
pins:
These 8 input pins function as the "Receive STS-12/STM4 Receive Telecom Bus" Receive Input data bus. All incoming STS-12/STM-4 data is
sampled and latched (into the XRT94L43 via these input pins) upon the
rising edge of the RXD_CLK" input pin.
NOTES:
1.
1.The user must insure that the MSB (Most Significant bit) of each
incoming byte is input to the RXD_D7 input pin.
2.
The user must also insure that the LSB (Least Significant bit) of
each incoming byte is input to the RXD_D0 input pin.
3.
The user should tie these pins to GND if the STS-12/STM-4
Telecom Bus is not enabled.
23
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
H2
SIGNAL NAME
TxTOHClk
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit TOH Input Port - Clock Output:
This output pin, along with the TxTOHEnable, TxTOHFrame output pins
and the TxTOH and TxTOHIns input pins function as the Transmit TOH
Input Port.
The Transmit TOH Input Port allows the user to insert their own value for
the TOH bytes (in the outbound STS-12/STM-4 signal).
This output pin provides a clock signal. If the TxTOHEnable output pin is
"High" and if the TxTOHIns input pin is pulled "High", then the user is
expected to provide a given bit (within the TOH) to the TxTOH input pin,
upon the falling edge of this clock signal. The data, residing on the
TxTOH input pin will be latched into the XRT94L43 upon the rising edge
of this clock signal.
NOTE: The Transmit TOH Input Port only support the insertion of the
TOH within the first STS-1, within the outbound STS-12 signal.
H4
TxTOHEnable
O
CMOS
Transmit TOH Input Port - TOH Enable (or READY) indicator:
This output pin, along with the TxTOHClk, TxTOHFrame output pins and
the TxTOH and TxTOHIns input pins function as the Transmit TOH Input
Port.
This output pin will toggle and remain "High" anytime the Transmit TOH
Input Port is ready to externally accept TOH data.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHFrame and this output pin
upon the rising edge of TxTOHClk.
• Whenever
this output pin pulses "High", then the user's external
circuitry should drive the TxTOHIns input pin "High".
• Next, the user should output the next TOH bit, onto the TxTOH input
pin, upon the falling edge of TxTOHClk.
D1
TxTOH
I
TTL
Transmit TOH Input Port - Input Pin:
This input pin, along with the TxTOHIns input pin, the TxTOHEnable
and TxTOHFrame and TxTOHClk output pins function as the Transmit
TOH Input Port.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHFrame and TxTOHEnable
upon the rising edge of TxTOHClk.
• Whenever
TxTOHEnable pulses "High", then the user's external
circuitry should drive the TxTOHIns input pin "High".
• Next,
the user should output the next TOH bit, onto this input pin,
upon the falling edge of TxTOHClk. The Transmit TOH Input Port will
sample the data (on this input pin) upon the rising edge of TxTOHClk.
NOTE: Data at this input pin will be ignored (e.g., not sampled) unless
the TxTOHEnable output pin is "High" and the TxTOHIns input
pin is pulled "High".
24
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
G4
SIGNAL NAME
TxTOHFrame
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit TOH Input Port - STS-12/STM-4 Frame Indicator:
This output pin, along with TxTOHClk, TxTOHEnable output pins, and
the TxTOH and TxTOHIns input pins function as the Transmit TOH Input
Port.
This output pin will pulse "High" (for one period of TxTOHClk), one
TxTOHClk clock period prior to the first TOH bit of a given STS-12
frame, being expected via the TxTOH input pin.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHEnable and this output pin
upon the rising edge of TxTOHClk.
• Whenever the TxTOHEnable output pin pulse "High", then the user's
external circuitry should drive the TxTOHIns input pin "High".
• Next, the user should output the next TOH bit, onto the TxTOH input
pin, upon the falling edge of TxTOHClk.
NOTE: The external circuitry (which is being interfaced to the Transmit
TOH Input Port can use this output pin to denote the boundary
of STS-12 frames.
C1
TxTOHIns
I
TTL
Transmit TOH Input Port - Insert Enable Input Pin:
This input pin, along with the TxTOH input pin, and the TxTOHEnable,
TxTOHFrame and TxTOHClk output pins function as the Transmit TOH
Input Port.
This input pin is used to either enable or disable the Transmit TOH Input
Port.
If this input pin is "Low", then the Transmit TOH Input Port will be disabled and will not sample and insert (into the outbound STS-12 data
stream) any data residing on the TxTOH input, upon the rising edge of
TxTOHClk.
If this input pin is "High", then the Transmit TOH Input Port will be
enabled. In this mode, whenever the TxTOHEnable output pin is also
"High", the Transmit TOH Input Port will sample and latch any data that
is presented on the TxTOH input pin, upon the rising edge of TxTOHClk.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHFrame and TxTOHEnable
upon the rising edge of TxTOHClk.
• Whenever
the TxTOHEnable output pin is sampled "High" then the
user's external circuitry should drive this input pin "High".
• Next, the user should output the next TOH bit, onto the TxTOH input
pin, upon the falling edge of TxTOHClk. The Transmit TOH Input Port
will sample the data (on this input pin) upon the rising edge of
TxTOHClk.
NOTE: Data applied to the TxTOH input pin will be ignored (e.g., not
sampled) unless then the TxTOHEnable and this input pin are
each "High".
25
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
SIGNAL NAME
I/O
SIGNAL
TYPE
G3
TxLDCCEnable
O
CMOS
Transmit - Line DCC Input Port - Enable Output Pin:
This output pin, along with the TxTOHClk output pin and the TxLDCC
input pin are used to insert the value for the D4, D5, D6, D7, D8, D9,
D10, D11 and D12 bytes into the Transmit STS-12 TOH Processor
Block. The Transmit STS-12 TOH Processor block will accept this data
and will insert into the D4, D5, D6, D7, D8, D9, D10, D11 and D12 bytefields, within the outbound STS-12 data-stream.
The Line DCC HDLC Controller circuitry (which is connected to the
TxTOHClk, the TxLDCC and this output pin, is suppose to do the following.
1. It should continuously monitor the state of this output pin.
2. Whenever this output pin pulses "High", then the Line DCC HDLC
Controller circuitry should place the next Line DCC bit (to be inserted
into the Transmit STS-12 TOH Processor block) onto the TxLDCC input
pin, upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxLDCC input pin, will be sampled
upon the rising edge of TxOHClk.
J4
TxSDCCEnable
O
CMOS
Transmit - Section DCC Input Port - Enable Output Pin:
This output pin, along with the TxTOHClk output pin and the TxSDCC
input pin are used to insert the value for the D1, D2 and D3 bytes, into
the Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and will insert into the D1, D2 and
D3 byte-fields, within the outbound STS-12 data-stream.
The Section DCC HDLC Controller circuitry (which is connected to the
TxTOHClk, the TxSDCC and this output pin, is suppose to do the following.
1. It should continuously monitor the state of this output pin.
2. Whenever this output pin pulses "High", then the Section DCC HDLC
Controller circuitry should place the next Section DCC bit (to be inserted
into the Transmit STS-12 TOH Processor block) onto the TxSDCC input
pin, upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxSDCC input pin, will be sampled
upon the rising edge of TxOHClk.
E2
TxSDCC
I
TTL
Transmit - Section DCC Input Port - Input Pin:
This input pin, along with the TxSDCCEnable and the TxTOHClk output
pins are used to insert a value for the D1, D2 and D3 bytes, into the
Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and insert it into the D1, D2 and D3
byte fields, within the outbound STS-12 data-stream.
The Section DCC HDLC Circuitry that is interfaced to this input pin, the
TxSDCCEnable and the TxTOHClk pins is suppose to do the following.
1. It should continuously monitor the state of the TxSDCCEnable input
pin.
2. Whenever the TxSDCCEnable input pin pulses "High", then the Section DCC HDLC Controller circuitry should place the next Section DCC
bit (to be inserted into the Transmit STS-12 TOH Processor block) onto
this input pin upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxSDCC input pin, will be sampled
upon the rising edge of TxTOHClk.
PIN #
DESCRIPTION
NOTE: Tie this pin to GND if it is not going to be used.
26
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
H3
SIGNAL NAME
TxLDCC
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit - Line DCC Input Port:
This input pin, along with the TxLDCCEnable and the TxTOHClk pins
are used to insert a value for the D4, D5, D6, D7, D8, D9, D10, D11 and
D12 bytes, into the Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH Processor block will accept this data and insert it into
the D4, D5, D6, D7, D8, D9, D10, D11 and D12 byte-fields, within the
outbound STS-12 data-stream.
Whatever Line DCC HDLC Controller Circuitry is interface to the this
input pin, the TxLDCCEnable and the TxTOHClk is suppose to do the
following.
1. It should continuously monitor the state of the TxLDCCEnable input
pin.
2. Whenever the TxLDCCEnable input pin pulses "High", then the Section DCC Interface circuitry should place the next Line DCC bit (to be
inserted into the Transmit STS-12 TOH Processor block) onto the
TxLDCC input pin, upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxLDCC input pin, will be sampled
upon the rising edge of TxTOHClk.
NOTE: Tie this pin to GND, if it is not going to be used.
F4
TxE1F1E2Enable
O
CMOS
Transmit E1-F1-E2 Byte Input Port - Enable (or Ready) Indicator
Output Pin:
This output pin, along with the TxTOHClk output pin and the TxE1F1E2
input pin are used to insert a value for the E1, F1 and E2 bytes, into the
Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and will insert into the E1, F1 and
E2 byte-fields, within the outbound STS-12 data-stream.
Whatever external circuitry (which is connected to the TxTOHClk, the
TxE1F1E2 and this output pin, is suppose to do the following.
1. It should continuously monitor the state of this output pin.
2. Whenever this output pin pulses "High", then the external circuitry
should place the next orderwire bit (to be inserted into the Transmit
STS-12 TOH Processor block) onto the TxE1F1E2 input pin, upon the
falling edge of TxTOHClk.
Any data that is placed on the TxE1F1E2 input pin, will be sampled
upon the rising edge of TxOHClk.
D2
TxE1F2E2Frame
O
CMOS
Transmit E1-F1-E2 Byte Input Port - Framing Output Pin:
This output pin pulses "High" for one period of TxTOHClk, one TxTOHClk bit-period prior to the Transmit E1-F1-E2 Byte Input Port expecting
the very first byte of the E1 byte, within a given outbound STS-12 frame.
27
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
J6
SIGNAL NAME
TxE1F1E2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit E1-F1-E2 Byte Input Port - Input Pin:
This input pin, along with the TxE1F1E2Enable and the TxTOHClk output pins are used to insert a value for the E1, F1 and E2 bytes, into the
Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and insert it into the E1, F1 and E2
byte fields, within the outbound STS-12 data-stream.
Whatever external circuitry that is interfaced to this input pin, the
TxE1F1E2Enable and the TxTOHClk pins is suppose to do the following.
1. It should continuously monitor the state of the TxE1F1E2Enable input
pin.
2. Whenever the TxE1F1E2Enable input pin pulses "High", then the
external circuitry should place the next orderwire bit (to be inserted into
the Transmit STS-12 TOH Processor block) onto this input pin upon the
falling edge of TxTOHClk.
3. Any data that is placed on the TxE1F1E2 input pin, will be sampled
upon the rising edge of TxTOHClk.
NOTE: Tie this pin to GND if it is not going to be used.
28
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
C10
B13
AD12
AD8
A16
D18
AD13
AE8
D13
C18
AE17
AB12
D9
C13
AE11
AF4
SIGNAL NAME
TxPOH_0
TxPOH_1
TxPOH_2
TxPOH_3
TxPOH_4
TxPOH_5
TxPOH_6
TxPOH_7
TxPOH_8
TxPOH_9
TxPOH_10
TxPOH_11
TxPOH_12
TxPOH_13
TxPOH_14
TxPOH_15
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit Path Overhead Input Port - Input Pin.
These input pins allow the following actions.
1. Insertion oft the POH data into each of the 12 Transmit SONET POH
Processor blocks (for insertion and transmission via the outbound STS12 signal.
2. Insertion of the POH data into each of the 12 Transmit STS-1 POH
Processor blocks (for insertion and transmission via each of the outbound STS-1 signals).
3. Insertion of the TOH data into each of the 12 Transmit STS-1 TOH
Processor blocks (for insertion and transmission via each of the outbound STS-1 signals).
The function of these input pins, depends upon whether or not the TOH
data is inserted into the 12 Transmit STS-1 TOH Processor blocks.
If the user is only inserting POH data via these input pins:
In this mode, the external circuitry (which is being interfaced to the
Transmit Path Overhead Input Port is suppose to monitor the following
output pins.
• TxPOHFrame_n
• TxPOHEnable_n
• TxPOHClk_n
The TxPOHFrame_n output pin will toggle "High" upon the falling edge
of TxPOHClk_n approximately one TxPOHClk_n period prior to the
TxPOH port being ready to accept and process the first bit within the J1
byte (e.g., the first POH byte). The TxPOHFrame_n output pin will
remain "High" for eight consecutive TxPOHClk_n periods. The external
circuitry should use this pin to note STS-1 SPE frame boundaries.
The TxPOHEnable_n output pin will toggle "High" upon the falling edge
of TxPOHClk_n approximately one TxPOHClk_n period prior to the
TxPOH port being ready to accept and process the first bit within a given
POH byte.
To externally insert a given POH byte, (1) assert the TxPOHIns_n input
pin by toggling it "High" and (2) place the value of the first bit (within this
particular POH byte) on this input pin upon the very next falling edge of
TxPOHClk_n. This data bit will be sampled upon the very next rising
edge of TxPOHClk_n. The external circuitry should continue to keep the
TxPOHIns_n input pin "High" and advancing the next bits (within the
POH bytes) upon each falling edge of TxPOHClk_n.
If the user is inserting both POH and TOH data via these input pins:
In this mode, the external circuitry (which is being interfaced to the
Transmit Path Overhead Input Port is suppose to monitor the following
output pins.
• TxPOHFrame_n
• TxPOHEnable_n
• TxPOHClk_n
(continued below)
29
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
C10
B13
AD12
AD8
A16
D18
AD13
AE8
D13
C18
AE17
AB12
D9
C13
AE11
AF4
SIGNAL NAME
TxPOH_0
TxPOH_1
TxPOH_2
TxPOH_3
TxPOH_4
TxPOH_5
TxPOH_6
TxPOH_7
TxPOH_8
TxPOH_9
TxPOH_10
TxPOH_11
TxPOH_12
TxPOH_13
TxPOH_14
TxPOH_15
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
If the user is inserting both POH and TOH data via these input pins:
(Continued)
The TxPOHFrame_n output pin will toggle "High" twice during a given
STS-1 frame period. First, this output pin will toggle "High" coincident
with the TxPOH port being ready to accept and process the A1 byte
(e.g., the very first TOH byte). Second, this output pin will toggle "High"
coincident with the TxPOH port being ready to accept and process the
J1 byte (e.g., the very first POH byte).
If the externally circuitry samples the TxPOHFrame_n output pin "High",
and the TxPOHEnable_n output pin "Low", then the TxPOH port is now
ready to accept and process the very first TOH byte.
If the externally circuitry samples the TxPOHFrame_n output pin "High"
and the TxPOHEnable_n output pin "High", then the TxPOH port is now
ready to accept and process the very first POH byte.
To externally insert a given POH or TOH byte, do the following;
(1) Assert the TxPOHIns_n input pin by toggling it "High" and,
(2) place the value of the first bit (within this particular POH or TOH byte)
on this input upon the very next falling edge of TxPOHClk_n.
This data bit will be sampled upon the very next rising edge of
TxPOHClk_n. The external circuitry should continue to keep the
TxPOHIns_n input pin "High" and advancing the next bits (within the
POH bytes) upon each falling edge of TxPOHClk_n.
NOTES:
1. If POH data is externally inserted into each of the 12 Transmit
SONET POH Processor blocks, then these input pins cannot
be used to externally insert POH data into each of the 12
Transmit STS-1 POH Processor blocks.
2. TOH data can be externally inserted into each of the 12
Transmit STS-1 TOH Processor blocks, only if POH data is
NOT externally inserted into each of the 12 Transmit SONET
POH Processor blocks.
B10
A15
AC13
AD9
B16
D19
AE13
AE9
D14
C19
AF19
AB13
E10
C14
AF11
AF5
TxPOHClk_0
TxPOHClk_1
TxPOHClk_2
TxPOHClk_3
TxPOHClk_4
TxPOHClk_5
TxPOHClk_6
TxPOHClk_7
TxPOHClk_8
TxPOHClk_9
TxPOHClk_10
TxPOHClk_11
TxPOHClk_12
TxPOHClk_13
TxPOHClk_14
TxPOHClk_15
O
CMOS
Transmit Path Overhead Input Port - Clock Output pin:
These output pins, along with TxPOH_n, TxPOHEnable_n,
TxPOHIns_n and TxPOHFrame_n function as the Transmit Path Overhead (TxPOH) Input Port.
The TxPOHFrame_n and TxPOHEnable_n output pins are updated
upon the falling edge this clock output signal. The TxPOHIns_n input
pins and the data residing on the TxPOH_n input pins are sampled on
the rising edge of this clock signal.
30
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
A6
A11
AC12
AD7
D8
B12
AF14
AB10
A12
C17
AA15
AC10
D7
E11
AC11
AD6
TxPOHFrame_0
TxPOHFrame_1
TxPOHFrame_2
TxPOHFrame_3
TxPOHFrame_4
TxPOHFrame_5
TxPOHFrame_6
TxPOHFrame_7
TxPOHFrame_8
TxPOHFrame_9
TxPOHFrame_10
TxPOHFrame_11
TxPOHFrame_12
TxPOHFrame_13
TxPOHFrame_14
TxPOHFrame_15
O
CMOS
DESCRIPTION
Transmit Path Overhead Input Port - Frame Output pin:
These output pins, along with the TxPOH_n, TxPOHEnable_n,
TxPOHIns_n and TxPOHClk_n function as the Transmit Path Overhead
Input Port.
The function of these output pins depends upon whether POH or TOH
data is inserted via the TxPOH_n input pins.
If the user is only inserting POH data via these input pins:
In this mode, the TxPOH port will pulse these output pins "High" whenever it is ready to accept and process the J1 byte (e.g., the very first
POH byte) via this port.
If the user is inserting both POH and TOH data via these input pins:
In this mode, the TxPOH port will pulse these output pins "High" coincident with the following.
1. Whenever the TxPOH port is ready to accept and process the A1 byte
(e.g., the very first TOH byte) via this port.
2. Whenever the TxPOH port is ready to accept and process the J1 byte
(e.g., the very first POH byte) via this port.
NOTE: The external circuitry can determine whether the TxPOH port is
expecting the A1 byte or the J1 byte, by checking the state of
the corresponding TxPOHEnable output pin. If the
TxPOHEnable_n output pin is "Low" while the TxPOHFrame_n
output pin is "High", then the TxPOH port is ready to process
the A1 (TOH) bytes.
If the TxPOHEnable_n output pin is "High" while the TxPOHFrame_n
output pin is "High", then the TxPOH port is ready to process the J1
(POH) bytes.
31
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
TTL
A7
C12
AE12
AC9
E9
A13
AF16
AB11
E13
D17
AC16
AF8
E8
E12
AF9
AC8
TxPOHIns_0
TxPOHIns_1
TxPOHIns_2
TxPOHIns_3
TxPOHIns_4
TxPOHIns_5
TxPOHIns_6
TxPOHIns_7
TxPOHIns_8
TxPOHIns_9
TxPOHIns_10
TxPOHIns_11
TxPOHIns_12
TxPOHIns_13
TxPOHIns_14
TxPOHIns_15
I
D10
D15
AB14
AE7
A10
A17
AC14
AF7
C11
B14
AD14
AE10
B11
D16
AF13
AB9
TxPOHEnable_0
TxPOHEnable_1
TxPOHEnable_2
TxPOHEnable_3
TxPOHEnable_4
TxPOHEnable_5
TxPOHEnable_6
TxPOHEnable_7
TxPOHEnable_8
TxPOHEnable_9
TxPOHEnable_10
TxPOHEnable_11
TxPOHEnable_12
TxPOHEnable_13
TxPOHEnable_14
TxPOHEnable_15
O
DESCRIPTION
Transmit Path Overhead Input Port - Insert Enable Input pin:
These input pins, along with TxPOH_n, TxPOHEnable_n,
TxPOHFrame_n and TxPOHClk_n function as the Transmit Path Overhead (TxPOH) Input Port.
These input pins are used to enable or disable the TxPOH input port.
If these input pins are pulled "High", then the TxPOH port will sample
and latch data via the corresponding TxPOH input pins, upon the rising
edge of TxPOHClk_n.
Conversely, if these input pins are pulled "Low", then the TxPOH port
will NOT sample and latch data via the corresponding TxPOH input
pins.
NOTE: If the TxPOHIns_n input pin is pulled "Low", this setting will be
overridden if, the Transmit SONET/STS-1 POH Processor or
Transmit STS-1 TOH Processor blocks are configured to accept
certain POH or TOH overhead bytes via the external port.
CMOS
Transmit Path Overhead Input Port - POH Indicator Output pin:
These output pins, along with TxPOH_n, TxPOHIns_n, TxPOHFrame_n
and TxPOHClk_n function as the Transmit Path Overhead (TxPOH)
Input Port.
These output pins will pulse "High" anytime the TxPOH port is ready to
accept and process POH bytes. These output pins will be "Low" at all
other times.
32
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
E15
STS3TxA_CLK_0
I/O
SIGNAL
TYPE
I
TTL
TxSBCLK_0
DMO_0
DESCRIPTION
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_0 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3 Transmit Telecom Bus Transmit Clock Input - Channel 0:
This input clock signal functions as the clock source for the STS-3/
STM-1 Transmit Telecom Bus, associated with Channel 0. All input
signals (e.g., STS3TxA_ALARM_0, STS3TxA_D_0[7:0],
STS3TxA_DP_0, STS3TxA_PL_0, STS3TxA_C1J1_0) are sampled
upon the falling edge of this input clock signal.
This clock signal should operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DMO_0
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 2 (DMO) within the Line Interface Scan Register associated with
Channel 0 (Address = 0x1E, 0x81), (Direct Address = 0x1F81).
NOTE:
C26
STS3TxA_CLK_1
I
TTL
TxSBCLK_1
STS3TxA_CLK_2
TxSBCLK_2
DMO_2
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_1 (General Purpose) input Pin:
See definition of Pin # E15 above replacing Channel 0 with Channel
1.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3 Transmit Telecom Bus Clock Input - Channel 1:
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DMO_1
(General Purpose) Input Pin:
DMO_1
AE25
For Product Legacy purposes, this pin is called DMO_0,
because one possible application is to tie this input pin to a
DMO (Drive Monitor Output) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin, and the corresponding register bit
can be used for any purpose.
I
TTL
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_2 (General Purpose) input Pin:
See definition of Pin # E15 above replacing Channel 0 with Channel
2.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3 Transmit Telecom Bus Transmit Clock Input - Channel 2:
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DMO_2 Drive Monitor Output Input (from XRT73L0X LIU IC) - Channel 2:
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STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AD17
STS3TxA_CLK_3
I/O
SIGNAL
TYPE
I
TTL
TxSBCLK_3
STS3TxA_PL_0
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_3 (General Purpose) input Pin:
See definition of Pin # E15 above replacing Channel 0 with Channel
3.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3 Transmit Telecom Bus Clock Input - Channel 3:
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DMO_3
(General Purpose) Input Pin:
DMO_3
E14
DESCRIPTION
I
TTL
TxSBFrame_0
Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 0/RLOL_0 (General Purpose) input Pin:
The function of this input depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 0:
This input pin indicates whether or not Transport Overhead (TOH)
bytes are being input via the TXA_D_0[7:0] input pins.
This input pin should be pulled "Low" for the duration that the STS-3/
STM-1 Transmit Telecom Bus is receiving a TOH byte, via the
TXA_D_0[7:0] input pins.
NOTE:
RLOL_0
This input signal is sampled upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - RLOL_0
(General Purpose) Input Pin.
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 1 (RLOL) within the Line Interface Scan Register associated with
Channel 0 (Address = 0x1E, 0x81), (Direct Address = 0x1F81).
NOTE:
A26
STS3TxA_PL_1
TxSBFrame_1
RLOL_1
I
TTL
For Product Legacy purposes, this pin is called RLOL_0
because one possible application is to tie this input pin to a
RLOL (Receive Loss of Lock) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin and the corresponding register bit
can be used for any purpose.
Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 1/RLOL_1 (General Purpose) input Pin:
See definition of Pin # E14 above replacing Channel 0 with Channel
1.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 1:
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - RLOL_1
(General Purpose) Input Pin:
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STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AD25
SIGNAL NAME
STS3TxA_PL_2
I/O
SIGNAL
TYPE
I
TTL
TxSBFrame_2
STS3TxA_PL_3
TxSBFrame_3
RLOL_3
Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 2/RLOL_2 (General Purpose) input Pin:
See definition of Pin # E15 above replacing Channel 0 with Channel
2.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 2:
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - RLOL_2
(General Purpose) Input Pin:
RLOL_2
AB17
DESCRIPTION
I
TTL
Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 3/RLOL_3 (General Purpose) input Pin:
See definition of Pin # E15 above replacing Channel 0 with Channel
3.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Payload Indicator Signal - Channel 3:
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - RLOL_3
(General Purpose) Input Pin:
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
B24
STS3TxA_C1J1_0
ING_LCV_IN_8
ING_RxNEG_IN_8
TxSTS1PL_8
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Interface C1/J1 Byte Phase
Indicator Input Signal (Channel 0); DS3/E3 Framer Block LCV/
RxNEG Input Pin - Channel 8:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Trlrcom Bus Channel 0 has been
enabled.
If STS-3/STM-1 Telecom Bus (Telecom Bus Channel 0) has been
enabled - Transmit STS-3/STM-1 Telecom Bus Interface C1/J1
Byte Phase Indicator Input Signal (Channel 0):
This input pin should be pulsed "high" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_0[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_0[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3
Framer Block LCV/NEG Input - Channel 8:
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if the
DS3/E3 Framer block (associated with Channel 8) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 8 is configured to operate in the Single- Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_8 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel 8)
is configured to operate in the Ingress Path, and if Channel 8 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 8 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_8:
If the Primary Frame Synchronizer block (associated with Channel 8)
is configured to operate in the Ingress Path, and if Channel 8 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 8) is NOT configured to operate in
the Ingress Path.
36
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
J23
I/O
I/O
STS3TxA_C1J1_1
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Interface - C1/J1 Byte
Phase Indicator Input Signal (Channel 1); DS3/E3 Framer Block
LCV/RxNEG Input Pin - Channel 9:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Telecom Bus Channel 1 has been
enabled.
If STS-3/STM-1 Telecom Bus (Telecom Bus Channel 1) has been
enabled - Transmit STS-3/STM-1 Telecom Bus Interface C1/J1
Byte Phase Indicator Input Signal (Channel 1):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_1[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_1[7:0]) input pins.
ING_LCV_IN_9
ING_RxNEG_IN_9
TxSBFrame_1
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3
Framer Block LCV/RxNEG Input - Channel 9):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either
an LCV or RxNEG input pin.
If Channel 9 is configured to operate in the Single- Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_9 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel 9)
is configured to operate in the Ingress Path, and if Channel 8 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 9 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_9:
If the Primary Frame Synchronizer block (associated with Channel 9)
is configured to operate in the Ingress Path, and if Channel 9 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 9) is NOT configured to operate in
the Ingress Path.
37
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AF24
SIGNAL NAME
STS3TxA_C1J1_2
ING_LCV_IN_10
ING_RxNEG_IN_10
TxSTS1PL_10
TxSBFrame_2
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Interface - C1/J1 Byte
Phase Indicator Input Signal (Channel 2); DS3/E3 Framer Block
LCV/RxNEG Input pin - Channel 10:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 2):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_2[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_2[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3
Framer Block LCV/RxNEG Input - Channel 10):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either
an LCV or an RxNEG input pin.
If Channel 10 is configured to operate in the Single- Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_10 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel
10) is configured to operate in the Ingress Path, and if Channel 10 is
configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 10 is configured to operate in the Dual-Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_RxNEG_IN_10:
If the Primary Frame Synchronizer block (associated with Channel
10) is configured to operate in the Ingress Path, and if Channel 10 is
configured to operate in the Dual-Rail Mode, then this input pin will
function as the "RxNEG" (Negative Polarity Data) input pin. In this
case, the user should connect this particular input to the "RxNEG"
output pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 10) is NOT configured to operate
in the Ingress Path.
38
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AF17
SIGNAL NAME
STS3TxA_C1J1_3
ING_LCV_IN_11
ING_RxNEG_IN_11
TxSTS1PL_11
TxSBFrame_3
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 3); DS3/E3 Frame Generator Framing
Pulse Input/Output Pin - Channel 11:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Telecom Bus Channel 3 has been
enabled.
If STS-3/STM-1 Telecom Bus (Telecom Bus Channel 3) has been
enabled - STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase
Indicator Input Signal (Channel 3):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_3[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1
Transmit Telecom Bus (TXA_D_3[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3
Framer Block LCV/RxNEG Input - Channel 11)
:If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if the
DS3/E3 Framer block (associated with Channel 11) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 11 is configured to operate in the Single- Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_11 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel
11) is configured to operate in the Ingress Path, and if Channel 11 is
configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 11 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_11:
If the Primary Frame Synchronizer block (associated with Channel
11) is configured to operate in the Ingress Path, and if Channel 8 is
configured to operate in the Dual-Rail Mode, then this input pin will
function as the "RxNEG" (Negative Polarity Data) input pin. In this
case, the user should connect this particular input to the "RxNEG"
output pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 11) is NOT configured to operate
in the Ingress Path.
39
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
B22
STS3TxA_DP_0
ING_LCV_IN_4
ING_RxNEG_IN_4
TxSTS1PL_4
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Parity Input Pin - Channel
0; DS3/E3 Framer BlockLCV/RxNEG Input Pin - Channel 4:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Telecom Bus Channel 0 has been
enabled.
If STS-3/STM-1 Telecom Bus Telecom Bus (Channel 0) has been
enabled -Transmit STS-3/STM-1 Telecom Bus Interface - Parity
Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via
the ST3TXA_D_0[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being
input via the STS3TXA_D_0[7:0] input and the states of the
STS3TXA_PL_0 and STS3TXA_C1J1_0 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 0 register (Indirect Address = 0x00, 0x3B),
(Direct Address = 0x013B).
If STS-3/STM-1 Telecom Bus (Telecom Bus Channel 0) is disabled - DS3/E3 Framer Block LCV/RxNEG Input - Channel 4):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if the
DS3/E3 Framer block (associated with Channel 4) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 4 is configured to operate in the Single- Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_4 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel 4)
is configured to operate in the Ingress Path, and if Channel 4 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 8 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_4:
If the Primary Frame Synchronizer block (associated with Channel 4)
is configured to operate in the Ingress Path, and if Channel 4 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 4) is NOT configured to operate in
the Ingress Path.
40
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
G23
STS3TxA_DP_1
ING_LCV_IN_5
ING_RxNEG_IN_5
TxSTS1PL_5
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Interface - Parity Input Pin Channel 1, DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel 5:
The function of this input pin depends upon whether or not the STS3/STM-1 Telecom Bus Interface for Channel 1 has been enabled.
If STS-3/STM-1 Telecom Bus (Transmit Channel 1) has been
enabled - STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via
the ST3TXA_D_1[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being
input via the STS3TXA_D_1[7:0] input and the states of the
STS3TXA_PL_1 and STS3TXA_C1J1_1 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 1 register (Indirect Address = 0x00, 0x3A),
(Direct Address = 0x013A).
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled DS3/E3 Framer Block LCV/RxNEG Input - Channel 5:
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if the
DS3/E3 Framer block (associated with Channel 5) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 5 is configured to operate in the Single- Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_5 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel 5)
is configured to operate in the Ingress Path, and if Channel 5 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 5 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_5:
If the Primary Frame Synchronizer block (associated with Channel 5)
is configured to operate in the Ingress Path, and if Channel 5 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 5) is NOT configured to operate in
the Ingress Path.
41
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
AE24
STS3TxA_DP_2
ING_LCV_IN_6
ING_RxNEG_IN_6
TxSTS1PL_6
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Interface - Parity Input Pin Channel 2, DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel
6:
The function of this input pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via
the ST3TXA_D_2[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input
via the STS3TXA_D_2[7:0] input and the states of the
STS3TXA_PL_2 and STS3TXA_C1J1_2 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 2 register (Indirect Address = 0x00, 0x39),
(Direct Address = 0x0139).
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3
Framer Block LCV/RxNEG Input - Channel 6):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if the
DS3/E3 Framer block (associated with Channel 6) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 6 is configured to operate in the Single-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate
in the Ingress Path - ING_LCV_IN_6 Input pin:
If the Primary Frame Synchronizer Block (associated with Channel 6)
is configured to operate in the Ingress Path, and if Channel 6 is configured to operate in the Single-Rail Mode, then this input pin will function as the "LCV" (Line Code Violation" input pin. In this case, the
user should connect this particular input pin to the "LCV" output pin of
the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 6 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate
in the Ingress Path - ING_RxNEG_IN_6:
If the Primary Frame Synchronizer block (associated with Channel 6)
is configured to operate in the Ingress Path, and if Channel 6 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 6) is NOT configured to operate in
the Ingress Path.
42
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
AE19
STS3TxA_DP_3
ING_LCV_IN_7
ING_RxNEG_IN_7
TxSTS1PL_7
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Interface - Parity Input Pin Channel 3, DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel - Channel 7:
The function of this input pin depends upon whether or not the STS3/STM-1 Telecom Bus Interface for Channel 3 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via
the ST3TXA_D_3[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being
input via the STS3TXA_D_3[7:0] input and the states of the
STS3TXA_PL_3 and STS3TXA_C1J1_3 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 3 register (Indirect Address = 0x00, 0x38),
(Direct Address = 0x0138).
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3
Framer Block LCV/RxNEG Input Pin - Channel 7):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if the
DS3/E3 Framer block (associated with Channel 7) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 7 is configured to operate in the Single-Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_7 Input pin:
If the Primary Frame Synchronizer block (associated with Channel 7)
is configured to operate in the Ingress Path, and if Channel 7 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 7 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_7:
If the Primary Frame Synchronizer block (associated with Channel 7)
is configured to operate in the Ingress Path, and if Channel 7 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 7) is NOT configured to operate in
the Ingress Path.
43
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
B18
SIGNAL NAME
STS3TxA_ALARM_0
ING_LCV_IN_0
ING_RxNEG_IN_0
TxSTS1PL_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 0; DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel 0:
The function of this input pin depends upon whether or not the STS3/STM-1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Alarm Indicator
Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_0[7:0]
input data bus.
NOTE: If the STS3TXA_ALARM_0 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3
Framer Block LCV/RxNEG Input Pin - Channel 0):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if the
DS3/E3 Framer block (associated with Channel 0) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 0 is configured to operate in the Single-Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_0 Input pin
If the Primary Frame Synchronizer block (associated with Channel 0)
is configured to operate in the Ingress Path, and if Channel 0 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 7 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_0:
If the Primary Frame Synchronizer block (associated with Channel 0)
is configured to operate in the Ingress Path and if Channel 0 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 0) is NOT configured to operate in
the Ingress Path.
44
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
D25
SIGNAL NAME
STS3TxA_ALARM_1
ING_LCV_IN_1
ING_RxNEG_IN_1
TxSTS1PL_1
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 1; DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel 1:
The function of this input pin depends upon whether or not the STS3/STM-1 Telecom Bus Interface for Channel 1 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Alarm Indicator
Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_1[7:0]
input data bus.
NOTE: If the STS3TxA_ALARM_1 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3
Framer Block LCV/RxNEG Input Pin - Channel 1):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if the
DS3/E3 Framer block (associated with channel 1) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 1 is configured to operate in the Single-Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_1 Input Pin:
If the Primary Frame Synchronizer block (associated with Channel 1)
is configured to operate in the Ingress Path, and if Channel 1 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 1 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_1:
If the Primary Frame Synchronizer block (associated with Channel 1)
is configured to operate in the Ingress Path and if Channel 1 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 1) is NOT configured to operate in
the Ingress Path
45
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB26
SIGNAL NAME
STS3TxA_ALARM_2
ING_LCV_IN_2
ING_RxNEG_IN_2
TxSTS1PL_2
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 2; DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel 2:
The function of this input pin depends upon whether or not the STS3/STM-1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Alarm Indicator
Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_2[7:0]
input data bus.
NOTE: If the STS3TxA_ALARM_2 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3
Framer Block LCV/RxNEG Input Pin - Channel 2):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if the
DS3/E3 Framer block (associated with channel 2) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 2 is configured to operate in the Single-Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_2 Input pin:
If the Primary Frame Synchronizer block (associated with Channel 2)
is configured to operate in the Ingress Path, and if Channel 2 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 2 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_2:
If the Primary Frame Synchronizer block (associated with Channel 2)
is configured to operate in the Ingress Path and if Channel 2 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Primary Frame Synchronizer block
(associated with Channel 2) is NOT configured to operate in
the Ingress Path.
46
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AF22
SIGNAL NAME
STS3TxA_ALARM_3
ING_LCV_IN_3
ING_RxNEG_IN_3
TxSTS1PL_3
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 3; DS3/E3 Framer Block LCV/RxNEG Input Pin - Channel 3:
The function of this input pin depends upon whether or not the STS3/STM-1 Telecom Bus Interface for Channel 3 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Alarm Indicator
Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_3[7:0]
input data bus.
NOTE: If the STS3TxA_ALARM_3 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3
Framer Block LCV/RxNEG Input Pin - Channel 3):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if the
DS3/E3 Framer block (associated with channel 3) is enabled then
this pin will function as either an LCV or an RxNEG input pin.
If Channel 3 is configured to operate in the Single-Rail Mode,
and if the Primary Frame Synchronizer block is configured to
operate in the Ingress Path - ING_LCV_IN_3 Input pin:
If the Primary Frame Syncronizer block (associated with Channel 3)
is configured to operate in the Ingress Path, and if Channel 3 is configured to operate in the Single-Rail Mode, then this input pin will
function as the "LCV" (Line Code Violation) input pin. In this case,
the user should connect this particular input pin to the "LCV" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
If Channel 3 is configured to operate in the Dual-Rail Mode, and
if the Primary Frame Synchronizer block is configured to operate in the Ingress Path - ING_RxNEG_IN_3:
If the Primary Frame Synchronizer block (associated with Channel 3)
is configured to operate in the Ingress Path and if Channel 3 is configured to operate in the Dual-Rail Mode, then this input pin will function as the "RxNEG" (Negative Polarity Data) input pin. In this case,
the user should connect this particular input to the "RxNEG" output
pin of the corresponding DS3/E3/STS-1 LIU Channel.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 3 is by-passed
47
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
C15
SIGNAL NAME
STS3TxA_D_0_0
TxSBDATA_0
RLOOP_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 0/RLOOP_0 (General Purpose) output pin:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled Transmit STS-3/STM-1 Telecom Bus Interface - Input Data Bus
Pin Number 0:
This input pin along with STS3TxA_D_0[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 0.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_0.
The LSB of any byte, which is being input into the STS-3/STM-1
Transmit Telecom Bus - Data Bus (for Channel 0) should be input via
this pin.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - RLOOP_0
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct
Address = 0x1F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_0
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
48
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
C16
SIGNAL NAME
STS3TxA_D_0_1
TxSBDATA_1
REQ_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 0/REQ_0 (General Purpose) output Pin:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_0[7:2] and STS3TxA_D_0_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - REQ_0
(General Purpose) output pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct
Address = 0x1F01).
NOTE:
For Product Legacy purposes, this pin is called REQ_0
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
49
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
B19
STS3TxA_D_0_2
TxSBDATA_2
DS3/E3/
STS1_DATA_IN_0
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 0:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2:
STS3TxA_D_0_2 This input pin along with STS3TxA_D_0[7:3] and
STS3TxA_D_0[1:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 0:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 0).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_0
signal pin number F15.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_0 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 0 (Indirect Address = 0x1E, 0x01), (Direct Address =
0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_0 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_0.
50
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
B23
STS3TxA_D_0_3
TxSBDATA_3
DS3/E3/
STS1_DATA_IN_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 4:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_0_3:
This input pin along with STS3TxA_D_0[7:4] and STS3TxA_D_0[2:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 4:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 4).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_4
signal pin number A22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_4 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 4 (Indirect Address = 0x5E, 0x01), (Direct Address =
0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_4 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_4.
51
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
B25
STS3TxA_D_0_4
TxSBDATA_4
DS3/E3/
STS1_DATA_IN_8
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 4:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_0_4:
This input pin along with STS3TxA_D_0[7:5] and STS3TxA_D_0[3:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 8:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 8).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_8
signal pin number A24.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_8 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 8 (Indirect Address = 0x9E, 0x01), (Direct Address =
0x9F01) to a "1".
For STS-1 Applications:
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_8 signal upon the rising edge of Ds3/E3/
STS1_CLK_IN_8.
52
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
F15
SIGNAL NAME
STS3TxA_D_0_5
TxSBDATA_5
DS3/E3/
STS1_CLK_IN_0
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 0:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_0_5:
This input pin along with STS3TxA_D_0[7:6] and
STS3TxA_D_0[4:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 0:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
0).
The XRT94L43 uses this clock signal to sample and latch the data
that is applied to the DS3/E3/STS1_DATA_IN_0 input pin number
B19.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_0
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_0 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 0 (Indirect Address = 0x1E, 0x01)," (Direct
Address = 0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_0 signal upon the rising edge of this clock signal.
53
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
A22
SIGNAL NAME
STS3TxA_D_0_6
TxSBDATA_6
DS3/E3/
STS1_CLK_IN_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 4:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_0_6:
This input pin along with STS3TxA_D_0_7 and STS3TxA_D_0[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 4:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
4).
The XRT94L43 uses this clock signal to sample and latch the data
that is applied to the DS3/E3/STS1_DATA_IN_4 input pin number
B23.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_4
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_4 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 4 (Indirect Address = 0x5E, 0x01), (Direct
Address = 0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_4 signal upon the rising edge of this clock signal.
54
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
A24
SIGNAL NAME
STS3TxA_D_0_7
TxSB_DATA_7
DS3/E3/
STS1_CLK_IN_8
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 8:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with STS-3/STM-1 Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (STS-3/STM-1 - Channel 0) has
been enabled - STS-3/STM-1 Transmit Telecom Bus - Input Data
Bus Pin Number 7: STS3TxA_D_0_7:
This input pin along with STS3TxA_D_0[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 0.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_0.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 0.
If STS-3/STM-1 Telecom Bus (STS-3/STM-1 - Channel 0) is disabled - DS3/E3/STS1_CLK_IN - DS3/E3/STS-1 Line Interface
Clock Input - Channel 8:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
8).
The XRT94L43 uses this clock signal to sample and latch the data
that is applied to the DS3/E3/STS1_DATA_IN_8 input pin number
B25.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_8
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_8 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 8 (Indirect Address = 0x9E, 0x01), " (Direct
Address = 0x9F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_8 signal upon the rising edge of this clock signal.
55
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
C25
SIGNAL NAME
STS3TxA_D_1_0
TxSBDATA_0
RLOOP_1
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 0/RLOOP_1 (General Purpose) output Pin:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_1[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 1.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_1.
The LSB of any byte, which is being input into the STS-3/STM-1
Transmit Telecom Bus - Data Bus (for Channel 1) should be input via
this pin.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - RLOOP_1
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct
Address = 0x2F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_1
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
56
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
B26
SIGNAL NAME
STS3TxA_D_1_1
TxSBDATA_1
REQ_1
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 1/REQ_1 (General Purpose) output Pin:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_1[7:2] and STS3TxA_D_1_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - REQ_1
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct
Address = 0x2F80).
NOTE:
For Product Legacy purposes, this pin is called REQ_1
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
57
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
E26
STS3TxA_D_1_2
TxSBDATA_2
DS3/E3/
STS1_DATA_IN_1
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 1:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_1_2:
This input pin along with STS3TxA_D_1[7:3] and
STS3TxA_D_1[1:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 1:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 1).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_1
signal pin number D26.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_1 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 1 (Indirect Address = 0x2E, 0x01), (Direct Address =
0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_1 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_1.
58
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
G24
SIGNAL NAME
STS3TxA_D_1_3
TxSBDATA_3
DS3/E3/
STS1DATA_IN_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 5:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 3: STS3TxA_D_1_3:
This input pin along with STS3TxA_D_1[7:4] and STS3TxA_D_1[2:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 5:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 5).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_5
signal pin number F23.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_5 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 5 (Indirect Address = 0x6E, 0x01), (Direct Address =
0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_5 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_5.
59
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
J24
SIGNAL NAME
STS3TxA_D_1_4
TxSBDATA_4
DS3/E3/
STS1_DATA_IN_9
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 4/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 9:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_1_4:
This input pin along with STS3TxA_D_1[7:5] and
STS3TxA_D_1[3:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 9:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 9).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_9
signal pin number H23.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_9 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 9 (Indirect Address = 0xAE, 0x01), (Direct Address =
0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_9 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_9.
60
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
D26
SIGNAL NAME
STS3TxA_D_1_5
DS3/E3/
STS1_Clk_IN_1
TxSBData_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 1:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_1_5:
This input pin along with STS3TxA_D_1[7:6] and STS3TxA_D_1[4:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 1:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
1). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_1 input pin number E26.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_1
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_1 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 1 (Indirect Address = 0x2E, 0x01), (Direct
Address = 0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_1 signal upon the rising edge of this clock signal.
61
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
F23
SIGNAL NAME
STS3TxA_D_1_6
DS3/E3/
STS1_Clk_IN_5
TxSBData_6
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 5:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_1_6:
This input pin along with STS3TxA_D_1_7 and STS3TxA_D_1[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 5:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
5). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_5 input pin number G24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_5
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_5 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 5 (Indirect Address = 0x6E, 0x01), (Direct
Address = 0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_5 signal upon the rising edge of this clock signal.
62
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
H23
SIGNAL NAME
STS3TxA_D_1_7
DS3/E3/
STS1_Clk_IN_9
TxSBData_7
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 9:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_1_7:
This input pin along with STS3TxA_D_1[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 1.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_1.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 9:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
9). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_9 input pin number J24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_9
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_9 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 9 (Indirect Address = 0xAE, 0x01), " (Direct
Address = 0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_9 signal upon the rising edge of this clock signal.
63
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AD26
SIGNAL NAME
STS3TxA_D_2_0
RLOOP_2
TxSBData_0
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 0/RLOOP_2 (General Purpose) output Pin:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_2[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 2.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_2.
The LSB of any byte, which is being input into the STS-3/STM-1
Transmit Telecom Bus - Data Bus (for Channel 2) should be input via
this pin.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - RLOOP_2
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct
Address = 0x3F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_2
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
64
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AE26
SIGNAL NAME
STS3TxA_D_2_1
REQ_2
TxSBData_1
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 1/REQ_2 (General Purpose) output Pin:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_2[7:2] and STS3TxA_D_2_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - REQ_2
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct
Address = 0x3F80).
NOTE:
For Product Legacy purposes, this pin is called REQ_2
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
65
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
V24
STS3TxA_D_2_2
DS3/E3/
STS1_Data_IN_2
TxSBData_2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 2:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_2_2:
This input pin along with STS3TxA_D_2[7:3] and
STS3TxA_D_2[1:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 2:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 2).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_2
signal pin number V25.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_2 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 2 (Indirect Address = 0x3E, 0x01), (Direct Address =
0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_2 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_2.
66
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AD24
STS3TxA_D_2_3
DS3/E3/
STS1_Data_IN_6
TxSBData_3
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 6:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 3: STS3TxA_D_2_3:
This input pin along with STS3TxA_D_2[7:4] and STS3TxA_D_2[2:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 6:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 6).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_6
signal pin number Y22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_6 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 6 (Indirect Address = 0x7E, 0x01), (Direct Address =
0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_6 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_6.
67
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AF25
STS3TxA_D_2_4
DS3/E3/
STS1_Data_IN_10
TxSBData_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 4/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 10:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_2_4:
This input pin along with STS3TxA_D_2[7:5] and STS3TxA_D_2[3:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel
10:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 10).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/
STS1_CLK_IN_10 signal pin number AB22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_10 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 10 (Indirect Address = 0xBE, 0x01), (Direct Address =
0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_10 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_10.
68
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
V25
SIGNAL NAME
STS3TxA_D_2_5
DS3/E3/
STS1_Clk_IN_2
TxSBData_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 2:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_2_5:
This input pin along with STS3TxA_D_2[7:6] and STS3TxA_D_2[4:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 2:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
2). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_2 input pin number V24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_2
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_2 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 2 (Indirect Address = 0x3E, 0x01), (Direct
Address = 0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_2 signal upon the rising edge of this clock signal.
69
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
Y22
SIGNAL NAME
STS3TxA_D_2_6
DS3/E3/
STS1_Clk_IN_6
TxSBData_6
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 6:
The function of this pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_2_6:
This input pin along with STS3TxA_D_2_7 and STS3TxA_D_2[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 6:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
6). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_6 input pin number AD24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_6
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_6 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 6 (Indirect Address = 0x7E, 0x01), (Direct
Address = 0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_6 signal upon the rising edge of this clock signal.
70
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB22
SIGNAL NAME
STS3TxA_D_2_7
DS3/E3/
STS1_Clk_IN_10
TxSBData_7
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 10:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_2_7:
This input pin along with STS3TxA_D_2[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 2.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_2.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 10:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
10). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_10 input pin
number AF25.
By default, the data that is applied to the DS3/E3/
STS1_DATA_IN_10 input pin will be latched into the XRT94L43 upon
the falling edge of this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_10 signal upon the rising edge of this clock signal
by setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 10 (Indirect Address = 0xBE, 0x01), (Direct
Address = 0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_10 signal upon the rising edge of this clock signal.
71
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AC18
SIGNAL NAME
STS3TxA_D_3_0
RLOOP_3
TxSBData_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 0/RLOOP_3 General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_3[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 3.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_3. The LSB of any byte, which is being input
into the STS-3/STM-1 Transmit Telecom Bus - Data Bus (for Channel
3) should be input via this pin.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - RLOOP_3
(General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct
Address = 0x4F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_3
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
72
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB18
SIGNAL NAME
STS3TxA_D_3_1
REQ_3
TxSBData_1
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 1/REQ_3 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_3[7:2] and STS3TxA_D_3_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - REQ_3
(General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct
Address = 0x4F80).
NOTE:
For Product Legacy purposes, this pin is called REQ_3
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
73
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AA20
STS3TxA_D_3_2
DS3/E3/
STS1_Data_IN_3
TxSBData_2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 3:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_3_2:
This input pin along with STS3TxA_D_3[7:3] and STS3TxA_D_3[1:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 3:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 3).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_3
signal pin number AD22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_3 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 3 (Indirect Address = 0x4E, 0x01), (Direct Address =
0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_3 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_3.
74
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AB19
STS3TxA_D_3_3
DS3/E3/
STS1_Data_IN_7
TxSBData_3
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 7:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 3: STS3TxA_D_3_3:
This input pin along with STS3TxA_D_3[7:4] and
STS3TxA_D_3[2:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 7:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 7).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_7
signal pin number AA19.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_7 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 7 (Indirect Address = 0x8E, 0x01), (Direct Address =
0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_7 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_7.
75
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AD16
STS3TxA_D_3_4
DS3/E3/
STS1_Data_IN_11
TxSBData_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 4/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 11 (DS3/E3/
STS1_DATA_IN_11):
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_3_4:
This input pin along with STS3TxA_D_3[7:5] and
STS3TxA_D_3[3:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 11:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 11).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/
STS1_CLK_IN_11 signal pin number AB16.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_11 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 11 (Indirect Address = 0xCE, 0x01), (Direct Address =
0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_11 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_11.
76
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AD22
SIGNAL NAME
STS3TxA_D_3_5
DS3/E3/
STS1_Clk_IN_3
TxSBData_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 3:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_3_5:
This input pin along with STS3TxA_D_3[7:6] and
STS3TxA_D_3[4:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 3:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
3). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_3 input pin number AA20.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_3
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_3 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 3 (Indirect Address = 0x4E, 0x01), (Direct
Address = 0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_3 signal upon the rising edge of this clock signal.
77
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AA19
SIGNAL NAME
STS3TxA_D_3_6
DS3/E3/
STS1_Clk_IN_7
TxSBData_6
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 7:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_3_6:
This input pin along with STS3TxA_D_3_7 and STS3TxA_D_3[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 7:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
7). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_7 input pin number AB19.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_7
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_7 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 7 (Indirect Address = 0x8E, 0x01), (Direct
Address = 0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_7 signal upon the rising edge of this clock signal.
78
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB16
SIGNAL NAME
STS3TxA_D_3_7
DS3/E3/
STS1_Clk_IN_11
TxSBData_7
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 11:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_3_7:
This input pin along with STS3TxA_D_3[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 3.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_3.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 11:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
11). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_11 input pin number AD16.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_11
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_11 signal upon the rising edge of this clock signal
by setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 11 (Indirect Address = 0xCE, 0x01), (Direct
Address = 0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_11 signal upon the rising edge of this clock signal.
79
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB25
SIGNAL NAME
TxREFCLK
SSE_POS
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Reference Clock Output
Pin/Slow-Speed Interface - Egress - Positive Data I/O:
The exact function of this pin depends upon whether or not theSTS3/STM-1 Telecom Bus is enabled, and whether the Slow-Speed
Interface is enabled.
Transmit STS-3/STM-1 Telecom Bus Reference Clock Output
Pin:
This pin generates a 19.44MHz clock signal that is ultimately derived
from the Clock Synthesizer block (within the XRT9L43).
If the user configures the STS-3/STM-1 Telecom Bus Interface to
operate in the "Re-Phase OFF" mode, then the device (or entity) that
is transmitting STS-3/STM-1 data (to the Transmit STS-3/STM-1
Telecom Bus Interface) must synchronizes its data transmission to
this output signal.
The user is not required to use this signal if the STS-3/STM-1 Telecom Bus Interface has been configured to operate in the "Re-Phase
ON" Mode.
SSE_POS (Slow-Speed Interface - Egress - Port is enabled):
If the Slow-Speed Interface - Egress (SSE) Port is enabled, then this
pin will function as either the SSE_POS output pin or the SSE_POS
input pin.If the user configures the SSE port to operate in the "Insert"
Mode, then the SSE port will be configured to replace any "userselected" Egress DS3/E3 or STS-1 data-stream (within the
XRT94L43) with the data that is applied to the SSE_POS and
SSE_NEG input pins. More specifically, in the "Insert" Mode, this pin
will function as the "SSE_POS" input pin. In this case, the SSE port
will sample and latch the contents of the input pin (along with the
SSE_NEG, in a Dual-Rail manner) upon the falling edge of the
SSE_CLK input clock signal.
If the user configures the SSE port to operate in the "Extract" Mode,
then the SSE port will output any "user-selected" Egress DS3/E3 or
STS-1 signal (within the XRT94L43) via this output port. More specifically, in the "Extract Mode" this pin will function as the "SSE_POS"
output pin. In this case, the SSE port will output data via this pin,
along with the SSE_POS output pin (in a Dual-Rail Manner) upon the
rising edge of the SSE_CLK output signal.
80
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AA24
SIGNAL NAME
TxSBFP_OUT
SSI_NEG
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Framing Pulse Output Pin:
This pin generates a pulse at an 8kHz rate. This signal is ultimately
derived from the Clock Synthesizer block (within the XRT94L43).
If the STS-3/STM-1 Telecom Bus Interface is configured to operate in
the "Re-Phase OFF" Mode, then the devices (or entities) that are
transmitting STS-3/STM-1 data (to the Transmit STS-3/STM-1 Telecom Bus Interface) must synchronize their STS-3/STM-1 frame
transmission to this output signal.
In the Re-Phase OFF Mode, each device or entity must align their
STS-3/STM-1 Frame transmission to this signal, in order to insure
that all four Transmit STS-3/STM-1 Telecom Bus Interfaces are presented with TOH data simultaneously.
Transmit STS-3/STM-1 Telecom Bus Framing Pulse Output Pin/
Slow-Speed Interface - Ingress - Negative Data I/O:
The exact function of this pin depends upon whether or not theSTS3/STM-1 Telecom Bus is enabled and whether the Slow-Speed Interface is enabled.
Transmit STS-3/STM-1 Telecom Bus Framing Pulse Output Pin:
This pin generates a pulse at an 8kHz rate. This signal is ultimately
derived from the Clock Synthesizer block (within the XRT94L43).
If the user configures the STS-3/STM-1 Telecom Bus Interface to
operate in the "Re-Phase OFF" Mode, then the devices (or entities)
that is transmitting STS-3/STM-1 data (to the Transmit STS-3/STM-1
Telecom Bus Interface) must synchronize its STS-3/STM-1 frame
transmission to this output signal.
In the Re-Phase OFF Mode, each device or entity must align their
STS-3/STM-1 Frame transmission to this signal, in order to insure
that all four Transmit STS-3/STM-1 Telecom Bus Interfaces are presented with TOH data simultaneously.
SSI_NEG (Slow-Speed Interface - Ingress Port is enabled):
If the Slow-Speed Interface - Ingress (SSI) Port is enabled, then this
pin will function as either the SSI_NEG output pin or the SSI_NEG
input pin.
If the user configures the SSI port to operate in the "Insert" Mode,
then the SSI port will be configured to replace any "user-selected"
Ingress DS3/E3 or STS-1 data-stream (within the XRT94L43) with
the data that is applied to the SSI_POS and SSI_NEG input pins.
More specifically, in the "Insert" Mode, this pin will function as the
SSI_NEG input pin. In this case, the SSI port will sample and latch
the contents of this input pin (along with the SSI_POS input pin, in a
Dual-Rail Manner) upon the falling edge of the SSI_CLK input clock
signal.
If the user configures the SSI port to operate in the "Extract" Mode,
then the SSI port will output any "user-selected" Ingress DS3/E3 or
STS-1 signal (within the XRT94L43) via this output port. More specifically, in the "Extract Mode" this pin will function as the "SSI_NEG"
output pin. In this case, the SSI port will output data via this pin,
along with the SSI_POS output pin (in a Dual-Rail Manner) upon the
rising edge of the SSI_CLK output signal.
81
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RXSTS-1 TOH/POH INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
CMOS
A14
F20
K25
AD18
E16
H22
AA25
AC15
E19
K22
AD23
AA12
RxSTS1OHSel_0
RxSTS1OHSel_1
RxSTS1OHSel_2
RxSTS1OHSel_3
RxSTS1OHSel_4
RxSTS1OHSel_5
RxSTS1OHSel_6
RxSTS1OHSel_7
RxSTS1OHSel_8
RxSTS1OHSel_9
RxSTS1OHSel_10
RxSTS1OHSel_11
O
D11
G22
U23
AD20
B15
J21
AA26
AF15
E17
K23
AF26
AD11
RxSTS1OH_0
RxSTS1OH_1
RxSTS1OH_2
RxSTS1OH_3
RxSTS1OH_4
RxSTS1OH_5
RxSTS1OH_6
RxSTS1OH_7
RxSTS1OH_8
RxSTS1OH_9
RxSTS1OH_10
RxSTS1OH_11
O
DESCRIPTION
Receive STS-1 TOH and POH Output Port - POH Data Indicator:
These output pins, along with RxSTS1OHClk_n,
RxSTS1OHFrame_n and RxSTS1OH_n function as the Receive
STS-1 TOH and POH Output Port.
These output pins indicate whether POH or TOH data is being output
via the RxSTS1OH_n output pins.
These output pins will toggle "High" coincident with the POH data as
it is being output via the RxSTS1OH_n output pins. Conversely,
these output pins will toggle "Low" coincident with the TOH data as it
is being output via the RxSTS1OH_n output pins.
NOTE:
CMOS
These output pins are updated upon the falling edge of
RxSTS1OHClk_n. As a consequence, external circuitry,
receiving this data, should sample this data upon the rising
edge of RxSTS1OHClk_n.
Receive STS-1 TOH and POH Output Port - Output pin:
These output pins, along with RxSTS1OHSel_n, RxSTS1OHClk_n
and RxSTS1OHFrame_n function as the Receive STS-1 TOH and
POH Output Port.
Each bit, within the TOH and POH bytes (within the incoming STS-1
data stream) is updated upon the falling edge of RxSTS1OHClk_n.
As a consequence, external circuitry receiving this data, should sample this data upon the rising edge of RxSTS1OHClk_n.
NOTES:
1. The external circuitry can determine whether or not it is
receiving POH or TOH data via this output pin. The
RxSTS1OHSel_n output pin will be "High" anytime POH
data is being output via these output pins. Conversely, the
RxSTS1OHSel_n output pin will be "Low" anytime TOH
data is being output via these output pins.
2. TOH and POH data, associated with Receive STS-1 TOH
and POH Processor Block - Channel 0 will be output via the
RxSTS1OH_0, and so on.
82
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RXSTS-1 TOH/POH INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
F12
F22
T24
AE20
A18
H21
AB24
AE16
E18
K26
AA23
AF10
RxSTS1OHClk_0
RxSTS1OHClk_1
RxSTS1OHClk_2
RxSTS1OHClk_3
RxSTS1OHClk_4
RxSTS1OHClk_5
RxSTS1OHClk_6
RxSTS1OHClk_7
RxSTS1OHClk_8
RxSTS1OHClk_9
RxSTS1OHClk_10
RxSTS1OHClk_11
O
CMOS
Receive STS-1 TOH and POH Output Port - Clock Output signal:
These output pins, along with RxSTS1OH_n, RxSTS1OHFrame_n,
and RxSTS1OHSel_n function as the Receive STS-1 TOH and POH
Output Port.
These output pins function as the Clock Output signals for the
Receive STS-1 TOH and POH Output Port. The RxSTS1OH_n,
RxSTS1Frame_n and RxSTS1OHSel_n output pins are updated
upon the falling edge of this clock signal.
D12
E22
U26
AF18
B17
J22
W22
AF12
F19
K24
AF23
AD10
RxSTS1OHFrame_0
RxSTS1OHFrame_1
RxSTS1OHFrame_2
RxSTS1OHFrame_3
RxSTS1OHFrame_4
RxSTS1OHFrame_5
RxSTS1OHFrame_6
RxSTS1OHFrame_7
RxSTS1OHFrame_8
RxSTS1OHFrame_9
RxSTS1OHFrame_1
0
RxSTS1OHFrame_11
O
CMOS
Receive STS-1 TOH and POH Output Port - Frame Boundary
Indicator:
These output pins, along with RxSTS1OH_n, RxSTS1OHSel_n and
RxSTS1OHClk_n function as the Receive STS-1 TOH and POH
Output Port.
These output pins will pulse "High" coincident with either of the following events.
1. When the very first TOH byte (A1), of a given STS-1 frame, is
being output via the corresponding RxSTS1OH_n output pin.
2. When the very first POH byte (J1), of a given STS-1 frame, is
being output via the corresponding RxSTS1OH_n output pin.
NOTE: The external circuitry can determine whether these output
pins are pulsing "High" for the first TOH or POH byte by
checking the state of the corresponding RxSTS1OHSel_n
output pin.
83
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
84
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
A20
STS3RxD_CLK_0
RxSBClkLLOOP_0
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel 0;
LLOOP_0 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus Clock Output - Channel 0;
STS3RxD_CLK_0:
All signals, which is output via the Receive Telecom Bus - Channel 0 is
clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_0[7:0]
• STS3RxD_ALARM_0
• STS3RxD_DP_0
• STS3RxD_PL_0
• STS3RxD_C1J1_0
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - LLOOP_0
(General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 0 (LLOOP) within the Line Interface Drive Register associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct Address =
0x1F80).
NOTE:
For Product Legacy purposes, this pin is called LLOOP_0
because one possible application is to tie this output pin to an
LLOOP (Local Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
85
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
D23
STS3RxD_CLK_1
RxSBClkLLOOP_1
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel 1;
LLOOP_1 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus Clock Output - Channel 1;
STS3RxD_CLK_1:
All signals, which is output via the Receive Telecom Bus - Channel 1 is
clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_1[7:0]
• STS3RxD_ALARM_1
• STS3RxD_DP_1
• STS3RxD_PL_1
• STS3RxD_C1J1_1
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - LLOOP_1
(General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 0 (LLOOP) within the Line Interface Drive Register associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct Address =
0x2F80).
NOTE:
For Product Legacy purposes, this pin is called LLOOP_1
because one possible application is to tie this output pin to an
LLOOP (Local Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
86
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
W23
STS3RxD_CLK_2
RxSBClkLLOOP_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel 2;
LLOOP_2 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus Clock Output - Channel 2;
STS3RxD_CLK_2:
All signals, which is output via the Receive Telecom Bus - Channel 2 is
clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_2[7:0]
• STS3RxD_ALARM_2
• STS3RxD_DP_2
• STS3RxD_PL_2
• STS3RxD_C1J1_2
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - LLOOP_2
(General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 0 (LLOOP) within the Line Interface Drive Register associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct Address =
0x3F80).
NOTE:
For Product Legacy purposes, this pin is called LLOOP_2
because one possible application is to tie this output pin to an
LLOOP (Local Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
87
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AF20
STS3RxD_CLK_3
RxSBClkLLOOP_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel 3;
LLOOP_3 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus Clock Output - Channel 3;
STS3RxD_CLK_3:
All signals, which is output via the Receive Telecom Bus - Channel 3 is
clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_3[7:0]
• STS3RxD_ALARM_3
• STS3RxD_DP_3
• STS3RxD_PL_3
• STS3RxD_C1J1_3
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - LLOOP_3
(General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 0 (LLOOP) within the Line Interface Drive Register associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct Address =
0x4F80).
NOTE:
For Product Legacy purposes, this pin is called LLOOP_3
because one possible application is to tie this output pin to an
LLOOP (Local Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
88
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
A21
STS3RxD_PL_0
TAOS_0
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 0/TAOS_0 (General Purpose) output Pin - Channel 0:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface block associated with Channel 0 has been
enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
0) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload
Indicator Output - STS3RxD_PL_0:
This output pin indicates whether or not Transport Overhead bytes are
being output via the STS3RXD_D_0[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/STM-1
Receive Telecom Bus is transmitting a Transport Overhead byte via the
STS3RXD_D_0[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the STS3/STM-1 Receive Telecom Bus is transmitting something other than a
Transport Overhead byte via the STS3RXD_D_0[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
0) is disabled - TAOS_0 (General Purpose) output Pin - Channel 0:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 4 (TAOS) within the Line Interface Drive Register associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct Address =
0x1F80).
NOTE: For Product Legacy purposes, this pin is called TAOS_0 because
one possible application is to tie this output pin to an TAOS
(Transmit All Ones) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output pin,
and the corresponding register bit can be used for any purpose.
89
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
D24
STS3RxD_PL_1
TAOS_1
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 1/TAOS_1 (General Purpose) output Pin - Channel 1:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface block associated with Channel 1 has been
enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
1) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload
Indicator Output - STS3RxD_PL_1:
This output pin indicates whether or not Transport Overhead bytes are
being output via the STS3RXD_D_1[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/STM-1
Receive Telecom Bus is transmitting a Transport Overhead byte via the
STS3RXD_D_1[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the STS3/STM-1 Receive Telecom Bus is transmitting something other than a
Transport Overhead byte via the STS3RXD_D_1[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
1) is disabled - TAOS_1 (General Purpose) output Pin - Channel 1:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 4 (TAOS) within the Line Interface Drive Register associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct Address =
0x2F80).
NOTE: For Product Legacy purposes, this pin is called TAOS_1 because
one possible application is to tie this output pin to an TAOS
(Transmit All Ones) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output pin,
and the corresponding register bit can be used for any purpose.
90
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
V23
STS3RxD_PL_2
TAOS_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 2/TAOS_2 (General Purpose) output Pin - Channel 2:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface block associated with Channel 2 has been
enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
2) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload
Indicator Output - STS3RxD_PL_2:
This output pin indicates whether or not Transport Overhead bytes are
being output via the STS3RXD_D_2[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/STM-1
Receive Telecom Bus is transmitting a Transport Overhead byte via the
STS3RXD_D_2[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the STS3/STM-1 Receive Telecom Bus is transmitting something other than a
Transport Overhead byte via the STS3RXD_D_2[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
2) is disabled - TAOS_2 (General Purpose) output Pin - Channel 2:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 4 (TAOS) within the Line Interface Drive Register associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct Address =
0x3F80).
NOTE: For Product Legacy purposes, this pin is called TAOS_2 because
one possible application is to tie this output pin to an TAOS
(Transmit All Ones) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output pin,
and the corresponding register bit can be used for any purpose.
91
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AF21
STS3RxD_PL_3
TAOS_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 3/TAOS_3 (General Purpose) output Pin - Channel 3:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface block associated with Channel 3 has been
enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
3) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload
Indicator Output - STS3RxD_PL_3:
This output pin indicates whether or not Transport Overhead bytes are
being output via the STS3RXD_D_3[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/STM-1
Receive Telecom Bus is transmitting a Transport Overhead byte via the
STS3RXD_D_3[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the STS3/STM-1 Receive Telecom Bus is transmitting something other than a
Transport Overhead byte via the STS3RXD_D_3[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with Channel
3) is disabled - TAOS_3 (General Purpose) output Pin - Channel 3:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 4 (TAOS) within the Line Interface Drive Register associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct Address =
0x4F80) .
NOTE: For Product Legacy purposes, this pin is called TAOS_3 because
one possible application is to tie this output pin to an TAOS
(Transmit All Ones) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output pin,
and the corresponding register bit can be used for any purpose.
92
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
C23
STS3RxD_C1J1_0
EG_DS3E3_FP_8
TxSTS1FP_8
RxSBFrame_0
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase Indicator
Output Signal - Channel 0; Egress Direction DS3/E3 Frame Generator Block Framing Pulse Output pin - Channel 8; Transmit STS-1
Framing Pulse Output pin - Channel 8:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for STS-3/STM-1 Channel 0 has been
enabled.
If STS-3/STM-1 Telecom Bus (associatd with STS-3/STM-1 Channel
0) has been enabled - STS-3/STM-1 Receive Telecom Bus - C1/J1
Byte Phase Indicator Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the STS3RxD_D_0[7:0] output, and
2. Whenever the J1 byte is being output via the STS3RxD_D_0[7:0] output.1:
NOTES:
1. The STS-3/STM-1 Receive (Drop) Telecom Bus (associated
with Channel 0) will indicate that it is transmitting the C1 byte
(via the STS3RxD_D_0[7:0] output pins), by pulsing this output
pin "High" (for one period of STS3RXD_CLK_0) and keeping
the STS3RXD_PL_0 output pin pulled "Low".
2. The STS-3/STM-1 Receive (Drop) Telecom Bus (associated
with Channel 0) will indicate that it is transmitting the J1 byte (via
the STS3RXD_D_0[7:0] output pins), by pulsing this output pin
"High" (for one period of STS3RXD_CLK_0) while the
STS3TXD_PL_0 output pin is pulled "High".
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
C23
STS3RxD_C1J1_0
EG_DS3E3_FP_8
TxSTS1FP_8
RxSBFrame_0
O
CMOS Continued
DESCRIPTION
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
0) is disabled then the function of this output pin depends upon
whether Channel 8 has been configured to operate in either the DS3/
E3 or STS-1 Modes):
If Channel 8 is configured to operate in the DS3/E3 Mode EG_DS3E3_FP_8 (Egress Direction - DS3/E3 Framing Pulse Output
pin - Channel 8):
If the STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
0) is disabled and if Channel 8 is configured to operate in either the DS3
or E3 Modes then this pin will function as the "Egress Direction DS3/E3
Framing Pulse" output pin.
In this mode, the Frame Generator block (associated with Channel 8) will
pulse this output pin "HIGH" for one DS3/E3 bit-period, coincident with
the first bit (within a given DS3 or E3 frame) being output via the "DS3/
E3/STS1_Data_OUT_8" output pin.
If Channel 8 is configured to operate in the STS-1 Mode TxSTS1_FP_8 (Transmit Direction - STS-1 Framing Pulse Output pin
- Channel 8):
If the STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
0) is disabled and if Channel 8 is configured to operate in the STS-1/
STM-0 Mode, then this pin will function as the "Transmit Direction STS-1
Framing Pulse" output pin
.In this mode, the Transmit STS-1 TOH Processor block (associated with
Channel 8) will pulse this output pin "HIGH" for one STS-1 bit-period,
coincident to whenever the very first bit (within a given STS-1 frame)
being output via the "DS3/E3/STS1_DATA_OUT_8" output pin.
CONTINUED
NOTE: For those applications in which the XRT94L43 is being interfaced
to DS3/E3/STS-1 LIU devices, we recommend that the user NOT
connect this output pin to any LIU input pin.
J25
STS3RxD_C1J1_1
EG_DS3E3_FP_9
TxSTS1FP_9
RxSBFrame_1
O
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase Indicator
Output Signal - Channel 1; Egress Direction DS3/E3 Frame Generator Framing Pulse Output pin - Channel 9; Transmit STS-1 Framing
Pulse Output pin - Channel 9:
See description for Pin # C23 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 has
been enabled - STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte
Phase Indicator Output Signal:
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
1) is disabled then the function of this output pin depends upon
whether Channel 9 has been configured to in either the DS3/E3 or
STS-1` Modes:
94
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AC20
STS3RxD_C1J1_2
EG_DS3E3_FP_10
TxSTS1FP_10
RxSBFrame_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase Indicator
Output Signal - Channel 2; Egress Direction DS3/E3 Frame Generator Block Framing Pulse Output pin - Channel 11; Transmit STS-1
Framing Pulse Output pin - Channel 10:
See description for Pin # C23 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus ((associated with STS-3/STM-1 Channel
2) has been enabled - STS-3/STM-1 Receive Telecom Bus - C1/J1
Byte Phase Indicator Output Signal:
If STS-3/STM-1 Telecom Bus ((associated with STS-3/STM-1 Channel
2) is disabled - RxDS3FP_10 (Receive DS3 Frame Pulse Input/Output - Channel 10):
AE14
STS3RxD_C1J1_3
EG_DS3E3_FP_11
TxSTS1FP_11
RxSBFrame_3
O
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase Indicator
Output Signal - Channel 3; Egress Direction DS3/E3 Frame Generator Block Framing Pulse Output pin - Channel 11; Transmit STS-1
Framing Pulse Output pin - Channel 11:
See description for Pin # C23 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1- Channel 2) is disabled then the function of this output pin depends upon
whether Channel 10 has been configured to operate in either the
DS3/E3 or STS-1 Modes.:
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
3) is disabled then the function of this output pin depends upon
whether Channel 11 has been configured to operate in either the
DS3/E3 or STS-1 Modes.
95
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SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
C22
SIGNAL NAME
STS3RxD_DP_0
EG_DS3E3_FP_4
TxSTS1FP_4
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output Pin Channel 0; Egress Direction DS3/E3 Frame Generator Block Framing Pulse Output pin - Channel 4; Transmit STS-1 Framing Pulse
Output pin - Channel 4:
The function of this output pin depends upon whether or not the STS-3/
STM-1 Telecom Bus Interface for STS-3/STM-1 Channel 0 has been
enabled.
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel 0)
has been enabled - STS-3/STM-1 Receive Telecom Bus - Parity Output
pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output via the
"STS3RXD_D_0[7:0]" output pins.
2. The EVEN or ODD parity value of the bits which are being output
via the "STS3RXD_D_0[7:0]" output pins and the states of the
"STS3RXD_PL_0" and "STS3RXD_C1J1_0" output pins.
This output pin will ultimately be used (by "drop-side" circuitry) to verify
the verify of the data which is output via the "STS-3/STM-1 Telecom Bus
Interface associated with Channel 0
NOTE: The user can make any one of these configuration selections by
writing the appropriate value into the "Telecom Bus Control"
Register (Direct Address = 0x013B).
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel 0)
is disabled then the function of this output pin depends upon whether
Channel 4 has been configured to operate in either the DS3/E3 or STS-1
Modes
If Channel 4 is configured to operate in the DS3/E3 Modes EG_DS3E3_FP_4 (Egress Direction - DS3/E3 Framing Pulse Output
pin - Channel 4):
If the STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
0) is disabled and if Channel 4 is configured to operate in either the DS3
or E3 Modes then this pin will function as the "Egress Direction DS3/E3
Framing Pulse" output pin.
In this mode, the Frame Generator block (associated with Channel 4) will
pulse this output pin "HIGH" for one DS3/E3 bit-period, coincident with
the first bit (within a given DS3 or E3 frame) being output via the "DS3/
E3/STS1_Data_OUT_4" output pin.
If Channel 4 is configured to operate in the STS-1 Mode TxSTS1_FP_4 (Transmit Direction - STS-1 Framing Pulse Output pin
- Channel 4):
If the STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
0) is disabled and if Channel 4 is configured to operate in the STS-1/
STM-0 Mode, then this pin will function as the "Transmit Direction STS-1
Framing Pulse" output pin.
In this mode, the Transmit STS-1 TOH Processor block (associated with
Channel 4) will pulse this output pin "HIGH" for one STS-1 bit-period,
coincident to whenever the very first bit (within a given STS-1 frame)
being output via the "DS3/E3/STS1_DATA_OUT_4" output pin.
NOTE: For those applications in which the XRT94L43 is being interfaced
to DS3/E3/STS-1 LIU devices, we recommend that the user NOT
connect this output pin to any LIU input pin.
96
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
G25
SIGNAL NAME
STS3RxD_DP_1
EG_DS3E3_FP_5
TxSTS1FP_5
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output Pin Channel 1; Egress Direction DS3/E3 Frame Generator Block Framing Pulse Output pin - Channel 5; Transmit STS-1 Framing Pulse
Output pin - Channel 5:
See description for Pin # C22 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus ((associated with STS-3/STM-1 Channel
1) has been enabled - STS-3/STM-1 Receive Telecom Bus - Parity
Output pin:
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
1) is disabled then the function of this output pin depends upon
whether Channel 5 has been configured to operate in either the DS3/
E3 or STS-1 ModesChannel 1) is disabled - RxDS3FP_5 (Receive
DS3 Frame Pulse Input/Output - Channel 5):
AC23
STS3RxD_DP_2
EG_DS3E3_FP_6
TxSTS1FP_6
O
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output Pin - STS3/STM-1 Channel 2; Egress Direction DS3/E3 Frame Generator
Block Framing Pulse Output pin - Channel 6; Transmit STS-1 Framing Pulse Output pin - Channel 6:
See description for Pin # C22 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
2) has been enabled - STS-3/STM-1 Receive Telecom Bus - Parity
Output Pin:
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
2) is disabled then the function of this output pin depends upon
whether Channel 2 has been configured to operate in either the DS3/
E3 or STS-1 Modes:
AC17
STS3RxD_DP_3
EG_DS3E3_FP_7
TxSTS1FP_7
O
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output Pin - STS3/STM-1 Channel 3; Egress Direction DS3/E3 Frame Generator
Block Framing Pulse Output pin - Channel 7; Transmit STS-1 Framing Pulse Output pin - Channel 7:
See description for Pin # C22 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus ((associated with STS-3/STM-1 Channel
3) has been enabled - STS-3/STM-1 Receive Telecom Bus - Parity
Output Pin:
If STS-3/STM-1 Telecom Bus (associated with STS-3/STM-1 Channel
3) is disabled then the function of this output pin depends upon
whether Channel 7 has been configured to operate in either the DS3/
E3 or STS-1 Modes:
97
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
C20
STS3RxD_Alarm_0
EG_DS3E3_FP_0
TxSTS1FP_0
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output
signal - Channel 0; Egress Direction DS3/E3 Frame Generator Block
Framing Pulse Output pin - Channel 0; Transmit STS-1 Framing
Pulse Output pin - Channel 0:
This output pin pulses "high", coincident with any STS-1 signal (that is
being output via the "STS3RXD_D_0[7:0]" output pins) that is carrying an
AIS-P indicator.
This output pin is "low" for all other conditions.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "high", coincident with any STS-1 signal (that is
being output via the "STS3RXD_D_0[7:0]" output pins) that is carrying an
AIS-P indicator.
This output pin is "low" for all other conditions.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled then the function of this output pin depends upon whether Channel 0 has been
configured to operate in either the DS3/E3 or STS-1 Modes
If Channel 0 is configured to operate in the DS3/E3 Modes EG_DS3E3_FP_0 (Egress Direction - DS3/E3 Framing Pulse Output
pin - Channel 0):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if Channel
0 is configured to operate in either the DS3 or E3 Modes then this pin will
function as the "Egress Direction DS3/E3 Framing Pulse" output pin.
In this mode, the Frame Generator block (associated with Channel 0) will
pulse this output pin "HIGH" for one DS3/E3 bit-period, coincident with
the first bit (within a given DS3 or E3 frame) being output via the "DS3/
E3/STS1_Data_OUT_0" output pin.
If Channel 3 is configured to operate in the STS-1 Mode TxSTS1_FP_3 (Transmit Direction - STS-1 Framing Pulse Output pin
- Channel 3):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if Channel
0 is configured to operate in the STS-1/STM-0 Mode, then this pin will
function as the "Transmit Direction STS-1 Framing Pulse" output pin.
In this mode, the Transmit STS-1 TOH Processor block (associated with
Channel 0) will pulse this output pin "HIGH" for one STS-1 bit-period,
coincident to whenever the very first bit (within a given STS-1 frame)
being output via the "DS3/E3/STS1_DATA_OUT_0" output pin.
NOTE: For those applications in which the XRT94L43 is being interfaced
to DS3/E3/STS-1 LIU devices, we recommend that the user NOT
connect this output pin to any LIU input pin.
E25
STS3RxD_Alarm_1
RxDS3FP_1
TxSTS1FP_1
O
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output
signal - Channel 1; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 1:
See description for Pin # C20 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled then the function of this output pin depends upon whether Channel 1 has been
configured to operate in either the DS3/E3 or STS-1 Modes
98
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
V21
STS3RxD_Alarm_2
RxDS3FP_2
TxSTS1FP_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output
signal - Channel 2; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 2:
See description for Pin # C20 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled then the function of this output pin depends upon whether Channel 1 has been
configured to operate in either the DS3/E3 or STS-1 Modes
AD21
STS3RxD_Alarm_3
RxDS3FP_3
TxSTS1FP_3
O
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output
signal - Channel 3; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 1:
See description for Pin # C20 above using the appropriate channel numbers.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled then the function of this output pin depends upon whether Channel 1 has been
configured to operate in either the DS3/E3 or STS-1 Modes
B21
STS3RxD_D_0_0
TxLEV_0
RxSBData_0
O
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 0/TxLEV_0 (General Purpose) Output pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 0:
STSRxD_D_0_0:
This output pin along with STS3RxD_D_0[7:1] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 0.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_0.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - TXLEV_0
(General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 2 (TxLEV) within the Line Interface Drive Register associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct Address =
0x1F80).
NOTE: For Product Legacy purposes, this pin is called TxLEV_0 because
one possible application is to tie this output pin to a TxLEV
(Transmit Line Build-Out Disable) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
99
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
B20
SIGNAL NAME
STS3RxD_D_0_1
ENCODIS_0
RxSBData_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 1/ENCODIS_0 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 1:
STSRxD_D_0_1:
This output pin along with STS3RxD_D_0[7:2] and STS3RxD_D_0_0
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 0. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - ENCODIS_0
(General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct Address =
0x1F80).
NOTE:
For Product Legacy purposes, this pin is called ENCODIS_0
because one possible application is to tie this output pin to an
ENCODIS (B3ZS/HDB3 Encoder Disable) input pin from one of
Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices.
However, this output pin, and the corresponding register bit can
be used for any purpose.
100
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
E20
STS3RxD_D_0_2
DS3/E3/
STS1_Data_OUT_
0
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 2/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 0 (DS3/E3/
STS1_DATA_OUT_0):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 2:
STSRxD_D_0_2:
This output pin along with STS3RxD_D_0[7:3] and STS3RxD_D_0[1:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 0. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 0:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 0). By default, the
data that is output via this output pin will be updated upon the rising edge
of DS3/E3/STS1_CLK_OUT_0 signal pin number C21.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_0 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 0
(Indirect Address = 0x1E, 0x01), (Direct Address = 0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_0 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_0.
101
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
D20
STS3RxD_D_0_3
DS3/E3/
STS1_Data_OUT_
4
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 3/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 4 (DS3/E3/
STS1_DATA_OUT_4):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 3:
STSRxD_D_0_3:
This output pin along with STS3RxD_D_0[7:4] and STS3RxD_D_0[2:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 0. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 4:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 4). By default, the
data that is output via this output pin will be updated upon the rising edge
of the DS3/E3/STS1_CLK_OUT_4 signal pin number E21.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_4 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 4
(Indirect Address = 0x5E, 0x01), (Direct Address = 0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_4 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_4.
102
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
D21
STS3RxD_D_0_4
DS3/E3/
STS1_Data_OUT_
8
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 4/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 8 (DS3/E3/
STS1_DATA_OUT_8):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 4:
STSRxD_D_0_4:
This output pin along with STS3RxD_D_0[7:5] and STS3RxD_D_0[3:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 0. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 8:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 8). By default, the
data that is being output via this output pin will be updated upon the rising
edge of the DS3/E3/STS-1_CLK_OUT_8 signal pin number C24.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_8
output signal upon the falling edge of the DS3/E3/STS1_CLK_8 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 8 (Indirect Address = 0x9E, 0x01), (Direct Address =
0x9F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_8 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_8.
103
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
C21
STS3RxD_D_0_5
DS3/E3/
STS1_Clk_OUT_0
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 5/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 0: (DS3/E3/
STS1_CLK_OUT_0):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 5:
STSRxD_D_0_5:
This output pin along with STS3RxD_D_0[7:6] and STS3RxD_D_0[4:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 0. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 0:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 0).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_0 output pin will be updated upon the rising edge of
this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_0
output signal upon the falling edge of the DS3/E3/STS1_CLK_0 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 0 (Indirect Address = 0x1E, 0x01), (Direct Address =
0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_0 signal upon the falling edge of DS3/E3/
STS1_CLK_0.
104
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
E21
STS3RxD_D_0_6
DS3/E3/
STS1_Clk_OUT_4
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 6/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 4: (DS3/E3/
STS1_CLK_OUT_4):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 6:
STSRxD_D_0_6:
This output pin along with STS3RxD_D_0_7 and STS3RxD_D_0[5:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 0. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 4:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 4).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_4 output pin will be updated upon the rising edge of
this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_4
output signal upon the falling edge of the DS3/E3/STS1_CLK_4 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 4 (Indirect Address = 0x5E, 0x01), (Direct Address =
0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_4 signal upon the falling edge of DS3/E3/
STS1_CLK_4.
105
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
C24
STS3RxD_D_0_7
DS3/E3/
STS1_Clk_OUT_8
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output Data Bus
Pin Number 7/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 8: (DS3/E3/
STS1_CLK_OUT_8):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 7:
STSRxD_D_0_7:
This output pin along with STS3RxD_D_0[6:0] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 0.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_0.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-3/STM-1 Receive (Drop) Telecom Bus Interface - Output
Data Bus (Channel 0).
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 8:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 8).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_8 output pin will be updated upon the rising edge of
this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_8
output signal upon the falling edge of the DS3/E3/STS1_CLK_8 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 8 (Indirect Address = 0x9E, 0x01), (Direct Address =
0x9F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_8 signal upon the falling edge of DS3/E3/
STS1_CLK_8.
106
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
E24
SIGNAL NAME
STS3RxD_D_1_0
TxLEV_1
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 0/TxLEV_1 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 0:
STSRxD_D_1_0:
This output pin along with STS3RxD_D_1[7:1] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 1.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_1.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - TXLEV_1
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 2 (TxLEV) within the Line Interface Drive Register associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct Address =
0x2F80).
NOTE: For Product Legacy purposes, this pin is called TxLEV_1 because
one possible application is to tie this output pin to a TxLEV
(Transmit Line Build-Out Disable) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
E23
STS3RxD_D_1_1
ENCODIS_1
RxSBData_1
O
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 1/ENCODIS_1 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 1:
STSRxD_D_1_1:
This output pin along with STS3RxD_D_1[7:2] and STS3RxD_D_1_0
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 1. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - ENCODIS_1
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct Address =
0x2F80).
NOTE:
For Product Legacy purposes, this pin is called ENCODIS_1
because one possible application is to tie this output pin to an
ENCODIS (B3ZS/HDB3 Encoder Disable) input pin from one of
Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices.
However, this output pin, and the corresponding register bit can
be used for any purpose.
107
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
F26
STS3RxD_D_1_2
DS3/E3/
STS1_Data_OUT_
1
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 2/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 1 (DS3/E3/
STS1_DATA_OUT_1):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 2:
STSRxD_D_1_2:
This output pin along with STS3RxD_D_1[7:3] and STS3RxD_D_1[1:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 1. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 1:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 1). By default, the
data that is output via this output pin will be updated upon the rising edge
of the DS3/E3/STS1_CLK_OUT_1 signal pin number G26.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_1 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 1
(Indirect Address = 0x2E, 0x01), (Direct Address = 0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_1 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_1.
108
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
H26
STS3RxD_D_1_3
DS3/E3/
STS1_Data_OUT_
5
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 3/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 5 (DS3/E3/
STS1_DATA_OUT_5):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 3:
STSRxD_D_1_3:
This output pin along with STS3RxD_D_1[7:4] and STS3RxD_D_1[2:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 1. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 5.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 5). By default, the
data that is output via this output pin will be updated upon the rising edge
of the DS3/E3/STS1_CLK_OUT_5 signal pin number F25.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_5 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 5
(Indirect Address = 0x6E, 0x01), (Direct Address = 0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_5 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_5.
109
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
J26
STS3RxD_D_1_4
DS3/E3/
STS1_Data_OUT_
9
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 4/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 9 (DS3/E3/
STS1_DATA_OUT_9):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 4:
STSRxD_D_1_4:
This output pin along with STS3RxD_D_1[7:5] and STS3RxD_D_1[3:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 1. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 9.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 9). By default, the
data that is being output via this output pin will be updated upon the rising
edge of the DS3/E3/STS-1_CLK_OUT_9 signal pin number H25.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_9
output signal upon the falling edge of the DS3/E3/STS1_CLK_9 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 9 (Indirect Address = 0xAE, 0x01), (Direct Address =
0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_9 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_9.
110
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
G26
STS3RxD_D_1_5
DS3/E3/
STS1_Clk_OUT_1
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 5/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 1: (DS3/E3/
STS1_CLK_OUT_1):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 5:
STSRxD_D_1_5:
This output pin along with STS3RxD_D_1[7:6] and STS3RxD_D_1[4:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 1. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 1:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 1).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_1 output pin will be updated upon the rising edge of
this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_1
output signal upon the falling edge of the DS3/E3/STS1_CLK_1 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 1 (Indirect Address = 0x2E, 0x01), (Direct Address =
0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_1 signal upon the falling edge of DS3/E3/
STS1_CLK_1.
111
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
F25
STS3RxD_D_1_6
DS3/E3/
STS1_Clk_OUT_5
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 6/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 5: (DS3/E3/
STS1_CLK_OUT_5):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 6:
STSRxD_D_1_6:
This output pin along with STS3RxD_D_1_7 and STS3RxD_D_1[5:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 1. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 5:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 5).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_5 output pin will be updated upon the rising edge of
this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_5
output signal upon the falling edge of the DS3/E3/STS1_CLK_5 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 5 (Indirect Address = 0x6E, 0x01), (Direct Address =
0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_5 signal upon the falling edge of DS3/E3/
STS1_CLK_5.
112
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
H25
STS3RxD_D_1_7
DS3/E3/
STS1_Clk_OUT_9
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output Data Bus
Pin Number 7/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 9: (DS3/E3/
STS1_CLK_OUT_9):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 7:
STSRxD_D_1_7:
This output pin along with STS3RxD_D_1[6:0] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 1.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_1.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-3/STM-1 Receive (Drop) Telecom Bus Interface - Output
Data Bus (Channel 1).
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 9:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 9).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_9 output pin will be updated upon the rising edge of
this clock output pin.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_9
output signal upon the falling edge of the DS3/E3/STS1_CLK_9 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 9 (Indirect Address = 0xAE, 0x01), (Direct Address =
0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_9 signal upon the falling edge of DS3/E3/
STS1_CLK_9.
113
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
Y24
SIGNAL NAME
STS3RxD_D_2_0
TxLEV_2
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 0/TxLEV_2 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 0:
STSRxD_D_2_0:
This output pin along with STS3RxD_D_2[7:1] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 2.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_2.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - TXLEV_2
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 2 (TxLEV) within the Line Interface Drive Register associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct Address =
0x3F80).
NOTE: For Product Legacy purposes, this pin is called TxLEV_2 because
one possible application is to tie this output pin to a TxLEV
(Transmit Line Build-Out Disable) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
Y23
STS3RxD_D_2_1
ENCODIS_2
RxSBData_1
O
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 1/ENCODIS_2 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 1:
STSRxD_D_2_1:
This output pin along with STS3RxD_D_2[7:2] and STS3RxD_D_2_0
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 2. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - ENCODIS_2
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct Address =
0x3F80).
NOTE:
For Product Legacy purposes, this pin is called ENCODIS_2
because one possible application is to tie this output pin to an
ENCODIS (B3ZS/HDB3 Encoder Disable) input pin from one of
Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices.
However, this output pin, and the corresponding register bit can
be used for any purpose.
114
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
W24
STS3RxD_D_2_2
DS3/E3/
STS1_Data_OUT_
2
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 2/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 1 (DS3/E3/
STS1_DATA_OUT_2):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 2:
STSRxD_D_2_2:
This output pin along with STS3RxD_D_2[7:3] and STS3RxD_D_2[1:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 2. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 2.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 2). By default, the
data that is output via this output pin will be updated upon the rising edge
of the DS3/E3/STS1_CLK_OUT_2 signal pin number AC25.
For DS3/E3 Applications
For DS3/E3 Applications the XRT94L43 can be configured to update this
output signal upon the falling edge of the DS3/E3/STS1_CLK_2 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 2 (Indirect Address = 0x3E, 0x01), (Direct Address =
0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_2 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_2.
115
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AC24
STS3RxD_D_2_3
DS3/E3/
STS1_Data_OUT_
6
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 3/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 6 (DS3/E3/
STS1_DATA_OUT_6):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 3:
STSRxD_D_2_3:
This output pin along with STS3RxD_D_2[7:4] and STS3RxD_D_2[2:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 2. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 6.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 6). By default, the
data that is output via this pin will be updated upon the rising edge of the
DS3/E3/STS1_CLK_OUT_6 signal pin number AA22.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_6 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 6
(Indirect Address = 0x7E, 0x01), (Direct Address = 0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_6 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_6.
116
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AC21
STS3RxD_D_2_4
DS3/E3/
STS1_Clk_OUT_10
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 4/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 10 (DS3/E3/
STS1_DATA_OUT_10):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 4:
STSRxD_D_2_4:
This output pin along with STS3RxD_D_2[7:5] and STS3RxD_D_2[3:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 2. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 10.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 10). By default, the
data that is being output via the DS3/E3/STS1_DATA_OUT_10 output pin
will be updated upon the rising edge of this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_10
output signal upon the falling edge of the DS3/E3/STS1_CLK_10 signal
by setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 10 (Indirect Address = 0xBE, 0x01), (Direct Address =
0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_10 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_10.
117
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AC25
STS3RxD_D_2_5
DS3/E3/
STS1_Clk_OUT_2
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 5/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 2: (DS3/E3/
STS1_CLK_OUT_2):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 5:
STSRxD_D_2_5:
This output pin along with STS3RxD_D_2[7:6] and STS3RxD_D_2[4:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 2. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 2:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 2).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_2 output pin will be updated upon the rising edge of
this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_2
output signal upon the falling edge of the DS3/E3/STS1_CLK_2 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 2 (Indirect Address = 0x3E, 0x01), (Direct Address =
0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_2 signal upon the falling edge of DS3/E3/
STS1_CLK_2.
118
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AA22
STS3RxD_D_2_6
DS3/E3/
STS1_Clk_OUT_6
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 6/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 6: (DS3/E3/
STS1_CLK_OUT_6):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 6:
STSRxD_D_2_6:
This output pin along with STS3RxD_D_2_7 and STS3RxD_D_2[5:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 2. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 6:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 6).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_6 output pin will be updated upon the rising edge of
this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_6
output signal upon the falling edge of the DS3/E3/STS1_CLK_6 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 6 (Indirect Address = 0x7E, 0x01), (Direct Address =
0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_6 signal upon the falling edge of DS3/E3/
STS1_CLK_6.
119
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AE23
STS3RxD_D_2_7
DS3/E3/
STS1_Clk_OUT_10
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output Data Bus
Pin Number 7/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 10: (DS3/E3/
STS1_CLK_OUT_10):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 7:
STSRxD_D_2_7:
This output pin along with STS3RxD_D_2[6:0] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 2.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_2.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-3/STM-1 Receive (Drop) Telecom Bus Interface - Output
Data Bus (Channel 2).
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 10:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 10).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_10 output pin will be updated upon the rising edge of
this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_10
output signal upon the falling edge of the DS3/E3/STS1_CLK_10 signal
by setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 10 (Indirect Address = 0xBE, 0x01), (Direct Address =
0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_10 signal upon the falling edge of DS3/E3/
STS1_CLK_10.
120
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AE21
SIGNAL NAME
STS3RxD_D_3_0
TxLEV_3
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 0/TxLEV_3 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 0:
STSRxD_D_3_0:
This output pin along with STS3RxD_D_3[7:1] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 3.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_3.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - TXLEV_3
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 2 (TxLEV) within the Line Interface Drive Register associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct Address =
0x4F80).
NOTE: For Product Legacy purposes, this pin is called TxLEV_3 because
one possible application is to tie this output pin to a TxLEV
(Transmit Line Build-Out Disable) input pin from one of Exar's
XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices. However,
this output pin, and the corresponding register bit can be used for
any purpose.
AC19
STS3RxD_D_3_1
ENCODIS_3
RxSBData_1
O
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 1/ENCODIS_3 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 1:
STSRxD_D_3_1:
This output pin along with STS3RxD_D_3[7:2] and STS3RxD_D_3_0
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 3. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - ENCODIS_3
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate
value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct Address =
0x4F80).
NOTE:
For Product Legacy purposes, this pin is called ENCODIS_3
because one possible application is to tie this output pin to an
ENCODIS (B3ZS/HDB3 Encoder Disable) input pin from one of
Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU devices.
However, this output pin, and the corresponding register bit can
be used for any purpose.
121
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AB21
STS3RxD_D_3_2
DS3/E3/
STS1_Data_OUT_
3
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 2/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 3 (DS3/E3/
STS1_DATA_OUT_3):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 2:
STSRxD_D_3_2:
This output pin along with STS3RxD_D_3[7:3] and STS3RxD_D_3[1:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 3. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 3.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 3). By default, the
data that is output via this pin will be updated upon the rising edge of the
DS3/E3/STS1_CLK_OUT_3 signal pin number AB20.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_3 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 3
(Indirect Address = 0x4E, 0x01), (Direct Address = 0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_3 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_3.
122
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AE18
STS3RxD_D_3_3
DS3/E3/
STS1_Data_OUT_
7
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 3/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 7 (DS3/E3/
STS1_DATA_OUT_7):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 3:
STSRxD_D_3_3:
This output pin along with STS3RxD_D_3[7:4] and STS3RxD_D_3[2:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 3. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 6.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 7). By default, the
data that is output via this pin will be updated upon the rising edge of the
DS3/E3/STS1_CLK_OUT_7 signal pin number AD19.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal upon the
falling edge of the DS3/E3/STS1_CLK_7 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register - Channel 7
(Indirect Address = 0x8E, 0x01), (Direct Address = 0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_7 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_7.
123
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AE15
STS3RxD_D_3_4
DS3/E3/
STS1_Data_OUT_
11
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 4/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface output Pin - Channel 11 (DS3/E3/
STS1_DATA_OUT_11):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 4:
STSRxD_D_3_4:
This output pin along with STS3RxD_D_3[7:5] and STS3RxD_D_3[3:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 3. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_OUT Line Interface Data output Pin - Channel 1.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TPOS/TDATA input of
the DS3/E3/STS-1 LIU IC (corresponding to Channel 11). By default, the
data that is being output via this output pin will be updated upon the rising
edge of the DS3/E3/STS-1_CLK_OUT_11 signal pin number AB15.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_11
output signal upon the falling edge of the DS3/E3/STS1_CLK_11 signal
by setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 11 (Indirect Address = 0xCE, 0x01), (Direct Address =
0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_11 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_11.
124
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AB20
STS3RxD_D_3_5
DS3/E3/
STS1_Clk_OUT_3
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 5/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 3: (DS3/E3/
STS1_CLK_OUT_3):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 5:
STSRxD_D_3_5:
This output pin along with STS3RxD_D_3[7:6] and STS3RxD_D_3[4:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 3. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 3:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 3).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_3 output pin will be updated upon the rising edge of
this output pin.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_3
output signal upon the falling edge of the DS3/E3/STS1_CLK_3 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 3 (Indirect Address = 0x4E, 0x01), (Direct Address =
0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_3 signal upon the falling edge of DS3/E3/
STS1_CLK_3.
125
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AD19
STS3RxD_D_3_6
DS3/E3/
STS1_Clk_OUT_7
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 6/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 7: (DS3/E3/
STS1_CLK_OUT_7):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 6:
STSRxD_D_3_6:
This output pin along with STS3RxD_D_3_7 and STS3RxD_D_3[5:0]
function as the STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data
Bus for Channel 3. The STS-3/STM-1 Telecom Bus Interface will update
the data via this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 7:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 7).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_7 output pin will be updated upon the rising edge of
this output pin.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_6
output signal upon the falling edge of the DS3/E3/STS1_CLK_7 signal by
setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 7 (Indirect Address = 0x8E, 0x01), (Direct Address =
0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_7 signal upon the falling edge of DS3/E3/
STS1_CLK_7.
126
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AB15
STS3RxD_D_3_7
DS3/E3/
STS1_Clk_OUT_11
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output Data Bus
Pin Number 7/DS3/E3 Framer or Transmit STS-1 TOH Processor
block line interface clock output Pin - Channel 11: (DS3/E3/
STS1_CLK_OUT_11):
The function of this output pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled - STS-3/
STM-1 Receive Telecom Bus - Output Data bus Pin Number 7:
STSRxD_D_3_7:
This output pin along with STS3RxD_D_3[6:0] function as the STS-3/
STM-1 Receive (Drop) Telecom Bus - Output Data Bus for Channel 3.
The STS-3/STM-1 Telecom Bus Interface will update the data via this
output upon the rising edge of STS3RxD_CLK_3.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-3/STM-1 Receive (Drop) Telecom Bus Interface - Output
Data Bus (Channel 3).
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_OUT Line Interface Clock output Pin - Channel 11:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/E3/STS-1
LIU IC. This output pin should be connected to the TxCLK input of the
DS3/E3/STS-1 LIU IC (corresponding to Channel 11).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_11 output pin will be updated upon the rising edge of
this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/STS1_DATA_11
output signal upon the falling edge of the DS3/E3/STS1_CLK_11 signal
by setting Bit 0 (DS3/E3/STS1_CLK_OUT Invert), within the I/O Control
Register - Channel 11 (Indirect Address = 0xCE, 0x01), (Direct Address =
0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_11 signal upon the falling edge of DS3/E3/
STS1_CLK_11.
127
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
Y5
RxTOHClk
O
CMOS
Receive TOH Output Port - Clock Output:
This output pin, along with RxTOH, RxTOHValid and RxTOHFrame function as the Receive TOH Output Port:
The Receive TOH Output Port is used to obtain the value of the TOH
Bytes, within the incoming STS-12/STM-4 signal.
This output pin provides a clock signal.
If the RxTOHValid output pin is "High", then the contents of the TOH bytes
within the incoming STS-12 data-stream, will be serially output via the
RxTOH output. This data will be updated upon the falling edge of this clock
signal. Therefore, it is advisable to sample the data (at the RxTOH output
pin) upon the rising edge of this clock output signal.
W5
RxTOHValid
O
CMOS
Receive TOH Output Port - TOH Valid (or READY) indicator:
This output pin, along with RxTOH and RxTOHFrame function as the
Receive TOH Output Port.
This output pin will toggle "High" whenever valid TOH data is being output
via the RxTOH output pin.
V6
RxTOH
O
CMOS
Receive TOH Output port - Output Pin:
This output pin, along with RxTOHClk, RxTOHValid and RxTOHFrame
function as the Receive TOH Output port.
All TOH data, that resides within the incoming STS-12 data-stream will be
output via this output pin.
The RxTOHValid output pin will toggle "High", coincident with anytime a bit
(from the Receive STS-12 TOH data) is being output via this output pin.
The RxTOHFrame output pin will pulse "High" (for eight periods of RxTOHClk) coincident to when the A1 byte is being output via this output pin.
Data, on this output pin, is updated upon the falling edge of RxTOHClk.
W6
RxTOHFrame
O
CMOS
Receive TOH Output Port - STS-12/STM-4 Frame Indicator:
This output pin, along with the RxTOHClk, RxTOHValid and RxTOH output
pins function as the Receive TOH Output port.
This output pin will pulse "High", for one period of RxTOHClk, one RxTOHClk period prior to the very first TOH bit (of a given STS-12 frame) being
output via the RxTOH output pin.
W2
RxLDCCVAL
O
CMOS
Receive - Line DCC Output Port - DCC Value Indicator Output Pin:
This output pin, along with the RxTOHClk and the RxLDCC output pins
function as the Receive Line DCC output port of the XRT94L43.
This output pin pulses "High" coincident to when the Receive Line DCC
output port outputs a DCC bit via the RxLDCC output pin.
This output pin is updated upon the falling edge of RxTOHClk.
The Line DCC HDLC Controller circuitry that is interfaced to this output
pin, the RxLDCC and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
2. Anytime the Line DCC HDLC circuitry samples this output pin being
"High", it should sample and latch the data on the RxLDCC output pin (as
a valid Line DCC bit) into the Line DCC HDLC circuitry.
128
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
W3
RxLDCC
O
CMOS
Receive - Line DCC Output Port - Output Pin:
This output pin, along with RxLDCCVAL and the RxTOHClk output pins
function as the Receive Line DCC output port of the XRT94L43.
This pin outputs the contents of the Line DCC (e.g., the D4, D5, D6, D7,
D8, D9, D10, D11 and D12 bytes), within the incoming STS-12 datastream. The Receive Line DCC Output port will assert the RxLDCCVAL
output pin, in order to indicate that the data, residing on the RxLDCC output pin is a valid Line DCC byte. The Receive Line DCC output port will
update the RxLDCCVAL and the RxLDCC output pins upon the falling
edge of the RxTOHClk output pin. The Line DCC HDLC circuitry that is
interfaced to this output pin, the RxLDCCVAL and the RxTOHClk pins is
suppose to do the following.
1. It should continuously sample and monitor the state of the RxLDCCVAL
output pin upon the rising edge of RxTOHClk.
2. Anytime the Line DCC HDLC circuitry samples the RxLDCCVAL output
pin "High", it should sample and latch the contents of this output pin (as a
valid Line DCC bit) into the Line DCC HDLC circuitry.
Y1
RxE1F1E2FP
O
CMOS
Receive - Order-Wire Output Port - Frame Boundary Indicator:
This output pin, along with RxE1F1E2, RxE1F1E2Val and the RxTOHClk
output pins function as the Receive Order-Wire Output port of the
XRT94L43.
This output pin pulses "High" (for one period of RxTOHClk) coincident to
when the very first bit (of the E1 byte) is being output via the RxE1F1E2
output pin.
Y2
RxE1F1E2
O
CMOS
Receive - Order-Wire Output Port - Output Pin:
This output pin, along with RxE1F1E2Val, RxE1F1F2FP, and the RxTOHClk output pins function as the Receive Order-Wire Output Port of the
XRT94L43.
This pin outputs the contents of the Order-Wire bytes (e.g., the E1, F1 and
E2 bytes) within the incoming STS-12 data-stream.
The Receive Order-Wire Output port will pulse the RxE1F1E2FP output
pin "High" (for one period of RxTOHClk) coincident to when the very first
bit (of the E1 byte) is being output via the RxE1F1E2 output pin. Additionally, the Receive Order-Wire Output port will also assert the RxE1F1E2Val
output pin, in order to indicate that the data, residing on the RxE1F1E2
output pin is a valid Order-Wire byte.
The Receive Order-Wire output port will update the RxE1F1E2Val, the
RxE1F1E2FP and the RxE1F1E2 output pins upon the falling edge of the
RxTOHClk output pin.
The Receive Order-Wire circuitry that is interfaced to this output pin, and
the RxE1F1E2Val, the RxE1F1E2 and the RxTOHClk pins is suppose to
do the following;
1. It should continuously sample and monitor the state of the
RxE1F1E2Val and RxE1F1E2FP output pins upon the rising edge of
RxTOHClk.
2. Anytime the Order-wire circuitry samples the RxE1F1E2Val and
RxE1F1E2FP output pins "High", it should begin to sample and latch the
contents of this output pin (as a valid Order-Wire bit) into the Order-Wire
circuitry.
3. The Order-Wire circuitry should continue to sample and latch the contents of the output pin until the RxE1F2E2Val output pin is sampled "Low".
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RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
AB5
RxSDCC
O
CMOS
Receive - Section DCC Output Port - Output Pin:
This output pin, along with RxSDCCVAL and the RxTOHClk output pins
function as the Receive Section DCC output port of the XRT94L43.
This pin outputs the contents of the Section DCC (e.g., the D1, D2 and D3
bytes), within the incoming STS-12 data-stream. The Receive Section
DCC Output port will assert the RxSDCCVAL output pin, in order to indicate that the data, residing on the RxSDCC output pin is a valid Section
DCC byte. The Receive Section DCC output port will update the RxSDCCVAL and the RxSDCC output pins upon the falling edge of the RxTOHClk
output pin. The Section DCC HDLC circuitry that is interfaced to this output
pin, the RxSDCCVAL and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of the RxSDCCVAL
output pin upon the rising edge of RxTOHClk.
2. Anytime the Section DCC HDLC circuitry samples the RxSDCCVAL output pin "High", it should sample and latch the contents of this output pin
(as a valid Section DCC bit) into the Section DCC HDLC circuitry.
AA5
RxSDCCVAL
O
CMOS
Receive - Section DCC Output Port - DCC Value Indicator Output Pin:
This output pin, along with the RxTOHClk and the RxSDCC output pins
function as the Receive Section DCC output port of the XRT94L43.
This output pin pulses "High" coincident to when the Receive Section DCC
output port outputs a DCC bit via the RxSDCC output pin.
This output pin is updated upon the falling edge of RxTOHClk.
The Section DCC HDLC Controller circuitry that is interfaced to this output
pin, the RxSDCC and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
2. Anytime the Section DCC HDLC circuitry samples this output pin being
"High", it should sample and latch the data on the RxSDCC output pin (as
a valid Section DCC bit) into the Section DCC HDLC circuitry.
W4
RxE1F1E2VAL
O
CMOS
Receive - Order Wire Output Port - E1F1E2 Value Indicator Output
Pin:
This output pin, along with the RxTOHClk, RxE1F1E2FP, RxE1F1E2 and
RxTOHClk output pins function as the Receive - Order Wire Output Port of
the XRT94L43.
This output pin pulses "High" coincident to when the Receive - Order Wire
output port outputs the contents of an E1, F1 or E2 byte, via the
RxE1F1E2 output pin.
This output pin is updated upon the falling edge of RxTOHClk.
The Receive Order-Wire circuitry, that is interfaced to this output pin, the
RxE1F1E2 and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
2. Anytime the Receive Order-Wire circuitry samples this output pin being
"High", it should sample and latch the data on the RxE1F1E2 output pin
(as a valid Order-wire bit) into the Receive Order-Wire circuitry.
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REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
B8
B4
AA3
AE3
C6
A1
AB3
AE4
C5
B7
AC3
AF3
A8
A3
Y3
AD3
RxPOH_0
RxPOH_1
RxPOH_2
RxPOH_3
RxPOH_4
RxPOH_5
RxPOH_6
RxPOH_7
RxPOH_8
RxPOH_9
RxPOH_10
RxPOH_11
RxPOH_12
RxPOH_13
RxPOH_14
RxPOH_15
O
CMOS
Receive SONET POH Processor Block - Path Overhead Output Port Output Pin:
These output pins, along with the RxPOHClk_n, RxPOHFrame_n and
RxPOHValid_n function as the Receive SONET POH Processor block POH Output port.
These pins serially output the POH data that have been received by each
of the Receive SONET POH Processor blocks (via the incoming STS-12
data-stream). Each bit, within the POH bytes is updated (via these output
pins) upon the falling edge of RxPOHClk_n. As a consequence, external
circuitry receiving this data, should sample this data upon the rising edge
of RxPOHClk_n.
B9
B5
AA4
AA8
B6
C4
AB4
AE5
E7
A5
AC4
AB8
A9
D6
Y4
AD4
RxPOHClk_0
RxPOHClk_1
RxPOHClk_2
RxPOHClk_3
RxPOHClk_4
RxPOHClk_5
RxPOHClk_6
RxPOHClk_7
RxPOHClk_8
RxPOHClk_9
RxPOHClk_10
RxPOHClk_11
RxPOHClk_12
RxPOHClk_13
RxPOHClk_14
RxPOHClk_15
O
CMOS
Receive SONET POH Processor Block - Path Overhead Output Port Clock Output Signal:
These output pins, along with RxPOH_n, RxPOHFrame_n and
RxPOHValid_n function as the Receive SONET POH Processor block POH Output Port.
These output pins function as the Clock Output signals for the Receive
SONET POH Processor block - POH Output Port. The RxPOH_n,
RxPOHFrame_n and RxPOHValid_n output pins are updated upon the
falling edge of this clock signal. As a consequence, the external circuitry
should sample these signals upon the rising edge of this clock signal.
131
XRT94L43
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REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
B3
C3
AB1
AF1
D4
F7
AC1
AC5
F5
C7
AD1
AD5
F8
E4
AA1
AE1
RxPOHFrame_0
RxPOHFrame_1
RxPOHFrame_2
RxPOHFrame_3
RxPOHFrame_4
RxPOHFrame_5
RxPOHFrame_6
RxPOHFrame_7
RxPOHFrame_8
RxPOHFrame_9
RxPOHFrame_10
RxPOHFrame_11
RxPOHFrame_12
RxPOHFrame_13
RxPOHFrame_14
RxPOHFrame_15
O
CMOS
DESCRIPTION
Receive SONET POH Processor Block - Path Overhead Output Port Frame Boundary Indicator:
These output pins, along with the RxPOH_n, RxPOHClk_n and
RxPOHValid_n output pins function as the Receive SONET POH Processor Block - Path Overhead Output Port.
These output pins will pulse "High" coincident with the very first POH byte
(J1), of a given STS-1 frame, is being output via the corresponding
RxPOH_n output pin.
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REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
E6
D3
AB2
AF2
D5
A4
AC2
AC6
A2
C9
AD2
AC7
C8
E5
AA2
AE2
RxPOHValid_0
RxPOHValid_1
RxPOHValid_2
RxPOHValid_3
RxPOHValid_4
RxPOHValid_5
RxPOHValid_6
RxPOHValid_7
RxPOHValid_8
RxPOHValid_9
RxPOHValid_10
RxPOHValid_11
RxPOHValid_12
RxPOHValid_13
RxPOHValid_14
RxPOHValid_15
O
CMOS
Receive SONET POH Processor Block - Path Overhead Output Port Valid POH Data Indicator:
These output pins, along with RxPOH_n, RxPOHClk_n and
RxPOHFrame_n function as the Receive SONET POH Processor block Path Overhead Output port.
These output pins will toggle "High" coincident with when valid POH data
is being output via the RxPOH_n output pins. This output is updated upon
the falling edge of RxPOHClk_n. Hence, external circuitry should sample
these signals upon rising edge of RxPOHClk_n.
AA7
LOF
8kHz_OUT
O
CMOS
Receive STS-12 LOF (Loss of Frame) Indicator/8kHz Clock Output:
The function of this output pin depends upon whether or not the 8kHz
Clock Generation feature has been enabled.
8kHZ Clock Generation Feature - not enabled (Normal Mode) - The
STS-12 Loss of Frame Indicator Output:
This output pin indicates whether or not the Receive STS-12 TOH Processor block (within the device) is declaring the LOF condition.
"Low" - Indicates that the Receive STS-12 TOH Processor block is NOT
currently declaring the LOF condition.
"High" - Indicates that the Receive STS-12 TOH Processor block is currently declaring the LOF condition.
8kHz Clock Generation Feature - Enabled - 8kHz Clock Output:
If this feature is enabled, the XRT94L43 will be configured to derive and
generate 8kHz clock output signals, from a particular STS-1 signal that is
being received via one of the 12 Receive STS-1 TOH/POH Processor
blocks.
DESCRIPTION
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134
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
A19
SIGNAL NAME
GPIO_0
ExtLOS_0
SSE_CLK
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface - Egress - Clock I/O:
The function of this input pin depends on whether or not Channel 0 of
the DS3/E3 Framer Block is enabled or whether or not the Slow-Speed
Interface is enabled.
GPIO_0 (DS3/E3 Framer Block - Channel 0 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin.
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit 0 (GPIO_DIR_0), within the
Operation General Purpose Input/Output Direction Register - 0 (Indirect
Address = 0x00, 0x4B), (Direct Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 0 (GPIO_0) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 0 (GPIO_0) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x047).
ExtLOS_0 (DS3/E3 Framer Block - Channel 0 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 0. This input pin is intended to be
connected to a LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSE_CLK (Slow-Speed Interface - Egress Port is enabled):
If the Slow-Speed Interface - Egress (SSE) Port is enabled, then this pin
will function as either the SSE_CLK output pin or the SSE_CLK input
pin.
If the user configures the SSE port to operate in the "Insert" Mode, then
the SSE port will be configured to replace any "user-selected" Egress
DS3/E3 or STS-1 data-stream (within the XRT94L43) with the data that
is applied to the SSE_POS and SSE_NEG input pins. More specifically,
in the Insert Mode, this pin will function as the SSE_CLK input pin. In
this case, the SSE port will sample and latch the contents of the
SSE_POS and SSE_NEG input pins upon the falling edge of this input
clock signal.
If the user configures the SSE port to operate in the "Extract" Mode, then
the SSE port will output any "user-selected" Egress DS3/E3 or STS-1
signal (within the XRT94L43) via this output port. More specifically, in
the "Extract Mode", this pin will function as the SSE_CLK output pin. In
this case, the SSE port will output the data (via the SSE_POS and
SSE_NEG output pins) upon the rising edge of this output clock signal.
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
D22
SIGNAL NAME
GPIO_1
ExtLOS_1
SSI_CLK
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface - Ingress - Clock I/O:
The function of this input pin depends on whether or not Channel 1 of
the DS3/E3 Framer Block is enabled, or whether or not the Slow Speed
Interface is enabled.
GPIO_1 (DS3/E3 Framer Block - Channel 1 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin.
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit 1 (GPIO_DIR_1), within the
Operation General Purpose Input/Output Direction Register - 0 (Indirect
Address = 0x00, 0x4B), (Direct Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 1 (GPIO_1) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 1 (GPIO_1) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_1 (DS3/E3 Framer Block - Channel 1 is enabled), SlowSpeed Interface is Disabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 1. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSI_CLK (Slow-Speed Interface - Ingress Port is enabled):
If the Slow-Speed Interface -Ingress (SSI) Port is enabled, then this pin
will function as either the SSI_CLK output pin or the SSI_CLK input pin.
If the user configures the SSI port to operate in the "Insert" Mode, then
the SSI port will be configured to replace any "user-selected" Ingress
DS3/E3 or STS-1 data-stream (within the XRT94L43) with the data that
is applied to the SSI_POS and SSI_NEG input pins. More specifically, in
the "Insert" Mode, this pin will function as the "SSI_CLK" input pin. In
this case, the SSI port will sample and latch the contents of the
SSI_POS and SSI_NEG input pins upon the falling edge of this input
clock signal.
If the user configures the SSI port to operate in the "Extract" Mode, then
the SSI port will output any "user-selected" Ingress DS3/E3 or STS-1
signal (within the XRT94L43) via this output port. More specifically, in
the "Extract Mode", this pin will function as the SSI_CLK output pin. In
this case, the SSI port will output the data (via the SSI_POS and
SSI_NEG output pins) upon the rising edge of this output clock signal.
136
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
W25
SIGNAL NAME
GPIO_2
ExtLOS_2
SSI_POS
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface -Ingress - Positive Data I/O:
The function of this input pin depends on whether or not Channel 2 of
the DS3/E3 Framer Block is enabled..
GPIO_2 (DS3/E3 Framer Block - Channel 2 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 2 (GPIO_DIR_2), within the Operation General Purpose Input/
Output Direction Register - 0 (Indirect Address = 0x00, 0x4B), (Direct
Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 2 (GPIO_2) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 2 (GPIO_2) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_2 (DS3/E3 Framer Block - Channel 2 is enabled, SlowSpeed Interface is Disabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 2. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSI_POS (Slow-Speed Interface - Ingress Port is enabled):
If the Slow-Speed Interface - Ingress (SSI) Port is enabled, then this pin
will function as either the SSI_POS output pin or the SSI_POS input pin.
If the user configures the SSI port to operate in the "Insert" Mode, then
the SSI port will be configured to replace any "user-selected" Ingress
DS3/E3 or STS-1 data-stream (within the XRT94L43) with the data that
is applied to the SSI_POS and SSI_NEG input pins. More specifically, in
the "Insert" Mode, this pin will function as the SSI_POS input pin. In this
case, the SSI port will sample and latch the contents of this input pin
(along with SSI_NEG, in a Dual-Rail Manner) upon the falling edge of
the SSI_CLK input clock signal.
If the user configures the SSI port to operate in the "Extract" Mode, then
the SSI port will output any "user-selected" Ingress DS3/E3 or STS-1
signal (within the XRT94L43) via this output port. More specifically, in
the "Extract Mode", this pin will function as the SSI_POS output pin. In
this case, the SSI port will output data via this pin, along with the
SSI_NEG output pin (in a Dual-Rail Manner) upon the rising edge of the
SSI_CLK output signal.
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
AC22
SIGNAL NAME
GPIO_3
ExtLOS_3
SSE_NEG
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface - Egress - Negative Data I/O:
The function of this input pin depends on whether or not Channel 3 of
the DS3/E3 Framer Block is enabled, or wheter or not the Slow Speed
Interface is enabled.
GPIO_3 (DS3/E3 Framer Block - Channel 3 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin.
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit 3 (GPIO_DIR_3), within the
Operation General Purpose Input/Output Direction Register - 0 (Indirect
Address = 0x00, 0x4B), (Direct Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 3 (GPIO_3) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 3 (GPIO_3) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_3 (DS3/E3 Framer Block - Channel 3 is enabled, SlowSpeed Interface is Disabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 3. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSE_NEG (Slow-Speed Interface - Egress Port is enabled):
If the Slow-Speed Interface - Egress (SSE) Port is enabled, then this pin
will function as either the SSE_NEG output pin or the SSE_NEG input
pin.
If the user configures the SSE port to operate in the "Insert" Mode, then
the SSE port will be configured to replace any "user-selected" Egress
DS3/E3 or STS-1 data-stream (within the XRT94L43) with the data that
is applied to the SSE_POS and SSE_NEG input pins. More specifically,
in the "Insert" Mode, this pin will function as the SSE_NEG input pin. In
this case, the SSE port will sample and latch the contents of this input
pin (along with SSE_POS, in a Dual-Rail Manner) upon the falling edge
of the SSE_CLK input clock signal.
If the user configures the SSE port to operate in the "Extract" Mode, then
the SSE port will output any "user-selected" Egress DS3/E3 or STS-1
signal (within the XRT94L43) via this output port. More specifically, in
the "Extract Mode" this pin will function as the SSE_NEG output pin. In
this case, the SSE port will output data via this pin, along with the
SSE_POS output pin (in a Dual-Rail Manner) upon the rising edge of the
SSE_CLK output signal
138
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REV. 1.0.2
CLOCK INPUTS
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
P23
REFCLK34
I
TTL
E3 Reference Clock Input for the Jitter Attenuator within the DS3/E3
Mapper Block:
Apply a signal with a frequency of 34.368±20ppm to this input pin.
This input pin functions as the timing reference for the DS3/E3/STS-1 Jitter
Attenuator (within the DS3/E3 Mapper block) for E3 applications.
P24
REFCLK51
I
TTL
STS-1 Reference Clock Input for the Jitter Attenuator within the DS3/
E3 Mapper Block:
The user is expected to apply a signal with a frequency of
51.84MHz±20ppm to this input pin. This input pin functions as the timing
reference for the DS3/E3/STS-1 Jitter Attenuator (within the DS3/E3 Mapper block) for STS-1 applications.
P25
REFCLK45
I
TTL
DS3 Reference Clock Input for the Jitter Attenuator within the DS3/E3
Mapper Block:
Apply a signal with a frequency of 44.736±20ppm to this input pin.
This input pin functions as the timing reference for the DS3/E3/STS-1 Jitter
Attenuator (within the DS3/E3 Mapper block) for DS3 applications.
BOUNDARY SCAN
PIN #
SIGNAL NAME
SIGNAL
TYPE
I/O
B2
TDO
O
C2
TDI
I
B1
TRST
I
G5
TCK
I
H6
TMS
I
DESCRIPTION
MISCELLANEOUS PINS
PIN #
L21
SIGNAL NAME
Test Mode
I/O
I
SIGNAL
TYPE
DESCRIPTION
Test Mode Input Pin:
Tie this input pin "Low" for normal operation.
139
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REV. 1.0.2
POWER SUPPLY PINS
PIN #
SIGNAL
TYPE
SIGNAL NAME
I/O
DESCRIPTION
N6
N5
P3
R3
Analog VDD Pins
(Transmitter)
_
P4
Analog VDD Pins
(PLL)
PLL Analog Power Supply Voltage = 3.3V Nominal
L1
Analog VDD Pins
(Receiver)
Receiver Analog Power Supply Voltage = 3.3V Nominal
Digital VDD
Digital Power Supply Voltage = 3.3V Nominal
VDD = 3.3V
U6
R15
R16
P15
P16
N15
N16
M15
M16
L15
L16
AA10
AA11
AA9
F10
F11
F9
K21
Transmitter Analog Power Supply Voltage = 3.3V Nominal
VDD (2.5V)
P6
M4
N21
N26
P22
Analog VDD Pins
(PLL)
PLL Analog Power Supply Voltage = 2.5 V Nominal
R6
Analog VDD Pins
(Transmitter)
Transmitter Analog Power Supply Voltage = 2.5 V Nominal
140
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REV. 1.0.2
POWER SUPPLY PINS
SIGNAL NAME
L6
Analog VDD Pins
(Receiver)
Receiver Analog Power Supply Voltage = 2.5 V Nominal
Digital VDD
Digital Power Supply Voltage = 2.5 V Nominal
U21
R11
R12
P11
P12
N11
N12
M11
M12
L11
L12
K6
F16
F17
F18
AA16
AA17
AA18
I/O
SIGNAL
TYPE
PIN #
DESCRIPTION
141
XRT94L43
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REV. 1.0.2
GROUND
PIN #
SIGNAL NAME
Y6
Y21
T11
T12
T13
T14
T15
T16
R13
R14
P13
P14
N13
N14
M13
M14
L13
L14
G6
G21
F6
F21
F13
F14
AA6
AA21
AA13
AA14
GND
N3
N4
M3
R5
P5
T6
L2
M6
M21
N24
N25
N22
N23
P21
Analog Ground
I/O
_
SIGNAL
TYPE
DESCRIPTION
Ground
NO CONNECTS
M23
NC
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REV. 1.0.2
GROUND
PIN #
SIGNAL NAME
M26
NC
T5
NC
I/O
SIGNAL
TYPE
DESCRIPTION
143
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REV. 1.0.2
PIN DESCRIPTIONS - INDIRECT ADDRESSING
MICROPROCESSOR INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
U22
PCLK
I
TTL
Microprocessor Interface Clock Input:
This clock input signal is used for synchronous/burst/DMA data transfer
operations. This clock can be running up to 66MHz.
L25
L23
L22
PTYPE_0
PTYPE_1
PTYPE_2
I
TTL
Microprocessor Type Select input:
These three input pins are used to configure the Microprocessor Interface
block to readily support a wide variety of Microprocessor Interfaces. The
relationship between the settings of these input pins and the corresponding
Microprocessor Interface configuration is presented below.
PTYPE[2:0] Microprocessor Interface Mode
000
Asynchronous Intel
l001
Asynchronous Motorola
010
Intel X86
011
Intel I960, Motorola MPC860
100
IDT3051/52 (MIPS)
101
IBM Power PC
V26
R24
P26
M24
T26
M22
M25
L26
PADDR_0
PADDR_1
PADDR_2
PADDR_3
PADDR_4
PADDR_5
PADDR_6
PADDR_7
I
TTL
Address Bus Input pins (Microprocessor Interface):
These pins are used to select the on-chip Mapper/Framer registers and
RAM space for READ and WRITE Operations with the Microprocessor.
T22
R22
U24
R21
W26
T25
R25
R26
PDATA_0
PDATA_1
PDATA_2
PDATA_3
PDATA_4
PDATA_5
PDATA_6
PDATA_7
I/O
TTL
Bi-Directional Data Bus Pins (Microprocessor Interface):
These pins are used to drive and receive data over the bi-directional data
bus.
Y26
PWR_L
I
TTL
Write Strobe (Intel Mode):
If the Microprocessor Interface is configured to operate in the Intel Mode,
then this active-low input pin functions as the WR (WRITE Strobe) input signal from the Microprocessor. Once this active-low signal is asserted, the
Mapper/Framer will latch the contents of the bi-directional data (D[7:0]) into
the addressed registers (or Buffer location) within the Mapper/Framer.
R/W Input Pin (Motorola Mode):
When the Microprocessor Interface Section is operating in the Motorola
Mode, then this pin is functionally equivalent to the R/W pin. In the Motorola
Mode, a READ operation occurs if this pin is at a logic 1. Similarly a WRITE
operation occurs if this pin is at a logic 0.
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MICROPROCESSOR INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
T23
PRD_L
I
TTL
READ Strobe (Intel Mode):
If the Microprocessor Interface is operating in the Intel Mode, then this input
pin will function as the RD* (READ Strobe) input signal from the Microprocessor. Once this active-low signal is asserted, then the Mapper/Framer will
place the contents of the addressed register (within the Mapper/Framer IC)
on the Microprocessor Bi-directional Data Bus (D[7:0]).
When this signal is negated, the Data Bus will be tri-stated.
Data Strobe (Motorola Mode).
If the Microprocessor Interface is operating in the Motorola Mode, then this
input will function as the DS* (Data Strobe) signal.
R23
PAS_L
I
TTL
Address Latch Enable/Address Strobe:
This input pin is used to latch the address (present at the Microprocessor
Interface Address Bus pins (A[6:0]) into the Mapper/Framer Microprocessor
Interface block and to indicate the start of a READ or WRITE cycle. This
input pin is active-High, in the Intel Mode and active-Low in the Motorola
Mode.
V22
PCS_L
I
TTL
Chip Select Input:
This active "Low" signal must be asserted in order to select the Microprocessor Interface for READ and WRITE operations between the Microprocessor and the Mapper/Framer on-chip registers and RAM locations.
Y25
PRDY_L
O
T21
PDBEN_L
I
CMOS READY or DTACK:
This active-low output pin will function as the READY output when the
Microprocessor Interface is configured to operate in the Intel Mode; and will
function as the DTACK output, when the Microprocessor Interface is running in the Motorola Mode.
Intel Mode - READY output:
When the Mapper/Framer negates this output pin (e.g., toggles it "Low") it
indicates (to the Microprocessor) that the current READ or WRITE operation is to be extended until this signal is asserted (e.g., toggled "High").
Motorola Mode - DTACK (Data Transfer Acknowledge) Output:
The Mapper/Framer will assert this pin in order to inform the Microprocessor that the present READ or WRITE cycle is nearly complete. If the Mapper/Framer requires that the current READ or WRITE cycle be extended,
then the Mapper/Framer will delay its assertion of this signal. The 68000
family of Microprocessors require this signal from its peripheral devices, in
order to quickly and properly complete a READ or WRITE cycle.
TTL
Bi-directional Data Bus Enable Input Pin:
If the Microprocessor Interface is operating in the Intel-I960 Mode, then this
input pin is used to enable the Bi-directional Data Bus.
Setting this input pin "Low" enables the Bi-directional Data bus.
Setting this input "High" tri-states the Bi-directional Data Bus.
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PIN #
U25
AC26
L24
I/O
SIGNAL
TYPE
PBLAST_L
I
TTL
PINT_L
O
RESET_L
I
SIGNAL NAME
DESCRIPTION
Last Burst Transfer Indicator input Pin:
If the Microprocessor Interface is operating in the Intel-I960 Mode, then this
input pin is used to indicate (to the Microprocessor Interface block) that the
current data transfer is the last data transfer within the current burst operation.
The Microprocessor should assert this input pin (by toggling it "Low") in
order to denote that the current READ or WRITE operation (within a
BURST operation) is the last operation of this BURST operation.
CMOS Interrupt Request Output:
This open-drain, active-low output signal will be asserted when the Mapper/
Framer device is requesting interrupt service from the Microprocessor. This
output pin should typically be connected to the Interrupt Request input of
the Microprocessor.
TTL
Reset Input:
When this active-Low signal is asserted, the XRT94L43 will be asynchronously reset. When this occurs, all outputs will be tri-stated and all on-chip
registers will be reset to their default values.
SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
M5
SIGNAL NAME
RXL_CLKL_P
I/O
SIGNAL
TYPE
I
LVPECL
DESCRIPTION
Receive STS-12/STM-4 Clock - Positive Polarity PECL Input:
This input pin, along with RXL_CLKL_N functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface Block will sample the
data, applied at the RXLDATA_P/RXLDATA_N input pins, upon the
rising edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_N functions as the
Primary Receive Clock Input port.
L5
RXL_CLKL_N
I
LVPECL
Receive STS-12/STM-4 Clock - Negative Polarity PECL Input:
This input pin, along with RXL_CLKL_P functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receiver STS-12/STM-4 Interface Block will sample
the data applied at the RXLDATA_P/RXLDATA_N input pins, upon
the falling edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_P functions as the
Primary Receive Clock Input Port.
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SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
K2
SIGNAL NAME
RXL_CLKL_R_P
I/O
SIGNAL
TYPE
I
LVPECL
DESCRIPTION
Receive STS-12/STM-4 Clock - Positive Polarity PECL Input Redundant Port:
This input pin, along with RXL_CLKL_R_N functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface Block will sample the
data, applied at the RXLDATA_P/RXLDATA_N input pins, upon the
rising edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_R_N functions as the
Redundant Receive Clock Input Port.
K1
RXL_CLKL_R_N
I
LVPECL
Receive STS-12/STM-4 Clock - Negative Polarity PECL Input Redundant Port:
This input pin, along with RXL_CLKL_P functions as the Recovered Clock Input, from a System back-plane or an Optical Transceiver. The Receiver STS-12/STM-4 Interface Block will sample
the data applied at the RXLDATA_P/RXLDATA_N input pins, upon
the falling edge of this signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_CLKL_R_ P functions as the
Redundant Receive Clock Input Port.
K4
RXL_DATA_P
I
LVPECL
Receive STS-12/STM-4 Data - Positive Polarity PECL Input:
This input pin, along with RXL_DATA_N functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_P (and the falling edge of the RXL_CLKL_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_N functions as the
Primary Receive Data Input Port.
L4
RXL_DATA_N
I
LVPECL
Receive STS-12/STM-4 Data - Negative Polarity PECL Input:
This input pin, along with RXL_DATA_P functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_P (and the falling edge of the RXL_CLKL_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_P functions as the
Primary Receive Data Input Port.
K3
RXL_DATA_R_P
I
LVPECL
Receive STS-12/STM-4 Data - Positive Polarity PECL Input Redundant Port:
This input pin, along with RXL_DATA_R_N functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_R_P (and the falling edge of the RXL_CLKL_R_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_R_N functions as the
Redundant Receive Data Input Port.
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SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
L3
SIGNAL NAME
RXL_DATA_R_N
I/O
SIGNAL
TYPE
I
LVPECL
DESCRIPTION
Receive STS-12/STM-4 Data - Negative Polarity PECL Input Redundant Port:
This input pin, along with RXL_DATA_R_P functions as the Recovered Data Input, from a System back-plane or an Optical Transceiver. The Receive STS-12/STM-4 Interface block will sample the
data applied to these input pins, upon the rising edge of the
RXL_CLKL_R_P (and the falling edge of the RXL_CLKL_R_N) signals.
NOTE: For APS (Automatic Protection Switching) purposes, this
input pin, along with RXL_DATA_R_N functions as the
Redundant Receive Data Input Port.
T3
TXL_CLKI_P
I
LVPECL
Transmit Reference Clock - Positive Polarity PECL Input:
This input pin, along with TxL_CLKI_N can be configured to function as the timing source for the STS-12/STM-4 Transmit Interface
Block.
If these two input pins are configured to function as the timing
source, then a 622.08MHz clock signal must be applied to these
input pins in the form of a PECL signal. These two inputs can be
configured to function as the timing source by writing the appropriate data into the Interface Control Register - Byte 2 (Indirect
Address = 0x00, 0x31), (Direct Address = 0x0131).
T4
TXL_CLKI_N
I
LVPECL
Transmit Reference Clock - Negative Polarity PECL Input:
This input pin, along with TxL_CLKI_P can be configured to function as the timing source for the STS-12/STM-4 Transmit Interface
Block.
If these two input pins are configured to function as the timing
source, then a 622.08MHz clock signal must be applied to these
input pins in the form of a PECL signal. These two inputs can be
configured to function as the timing source by writing the appropriate data into the Interface Control Register - Byte 2 (Indirect
Address = 0x00, 0x31), (Direct Address = 0x0131).
N1
TXL_DATA_P
O
LVPECL
Transmit STS-12/STM-4 Data - Positive Polarity PECL Output:
This output pin, along with TXL_DATA_N functions as the Transmit
Data Output, to the System back-plane (for transmission to some
other System board) or an Optical Transceiver (for transmission to
remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_P/TXL_CLKO_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_N functions as the
Primary Transmit Data Output Port.
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SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
N2
SIGNAL NAME
TXL_DATA_N
I/O
SIGNAL
TYPE
O
LVPECL
DESCRIPTION
Transmit STS-12/STM-4 Data - Negative Polarity PECL Output:
This output pin, along with TXL_DATA_P functions as the Transmit
Data Output, to the System back-plane (for transmission to some
other System board) or an Optical Transceiver (for transmission to
remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_P/TXL_CLKO_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_P functions as the
Primary Transmit Data Output Port.
P1
TXL_DATA_R_P
O
LVPECL
Transmit STS-12/STM-4 Data - Positive Polarity PECL Output Redundant Port:
This output pin, along with TXL_DATA_R_N functions as the
Transmit Data Output, to the Optical Transceiver.
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_R_P/TXL_CLKO_R_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_N functions as the
Redundant Receive Data Input Port.
P2
TXL_DATA_R_N
O
LVPECL
Transmit STS-12/STM-4 Data - Negative Polarity PECL Output Redundant Port:
This output pin, along with TXL_DATA_R_P functions as the Transmit Data Output, to the System back-plane (for transmission to
some other System board) or an Optical Transceiver (for transmission to remote terminal equipment).
For High-Speed Back-Plane Applications, it should noted that data
is output from these output pins upon the rising/falling edge of
TXL_CLKO_R_P/TXL_CLKO_R_N).
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_DATA_R_P functions as the
Redundant Transmit Data Output Port.
M1
TXL_CLKO_P
O
LVPECL
Transmit STS-12/STM-4 Clock - Positive Polarity PECL Output:
This output pin, along with TXL_CLKO_N functions as the Transmit
Clock Output signal. These output pins are typically used in HighSpeed Back-Plane Applications. In this case, outbound STS-12/
STM-4 data is output via the TXL_DATA_P/TXL_DATA_N output
pins upon the rising edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_CLKO_N functions as the
Primary Transmit Output Clock signal.
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SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
M2
SIGNAL NAME
TXL_CLKO_N
I/O
SIGNAL
TYPE
O
LVPECL
DESCRIPTION
Transmit STS-12/STM-4 Clock - Negative Polarity PECL Output:
This output pin, along with TXLCLKO_P functions as the Transmit
Clock Output signal. These output pins are typically used in HighSpeed Back-Plane Applications. In this case, outbound STS-12/
STM-4 data is output via the TXL_DATA_P/TXL_DATA_N output
pins upon the falling edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_CLKO_N functions as the
Primary Transmit Output Clock signal.
R1
TXL_CLKO_R_P
O
LVPECL
Transmit STS-12/STM-4 Clock - Positive Polarity PECL Output
- Redundant Port:
This output pin, along with TXL_CLKO_R_N functions as the
Transmit Clock Output signal. These output pins are typically used
in High-Speed Back-Plane Applications. In this case, outbound
STS-12/STM-4 data is output via the TXL_DATA_R_P/
TXL_DATA_R_N output pins upon the rising edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this
output pin, along with TXL_CLKO_R_N functions as the
Redundant Transmit Output Clock signal.
R2
TXL_CLKO_R_N
O
LVPECL
Transmit STS-12/STM-4 Clock - Negative Polarity PECL Output
- Redundant Port:
This output pin, along with TXL_CLKO_R_P functions as the
Transmit Clock Output signal. These output pins are typically used
in High-Speed Back-Plane Applications. In this case, outbound
STS-12/STM-4 data is output via the TXL_DATA_R_P/
TXL_DATA_R_N output pins upon the rising edge of this clock signal.
For APS (Automatic Protection Switching) purposes, this output
pin, along with TXL_CLKO_R_P functions as the Redundant
Transmit Output Clock signal.
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SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
R4
SIGNAL NAME
REFCLK
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
77.76MHz or 622.08MHz Clock Synthesizer Reference Clock
Input Pin:
The function of this input pin depends upon whether or not the
Transmit STS-12/STM-4 Clock Synthesizer block is enabled.
If Clock Synthesizer is Enabled.
If the Transmit STS-12/STSM-4 Clock Synthesizer block is to be
used to generate the 77.76MHz and/or 622.08MHz clock signal for
the STS-12/STM-4 block, then a clock signal of either of the following frequencies, must be applied to this input pin.
• 12.96MHz
• 19.44MHz
• 51.84 MHz
• 77.76 MHz
Afterwards, the appropriate data needs to be written into the Interface Control Register - Byte 2 (Indirect Address = 0x00, 0x31),
(Direct Address = 0x0131) in order to;
(1) configure the Clock Synthesizer Block to accept any of the
above-mentioned signals and generate a 77.76MHz or 622.08MHz
clock signal,
(2) to configure the Clock Synthesizer to function as the Clock
Source for the STS-12/STM-4 block.
If Clock Synthesizer is NOT Enabled:
If the Transmit STS-12/STSM-4 Clock Synthesizer block is NOT to
be used to generate the 77.76MHz and/or 622.08MHz clock signal
for the STS-12/STM-4 block, then a 77.76MHz clock signal must
be applied to this input pin.
AF6
LOS
I
TTL
Loss of Optical Carrier Input - Primary:
The Loss of Carrier output (from the Optical Transceiver) should be
connected to this input pin.
If this input pin is pulled "High", then the Receive STS-12 TOH Processor block will declare a Loss of Optical Carrier condition.
NOTE: This input pin is only active if the Primary Port is active. This
input pin is inactive if the Redundant Port is active.
AE6
LOS-R
I
TTL
Loss of Optical Carrier Input - Redundant:
The Loss of Carrier output (from the Optical Transceiver) should be
connected to this input pin.
If this input pin is pulled "High", then the Receive STS-12 TOH Processor block will declare a Loss of Optical Carrier condition.
NOTE: This input pin is only active if the Redundant Port is active.
This input pin is inactive if the Primary Port is active.
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SONET/SDH SERIAL LINE INTERFACE PINS
PIN #
AB7
SIGNAL NAME
EXSWITCH
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
External (APS) Switch Output Pin:
This output pin can be used to permit the XRT94L43 to perform
APS externally. Specifically, this output pin can be connected to
some circuitry that permits the re-direction of STS-12/STM-4 traffic,
should an APS event be needed.
NOTE: This output pin is disabled if the EXSWITCHDIS input pin
number AB6 is pulled "High".
AB6
EXSWITCHDIS
I
TTL
External (APS) Switch Disable:
This input pin permits the user to configure the XRT94L43 to perform Line APS Switching internally or externally.
0 - Configures the XRT94L43 to perform APS externally. In this
mode, the XRT94L43 will execute an APS by toggling the state of
the "EXSWITCH" output pin.
1 - Configures the XRT94L43 to perform APS internally. In this
mode, each of the 12 Receive SONET POH Processor blocks
(within the XRT94L43) will internally switch from processing the
incoming STS-1 SPE data from the Primary Receive STS-12 TOH
Processor block, to now processing the incoming STS-1 SPE data
from the Redundant Receive STS-12 TOH Processor block (or
vice-versa).
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STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
G2
TXA_CLK
O
CMOS
Transmit STS-12/STM-4 Telecom Bus Interface - Clock Signal:
This output clock signal functions as the clock source for the STS-12/
STM-4 Transmit Telecom Bus. All output signals (on the Transmit
STS-12/STM-4 Telecom Bus) are updated upon the rising edge of this
clock signal.
This clock signal operates at 77.76MHz and is derived from the Transmit Clock Synthesizer block.
J1
TXA_C1J1
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - C1/J1 Byte Phase Indicator
Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the TxA_D[7:0] output,
and
2. Whenever the J1 byte is being output via the TxA_D[7:0] output.
NOTES:
1. The STS-12/STM-4 Transmit Telecom Bus will indicate that it
is transmitting the C1 byte (via the TXA_D[7:0] output pins),
by pulsing this output pin "High" (for one period of TXA_CLK)
and keeping the TXA_PL output pin pulled "Low".
2. The STS-12/STM-4 Transmit Telecom Bus will indicate that it
is transmitting the J1 byte (via the TXA_D[7:0] output pins),
by pulsing this output pin "High" (for one period of TXA_CLK)
while the TXA_PL output pin is pulled "High".
3. This output pin is only active if the STS-12/STM-4 Telecom
Bus is enabled.
J3
TXA_ALARM
O
CMOS
Transmit STS-12/STM-4 Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", corresponding to any STS-1 signal (that
is being output via the TXA_D[7:0] output pins) is carrying the AIS-P
indicator.
This output pin is "Low" for all other conditions.
H1
TXA_DP
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - Parity Output Pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output via the
TXA_D[7:0] output pins.
2. The EVEN or ODD parity value of the bits which are being output via
the TXA_D[7:0] output pins and the states of the TXA_PL and
TXA_C1J1 output pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Telecom Bus Control
Register (Indirect Address = 0x00, 0x37), (Direct Address =
0x0137)..
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STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
K5
SIGNAL NAME
TxSBFP
I/O
I
SIGNAL
TYPE
TTL
DESCRIPTION
Telecom Bus Sync Reference Input:
If either the STS-12/STM-4 or any of the STS-3/STM-1 Telecom Bus
Interfaces are enabled, then an 8kHz pulse must be applied to this
input pin.
If the STS-12/STM-4 Telecom Bus Interface is enabled:
The Transmit STS-12/STM-4 Telecom Bus Interface will begin transmitting the very first byte of given STS-12 or STM-4 frame, upon sensing a rising edge (of the 8kHz signal) at this input pin.
If any of the STS-3/STM-1 Telecom Bus Interfaces are enabled:
The Receive STS-3/STM-1 Telecom Bus Interfaces will begin transmitting the very first byte of a given STS-3 or STM-1 frame, upon sensing
a rising edge (of the 8kHz signal) at this input pin.
NOTE: If none of the Telecom Bus Interfaces are used, then this pin
should be tied to GND.
NOTES:
1. 1.If this input pin is tied to GND, then the Transmit STS-12
TOH Processor block will generate its outbound STS-12/
STM-4 frames asynchronously with respect to any input
signal.
2. This input signal must be synchronized with the signal that is
supplied to the REFCLK input pin. Failure to insure this will
result in bit errors being generated within the outbound STS12/STM-4 signal.
3. An 8kHz pulse must be applied to this input pin, that has a
width of approximately 12.8ns (one 77.76MHz clock period).
Do not apply a 50% duty cycle 8kHz signal to this input pin.
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STS-12/STM-4 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
F3
TxA_PL
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - Payload Data Indicator Signal:
This output pin indicates whether or not TOH Transport Overhead
bytes are being output via the TXA_D[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-12/STM-4
Transmit Telecom Bus is transmitting a Transport Overhead byte via
the TXA_D[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the
STS-12/STM-4 Transmit Telecom Bus is transmitting something other
than a Transport Overhead byte (e.g., the POH or STS-1/STS-3c SPE
bytes) via the TXA_D[7:0] output pins.
G1
J5
J2
H5
E1
F2
F1
E3
TxA_D0
TxA_D1
TxA_D2
TxA_D3
TxA_D4
TxA_D5
TxA_D6
TxA_D7
O
CMOS
STS-12/STM-4 Transmit Telecom Bus - Transmit Output Data Bus
pins:
These 8 output pins function as the "STS-12/STM-4 Transmit Telecom
Bus" Transmit Output data bus. If the STS-12/STM-4 Telecom Bus
Interface is enabled, then all STS-12/STM-4 data is output via these
pins (in a byte-wide manner), upon the rising edge of the "TXA_CLK"
output pin.
NOTES:
1. The pin TXA_D7 will output the MSB (Most Significant Bit) of
each byte that is output via the Transmit STS-12/STM-4
Telecom Bus Interface.
2. The pin TXA_D0 will output the LSB (Least Significant Bit) of
each byte that is output via the Transmit STS-12/STM-4
Telecom Bus Interface.
155
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
V4
SIGNAL NAME
RxD_CLK
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Receive STS-12/STM-4 Telecom Bus Interface - Clock Signal:
This input clock signal functions as the clock source for the Receive STS12/STM-4 Telecom Bus Interface. All Receive STS-12/STM-4 Telecom Bus
Interface signals are sampled upon the rising edge of this input clock signal.
This clock signal should operate at 77.76MHz.
NOTE: This input pin is only used if the STS-12/STM-4 Telecom Bus has
been enabled. It should be tied to GND otherwise.
U5
RxD_PL
I
TTL
Receive STS-12/STM-4 Telecom Bus Interface - Payload Indicator Signal:
This input pin indicates whether or not STS-1/STS-3c SPE bytes are being
input via the RXD_D[7:0] input pins.
This input pin should be pulled "High" coincident to whenever the Receive
STS-12/STM-4 Telecom Bus Interface block is receiving STS-1/STS-3c
SPE data bytes via the RXD_D[7:0] input pins.
Conversely, this input pin should be pulled "low" coincident to whenever
the Receive STS-12/STM-4 Telecom Bus Interface block is receiving
something other than an STS-1/STS-3c SPE byte (e.g., a TOH byte) via
the RXD_D[7:0] input pins.
NOTE: The user should tie this pin to GND if the STS-12/STM-4 Telecom
Bus Interface is configured to operate in the Re-Phase ON Mode
or is disabled.Tie this pin to GND if the STS-12/STM-4 Telecom
Bus is NOT enabled.
V2
RxD_C1J1
I
TTL
STS-12/STM-4 Receive Telecom Bus C1/J1 Byte Phase Indicator Input
Signal:
This input pin should be pulsed "High" during both of the following conditions.
1. Whenever the C1 byte is being input to the Receive STS-12/STM-4 Telecom Bus Interface - Data Bus Input pins (RXD_D[7:0]).
2. Whenever the J1 byte is being input to the Receive STS-12/STM-4 Telecom Bus Interface - DataBus Input pins (RXD_D[7:0]).
This input pin should be pulled "low" for all other times.
NOTE: Tie this pin to GND if the STS-12/STM-4 Telecom Bus is NOT
enabled.
156
XRT94L43
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REV. 1.0.2
STS-12/STM-4 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
U4
SIGNAL NAME
RxD_DP
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
STS-12/STM-4 Receive Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via the
RXD_D[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input via the
RXD_D[7:0] input and the states of the RXD_PL and RXD_C1J1 input
pins.
The Receive STS-12/STM-4 Telecom Bus Interface will use this pin to
compute and verify the parity within the incoming STS-12/STM-4 datastream.
NOTES:
T2
RxD_ALARM
I
TTL
1.
Any one of these configuration selections can be made by writing
the appropriate value into the Telecom Bus Control register
(Indirect Address = 0x00, 0x37, direct Address = 0x0137.
2.
Tie this pin to GND if the STS-12/STM-4 Telecom Bus Interface is
configured to operate in the Re-Phase ON Mode or is disabled.
Receive STS-12/STM-4 Telecom Bus - Alarm Indicator Input:
This input pin pulses "High" corresponding to any STS-1 signal that is carrying the AIS-P indicator.
More specifically, this input pin will be pulsed "High" coincident to whenever a byte, corresponding to given STS-1 signal (that is carrying the AIS-P
indicator) is being placed on the Receive STS-12/STM-4 Telecom Bus Data Bus Input pins (RxD_D[7:0]). This input pin should be pulled "Low" at
all other times.
NOTES:
U3
V3
U2
T1
V5
U1
W1
V1
RxD_D0
RxD_D1
RxD_D2
RxD_D3
RxD_D4
RxD_D5
RxD_D6
RxD_D7
I
TTL
1.
If the RxD_ALARM input signal pulses "High" for any given STS-1
signal (within the incoming STS-12), then the XRT94L43 will
automatically declare the AIS-P defect for that particular STS-1
channel.
2.
Tie this pin to GND if the STS-12/STM-4 Telecom Bus Interface
has been configured to operate in the Re-Phase ON Mode or is
disabled.
Receive STS-12/STM-4 Receive Telecom Bus - Receive Input Data Bus
pins:
These 8 input pins function as the "Receive STS-12/STM4 Receive Telecom Bus" Receive Input data bus. All Incoming STS-12/STM-4 data is
sampled and latched (into the XRT94L43 via these input pins) upon the
rising edge of the RXA_CLK input pin.
NOTES:
1.
1.The user must insure that the MSB (Most Significant bit) of each
incoming byte is input to the RXD_D7 input pin.
2.
The user must also insure that the LSB (Least Significant bit) of
each incoming byte is input to the RXD_D0 input pin.
3.
The user should tie these pins to GND if the STS-12/STM-4
Telecom Bus is not enabled.
157
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
H2
SIGNAL NAME
TxTOHClk
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit TOH Input Port - Clock Output:
This output pin, along with the TxTOHEnable, TxTOHFrame output pins
and the TxTOH and TxTOHIns input pins function as the Transmit TOH
Input Port.
The Transmit TOH Input Port allows the user to insert their own value for
the TOH bytes (in the outbound STS-12/STM-4 signal).
This output pin provides a clock signal. If the TxTOHEnable output pin is
"High" and if the TxTOHIns input pin is pulled "High", then the user is
expected to provide a given bit (within the TOH) to the TxTOH input pin,
upon the falling edge of this clock signal. The data, residing on the
TxTOH input pin will be latched into the XRT94L43 upon the rising edge
of this clock signal.
NOTE: The Transmit TOH Input Port only support the insertion of the
TOH within the first STS-1, within the outbound STS-12 signal.
H4
TxTOHEnable
O
CMOS
Transmit TOH Input Port - TOH Enable (or READY) indicator:
This output pin, along with the TxTOHClk, TxTOHFrame output pins and
the TxTOH and TxTOHIns input pins function as the Transmit TOH Input
Port.
This output pin will toggle and remain "High" anytime the Transmit TOH
Input Port is ready to externally accept TOH data.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHFrame and this output pin
upon the rising edge of TxTOHClk.
• Whenever
this output pin pulses "High", then the user's external
circuitry should drive the TxTOHIns input pin "High".
• Next, the user should output the next TOH bit, onto the TxTOH input
pin, upon the falling edge of TxTOHClk.
D1
TxTOH
I
TTL
Transmit TOH Input Port - Input Pin:
This input pin, along with the TxTOHIns input pin, the TxTOHEnable
and TxTOHFrame and TxTOHClk output pins function as the Transmit
TOH Input Port.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHFrame and TxTOHEnable
upon the rising edge of TxTOHClk.
• Whenever
TxTOHEnable pulses "High", then the user's external
circuitry should drive the TxTOHIns input pin "High".
• Next,
the user should output the next TOH bit, onto this input pin,
upon the falling edge of TxTOHClk. The Transmit TOH Input Port will
sample the data (on this input pin) upon the rising edge of TxTOHClk.
NOTE: Data at this input pin will be ignored (e.g., not sampled) unless
the TxTOHEnable output pin is "High" and the TxTOHIns input
pin is pulled "High".
158
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
G4
SIGNAL NAME
TxTOHFrame
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit TOH Input Port - STS-12/STM-4 Frame Indicator:
This output pin, along with TxTOHClk, TxTOHEnable output pins, and
the TxTOH and TxTOHIns input pins function as the Transmit TOH Input
Port.
This output pin will pulse "High" (for one period of TxTOHClk), one
TxTOHClk clock period prior to the first TOH bit of a given STS-12
frame, being expected via the TxTOH input pin.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHEnable and this output pin
upon the rising edge of TxTOHClk.
• Whenever the TxTOHEnable output pin pulse "High", then the user's
external circuitry should drive the TxTOHIns input pin "High".
• Next, the user should output the next TOH bit, onto the TxTOH input
pin, upon the falling edge of TxTOHClk.
NOTE: The external circuitry (which is being interfaced to the Transmit
TOH Input Port can use this output pin to denote the boundary
of STS-12 frames.
C1
TxTOHIns
I
TTL
Transmit TOH Input Port - Insert Enable Input Pin:
This input pin, along with the TxTOH input pin, and the TxTOHEnable,
TxTOHFrame and TxTOHClk output pins function as the Transmit TOH
Input Port.
This input pin is used to either enable or disable the Transmit TOH Input
Port.
If this input pin is "Low", then the Transmit TOH Input Port will be disabled and will not sample and insert (into the outbound STS-12 data
stream) any data residing on the TxTOH input, upon the rising edge of
TxTOHClk.
If this input pin is "High", then the Transmit TOH Input Port will be
enabled. In this mode, whenever the TxTOHEnable output pin is also
"High", the Transmit TOH Input Port will sample and latch any data that
is presented on the TxTOH input pin, upon the rising edge of TxTOHClk.
If it is desired to externally insert a value of TOH into the outbound STS12 data stream via the Transmit TOH Input Port, then do the following:
• Continuously
sample the state of TxTOHFrame and TxTOHEnable
upon the rising edge of TxTOHClk.
• Whenever
the TxTOHEnable output pin is sampled "High" then the
user's external circuitry should drive this input pin "High".
• Next, the user should output the next TOH bit, onto the TxTOH input
pin, upon the falling edge of TxTOHClk. The Transmit TOH Input Port
will sample the data (on this input pin) upon the rising edge of
TxTOHClk.
NOTE: Data applied to the TxTOH input pin will be ignored (e.g., not
sampled) unless then the TxTOHEnable and this input pin are
each "High".
159
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
SIGNAL NAME
I/O
SIGNAL
TYPE
G3
TxLDCCEnable
O
CMOS
Transmit - Line DCC Input Port - Enable Output Pin:
This output pin, along with the TxTOHClk output pin and the TxLDCC
input pin are used to insert the value for the D4, D5, D6, D7, D8, D9,
D10, D11 and D12 bytes into the Transmit STS-12 TOH Processor
Block. The Transmit STS-12 TOH Processor block will accept this data
and will insert into the D4, D5, D6, D7, D8, D9, D10, D11 and D12 bytefields, within the outbound STS-12 data-stream.
The Line DCC HDLC Controller circuitry (which is connected to the
TxTOHClk, the TxLDCC and this output pin, is suppose to do the following.
1. It should continuously monitor the state of this output pin.
2. Whenever this output pin pulses "High", then the Line DCC HDLC
Controller circuitry should place the next Line DCC bit (to be inserted
into the Transmit STS-12 TOH Processor block) onto the TxLDCC input
pin, upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxLDCC input pin, will be sampled
upon the rising edge of TxOHClk.
J4
TxSDCCEnable
O
CMOS
Transmit - Section DCC Input Port - Enable Output Pin:
This output pin, along with the TxTOHClk output pin and the TxSDCC
input pin are used to insert the value for the D1, D2 and D3 bytes, into
the Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and will insert into the D1, D2 and
D3 byte-fields, within the outbound STS-12 data-stream.
The Section DCC HDLC Controller circuitry (which is connected to the
TxTOHClk, the TxSDCC and this output pin, is suppose to do the following.
1. It should continuously monitor the state of this output pin.
2. Whenever this output pin pulses "High", then the Section DCC HDLC
Controller circuitry should place the next Section DCC bit (to be inserted
into the Transmit STS-12 TOH Processor block) onto the TxSDCC input
pin, upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxSDCC input pin, will be sampled
upon the rising edge of TxOHClk.
E2
TxSDCC
I
TTL
Transmit - Section DCC Input Port - Input Pin:
This input pin, along with the TxSDCCEnable and the TxTOHClk output
pins are used to insert a value for the D1, D2 and D3 bytes, into the
Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and insert it into the D1, D2 and D3
byte fields, within the outbound STS-12 data-stream.
The Section DCC HDLC Circuitry that is interfaced to this input pin, the
TxSDCCEnable and the TxTOHClk pins is suppose to do the following.
1. It should continuously monitor the state of the TxSDCCEnable input
pin.
2. Whenever the TxSDCCEnable input pin pulses "High", then the Section DCC HDLC Controller circuitry should place the next Section DCC
bit (to be inserted into the Transmit STS-12 TOH Processor block) onto
this input pin upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxSDCC input pin, will be sampled
upon the rising edge of TxTOHClk.
PIN #
DESCRIPTION
NOTE: Tie this pin to GND if it is not going to be used.
160
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
H3
SIGNAL NAME
TxLDCC
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit - Line DCC Input Port:
This input pin, along with the TxLDCCEnable and the TxTOHClk pins
are used to insert a value for the D4, D5, D6, D7, D8, D9, D10, D11 and
D12 bytes, into the Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH Processor block will accept this data and insert it into
the D4, D5, D6, D7, D8, D9, D10, D11 and D12 byte-fields, within the
outbound STS-12 data-stream.
Whatever Line DCC HDLC Controller Circuitry is interface to the this
input pin, the TxLDCCEnable and the TxTOHClk is suppose to do the
following.
1. It should continuously monitor the state of the TxLDCCEnable input
pin.
2. Whenever the TxLDCCEnable input pin pulses "High", then the Section DCC Interface circuitry should place the next Line DCC bit (to be
inserted into the Transmit STS-12 TOH Processor block) onto the
TxLDCC input pin, upon the falling edge of TxTOHClk.
3. Any data that is placed on the TxLDCC input pin, will be sampled
upon the rising edge of TxTOHClk.
NOTE: Tie this pin to GND, if it is not going to be used.
F4
TxE1F1E2Enable
O
CMOS
Transmit E1-F1-E2 Byte Input Port - Enable (or Ready) Indicator
Output Pin:
This output pin, along with the TxTOHClk output pin and the TxE1F1E2
input pin are used to insert a value for the E1, F1 and E2 bytes, into the
Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and will insert into the E1, F1 and
E2 byte-fields, within the outbound STS-12 data-stream.
Whatever external circuitry (which is connected to the TxTOHClk, the
TxE1F1E2 and this output pin, is suppose to do the following.
1. It should continuously monitor the state of this output pin.
2. Whenever this output pin pulses "High", then the external circuitry
should place the next orderwire bit (to be inserted into the Transmit
STS-12 TOH Processor block) onto the TxE1F1E2 input pin, upon the
falling edge of TxTOHClk.
Any data that is placed on the TxE1F1E2 input pin, will be sampled
upon the rising edge of TxOHClk.
D2
TxE1F2E2Frame
O
CMOS
Transmit E1-F1-E2 Byte Input Port - Framing Output Pin:
This output pin pulses "High" for one period of TxTOHClk, one TxTOHClk bit-period prior to the Transmit E1-F1-E2 Byte Input Port expecting
the very first byte of the E1 byte, within a given outbound STS-12 frame.
161
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
J6
SIGNAL NAME
TxE1F1E2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit E1-F1-E2 Byte Input Port - Input Pin:
This input pin, along with the TxE1F1E2Enable and the TxTOHClk output pins are used to insert a value for the E1, F1 and E2 bytes, into the
Transmit STS-12 TOH Processor Block. The Transmit STS-12 TOH
Processor block will accept this data and insert it into the E1, F1 and E2
byte fields, within the outbound STS-12 data-stream.
Whatever external circuitry that is interfaced to this input pin, the
TxE1F1E2Enable and the TxTOHClk pins is suppose to do the following.
1. It should continuously monitor the state of the TxE1F1E2Enable input
pin.
2. Whenever the TxE1F1E2Enable input pin pulses "High", then the
external circuitry should place the next orderwire bit (to be inserted into
the Transmit STS-12 TOH Processor block) onto this input pin upon the
falling edge of TxTOHClk.
3. Any data that is placed on the TxE1F1E2 input pin, will be sampled
upon the rising edge of TxTOHClk.
NOTE: Tie this pin to GND if it is not going to be used.
162
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
C10
B13
AD12
AD8
A16
D18
AD13
AE8
D13
C18
AE17
AB12
D9
C13
AE11
AF4
SIGNAL NAME
TxPOH_0
TxPOH_1
TxPOH_2
TxPOH_3
TxPOH_4
TxPOH_5
TxPOH_6
TxPOH_7
TxPOH_8
TxPOH_9
TxPOH_10
TxPOH_11
TxPOH_12
TxPOH_13
TxPOH_14
TxPOH_15
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit Path Overhead Input Port - Input Pin.
These input pins allow the following actions.
1. Insertion oft the POH data into each of the 12 Transmit SONET POH
Processor blocks (for insertion and transmission via the outbound STS12 signal.
2. Insertion of the POH data into each of the 12 Transmit STS-1 POH
Processor blocks (for insertion and transmission via each of the outbound STS-1 signals).
3. Insertion of the TOH data into each of the 12 Transmit STS-1 TOH
Processor blocks (for insertion and transmission via each of the outbound STS-1 signals).
The function of these input pins, depends upon whether or not the TOH
data is inserted into the 12 Transmit STS-1 TOH Processor blocks.
If the user is only inserting POH data via these input pins:
In this mode, the external circuitry (which is being interfaced to the
Transmit Path Overhead Input Port is suppose to monitor the following
output pins.
• TxPOHFrame_n
• TxPOHEnable_n
• TxPOHClk_n
The TxPOHFrame_n output pin will toggle "High" upon the falling edge
of TxPOHClk_n approximately one TxPOHClk_n period prior to the
TxPOH port being ready to accept and process the first bit within the J1
byte (e.g., the first POH byte). The TxPOHFrame_n output pin will
remain "High" for eight consecutive TxPOHClk_n periods. The external
circuitry should use this pin to note STS-1 SPE frame boundaries.
The TxPOHEnable_n output pin will toggle "High" upon the falling edge
of TxPOHClk_n approximately one TxPOHClk_n period prior to the
TxPOH port being ready to accept and process the first bit within a given
POH byte.
To externally insert a given POH byte, (1) assert the TxPOHIns_n input
pin by toggling it "High" and (2) place the value of the first bit (within this
particular POH byte) on this input pin upon the very next falling edge of
TxPOHClk_n. This data bit will be sampled upon the very next rising
edge of TxPOHClk_n. The external circuitry should continue to keep the
TxPOHIns_n input pin "High" and advancing the next bits (within the
POH bytes) upon each falling edge of TxPOHClk_n.
If the user is inserting both POH and TOH data via these input pins:
In this mode, the external circuitry (which is being interfaced to the
Transmit Path Overhead Input Port is suppose to monitor the following
output pins.
• TxPOHFrame_n
• TxPOHEnable_n
• TxPOHClk_n
(continued below)
163
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SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
C10
B13
AD12
AD8
A16
D18
AD13
AE8
D13
C18
AE17
AB12
D9
C13
AE11
AF4
SIGNAL NAME
TxPOH_0
TxPOH_1
TxPOH_2
TxPOH_3
TxPOH_4
TxPOH_5
TxPOH_6
TxPOH_7
TxPOH_8
TxPOH_9
TxPOH_10
TxPOH_11
TxPOH_12
TxPOH_13
TxPOH_14
TxPOH_15
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
If the user is inserting both POH and TOH data via these input pins:
(Continued)
The TxPOHFrame_n output pin will toggle "High" twice during a given
STS-1 frame period. First, this output pin will toggle "High" coincident
with the TxPOH port being ready to accept and process the A1 byte
(e.g., the very first TOH byte). Second, this output pin will toggle "High"
coincident with the TxPOH port being ready to accept and process the
J1 byte (e.g., the very first POH byte).
If the externally circuitry samples the TxPOHFrame_n output pin "High",
and the TxPOHEnable_n output pin "Low", then the TxPOH port is now
ready to accept and process the very first TOH byte.
If the externally circuitry samples the TxPOHFrame_n output pin "High"
and the TxPOHEnable_n output pin "High", then the TxPOH port is now
ready to accept and process the very first POH byte.
To externally insert a given POH or TOH byte, do the following;
(1) Assert the TxPOHIns_n input pin by toggling it "High" and,
(2) place the value of the first bit (within this particular POH or TOH byte)
on this input upon the very next falling edge of TxPOHClk_n.
This data bit will be sampled upon the very next rising edge of
TxPOHClk_n. The external circuitry should continue to keep the
TxPOHIns_n input pin "High" and advancing the next bits (within the
POH bytes) upon each falling edge of TxPOHClk_n.
NOTES:
1. If POH data is externally inserted into each of the 12 Transmit
SONET POH Processor blocks, then these input pins cannot
be used to externally insert POH data into each of the 12
Transmit STS-1 POH Processor blocks.
2. TOH data can be externally inserted into each of the 12
Transmit STS-1 TOH Processor blocks, only if POH data is
NOT externally inserted into each of the 12 Transmit SONET
POH Processor blocks.
B10
A15
AC13
AD9
B16
D19
AE13
AE9
D14
C19
AF19
AB13
E10
C14
AF11
AF5
TxPOHClk_0
TxPOHClk_1
TxPOHClk_2
TxPOHClk_3
TxPOHClk_4
TxPOHClk_5
TxPOHClk_6
TxPOHClk_7
TxPOHClk_8
TxPOHClk_9
TxPOHClk_10
TxPOHClk_11
TxPOHClk_12
TxPOHClk_13
TxPOHClk_14
TxPOHClk_15
O
CMOS
Transmit Path Overhead Input Port - Clock Output pin:
These output pins, along with TxPOH_n, TxPOHEnable_n,
TxPOHIns_n and TxPOHFrame_n function as the Transmit Path Overhead (TxPOH) Input Port.
The TxPOHFrame_n and TxPOHEnable_n output pins are updated
upon the falling edge this clock output signal. The TxPOHIns_n input
pins and the data residing on the TxPOH_n input pins are sampled on
the rising edge of this clock signal.
164
XRT94L43
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REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
A6
A11
AC12
AD7
D8
B12
AF14
AB10
A12
C17
AA15
AC10
D7
E11
AC11
AD6
TxPOHFrame_0
TxPOHFrame_1
TxPOHFrame_2
TxPOHFrame_3
TxPOHFrame_4
TxPOHFrame_5
TxPOHFrame_6
TxPOHFrame_7
TxPOHFrame_8
TxPOHFrame_9
TxPOHFrame_10
TxPOHFrame_11
TxPOHFrame_12
TxPOHFrame_13
TxPOHFrame_14
TxPOHFrame_15
O
CMOS
DESCRIPTION
Transmit Path Overhead Input Port - Frame Output pin:
These output pins, along with the TxPOH_n, TxPOHEnable_n,
TxPOHIns_n and TxPOHClk_n function as the Transmit Path Overhead
Input Port.
The function of these output pins depends upon whether POH or TOH
data is inserted via the TxPOH_n input pins.
If the user is only inserting POH data via these input pins:
In this mode, the TxPOH port will pulse these output pins "High" whenever it is ready to accept and process the J1 byte (e.g., the very first
POH byte) via this port.
If the user is inserting both POH and TOH data via these input pins:
In this mode, the TxPOH port will pulse these output pins "High" coincident with the following.
1. Whenever the TxPOH port is ready to accept and process the A1 byte
(e.g., the very first TOH byte) via this port.
2. Whenever the TxPOH port is ready to accept and process the J1 byte
(e.g., the very first POH byte) via this port.
NOTE: The external circuitry can determine whether the TxPOH port is
expecting the A1 byte or the J1 byte, by checking the state of
the corresponding TxPOHEnable output pin. If the
TxPOHEnable_n output pin is "Low" while the TxPOHFrame_n
output pin is "High", then the TxPOH port is ready to process
the A1 (TOH) bytes.
If the TxPOHEnable_n output pin is "High" while the TxPOHFrame_n
output pin is "High", then the TxPOH port is ready to process the J1
(POH) bytes.
165
XRT94L43
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REV. 1.0.2
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
TTL
A7
C12
AE12
AC9
E9
A13
AF16
AB11
E13
D17
AC16
AF8
E8
E12
AF9
AC8
TxPOHIns_0
TxPOHIns_1
TxPOHIns_2
TxPOHIns_3
TxPOHIns_4
TxPOHIns_5
TxPOHIns_6
TxPOHIns_7
TxPOHIns_8
TxPOHIns_9
TxPOHIns_10
TxPOHIns_11
TxPOHIns_12
TxPOHIns_13
TxPOHIns_14
TxPOHIns_15
I
D10
D15
AB14
AE7
A10
A17
AC14
AF7
C11
B14
AD14
AE10
B11
D16
AF13
AB9
TxPOHEnable_0
TxPOHEnable_1
TxPOHEnable_2
TxPOHEnable_3
TxPOHEnable_4
TxPOHEnable_5
TxPOHEnable_6
TxPOHEnable_7
TxPOHEnable_8
TxPOHEnable_9
TxPOHEnable_10
TxPOHEnable_11
TxPOHEnable_12
TxPOHEnable_13
TxPOHEnable_14
TxPOHEnable_15
O
DESCRIPTION
Transmit Path Overhead Input Port - Insert Enable Input pin:
These input pins, along with TxPOH_n, TxPOHEnable_n,
TxPOHFrame_n and TxPOHClk_n function as the Transmit Path Overhead (TxPOH) Input Port.
These input pins are used to enable or disable the TxPOH input port.
If these input pins are pulled "High", then the TxPOH port will sample
and latch data via the corresponding TxPOH input pins, upon the rising
edge of TxPOHClk_n.
Conversely, if these input pins are pulled "Low", then the TxPOH port
will NOT sample and latch data via the corresponding TxPOH input
pins.
NOTE: If the TxPOHIns_n input pin is pulled "Low", this setting will be
overridden if, the Transmit SONET/STS-1 POH Processor or
Transmit STS-1 TOH Processor blocks are configured to accept
certain POH or TOH overhead bytes via the external port.
CMOS
Transmit Path Overhead Input Port - POH Indicator Output pin:
These output pins, along with TxPOH_n, TxPOHIns_n, TxPOHFrame_n
and TxPOHClk_n function as the Transmit Path Overhead (TxPOH)
Input Port.
These output pins will pulse "High" anytime the TxPOH port is ready to
accept and process POH bytes. These output pins will be "Low" at all
other times.
166
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
E15
STS3TxA_CLK_0
I/O
SIGNAL
TYPE
I
TTL
TxSBCLK_0
DMO_0
DESCRIPTION
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_0 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3 Transmit Telecom Bus Transmit Clock Input - Channel 0:
This input clock signal functions as the clock source for the STS-3/
STM-1 Transmit Telecom Bus, associated with Channel 0. All input
signals (e.g., STS3TxA_ALARM_0, STS3TxA_D_0[7:0],
STS3TxA_DP_0, STS3TxA_PL_0, STS3TxA_C1J1_0) are sampled
upon the falling edge of this input clock signal.
This clock signal should operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DMO_0
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 2 (DMO) within the Line Interface Scan Register associated with
Channel 0 (Address = 0x1E, 0x81), (Direct Address = 0x1F81).
NOTE:
C26
STS3TxA_CLK_1
TxSBCLK_1
DMO_1
I
TTL
For Product Legacy purposes, this pin is called DMO_0,
because one possible application is to tie this input pin to a
DMO (Drive Monitor Output) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin, and the corresponding register bit
can be used for any purpose.
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_1 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 1 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3 Transmit Telecom Bus Clock Input - Channel 1:
This input clock signal functions as the clock source for the STS-3/
STM-1 Transmit Telecom Bus, associated with Channel 1. All input
signals, (e.g., STS3TxA_ALARM_1, STS3TxA_D_1[7:0],
STS3TxA_DP_1, STS3TxA_PL_1, STS3TxA_C1J1_1) are sampled
upon the falling edge of this input clock signal.
This clock signal should operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DMO_1
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 2 (DMO) within the Line Interface Scan Register associated with
Channel 1 (Address = 0x2E, 0x81), (Direct Address = 0x2F81).
NOTE:
For Product Legacy purposes, this pin is called DMO_1
because one possible application is to tie this input pin to a
DMO (Drive Monitor Output) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin, and the corresponding register bit
can be used for any purpose.
167
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AE25
STS3TxA_CLK_2
I/O
SIGNAL
TYPE
I
TTL
TxSBCLK_2
DMO_2
DESCRIPTION
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_2 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3 Transmit Telecom Bus Transmit Clock Input - Channel 2:
This input clock signal functions as the clock source for the STS-3/
STM-1 Transmit Telecom Bus, associated with Channel 2. All input
signals, (e.g., STS3TxA_ALARM_2, STS3TxA_D_2[7:0],
STS3TxA_DP_2, STS3TxA_PL_2, STS3TxA_C1J1_2) are sampled
upon the falling edge of this input clock signal.
This clock signal should operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DMO_2 Drive Monitor Output Input (from XRT73L0X LIU IC) - Channel 2:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 2 (DMO) within the Line Interface Scan Register associated with
Channel 2 (Indirect Address = 0x3E, 0x81), (Direct Address =
0x3F81).
NOTE:
AD17
STS3TxA_CLK_3
TxSBCLK_3
DMO_3
I
TTL
For Product Legacy purposes, this pin is called DMO_2
because one possible Application is to tie this input pin to a
DMO (Drive Monitor Output) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin, and the corresponding register bit
can be used for any purpose.
STS-3 Transmit Telecom Bus Clock Input/STM-1 Sub-Rate
Clock/DMO_3 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 3 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3 Transmit Telecom Bus Clock Input - Channel 3:
This input clock signal functions as the clock source for the STS-3/
STM-1 Transmit Telecom Bus, associated with Channel 3. All input
signals (e.g., STS3TxA_ALARM_3, STS3TxA_D_3[7:0],
STS3TxA_DP_3, STS3TxA_PL_3, STS3TxA_C1J1_3) are sampled
upon the falling edge of this input clock signal.
This clock signal should operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DMO_3
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 3 (DMO) within the Line Interface Scan Register associated with
Channel 3 (Address = 0x4E, 0x81), (Direct Address = 0x4F81).
NOTE:
For Product Legacy purposes, this pin is called DMO_3,
because one possible application is to tie this input pin to a
DMO (Drive Monitor Output) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin, and the corresponding register bit
can be used for any purpose.
168
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
E14
SIGNAL NAME
STS3TxA_PL_0
TxSBFrame_0
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 0/RLOL_0 (General Purpose) input Pin:
The function of this input depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 0:
This input pin indicates whether or not Transport Overhead (TOH)
bytes are being input via the TXA_D_0[7:0] input pins.
This input pin should be pulled "Low" for the duration that the STS-3/
STM-1 Transmit Telecom Bus is receiving a TOH byte, via the
TXA_D_0[7:0] input pins.
NOTE:
RLOL_0
This input signal is sampled upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - RLOL_0
(General Purpose) Input Pin.
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 1 (RLOL) within the Line Interface Scan Register associated with
Channel 0 (Address = 0x1E, 0x81), (Direct Address = 0x1F81).
NOTE:
For Product Legacy purposes, this pin is called RLOL_0
because one possible application is to tie this input pin to a
RLOL (Receive Loss of Lock) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin and the corresponding register bit
can be used for any purpose.
169
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
A26
SIGNAL NAME
STS3TxA_PL_1
TxSBFrame_1
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 1/RLOL_1 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 1 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 1:
This input pin indicates whether or not Transport Overhead (TOH)
bytes are being input via the TXA_D_1[7:0] input pins.
This input pin should be pulled "Low" for the duration that the STS-3/
STM-1 Transmit Telecom Bus is receiving a TOH byte, via the
TXA_D_1[7:0] input pins.
NOTE:
RLOL_1
This input signal is sampled upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - RLOL_1
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 1 (RLOL) within the Line Interface Scan Register associated with
Channel 1 (Indirect Address = 0x2E, 0x81), (Direct Address =
0x2F81).
NOTE:
For Product Legacy purposes, this pin is called RLOL_1
because one possible application is to tie this input pin to a
RLOL (Receive Loss of Lock) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin and the corresponding register bit
can be used for any purpose.
170
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AD25
SIGNAL NAME
STS3TxA_PL_2
TxSBFrame_2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 2/RLOL_2 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 2:
This input pin indicates whether or not Transport Overhead (TOH)
bytes are being input via the TXA_D_2[7:0] input pins.
This input pin should be pulled "Low" for the duration that the STS-3/
STM-1 Transmit Telecom Bus is receiving a TOH byte, via the
TXA_D_2[7:0] input pins.
NOTE:
RLOL_2
This input signal is sampled upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - RLOL_2
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 1 (RLOL) within the Line Interface Scan Register associated with
Channel 2 (Indirect Address = 0x3E, 0x81), (Direct Address =
0x3F81).
NOTE:
For Product Legacy purposes, this pin is called RLOL_2
because one possible application is to tie this input pin to a
RLOL (Receive Loss of Lock) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin and the corresponding register bit
can be used for any purpose.
171
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB17
SIGNAL NAME
STS3TxA_PL_3
TxSBFrame_3
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 3/RLOL_3 (General Purpose) input Pin:
The function of this input pin depends upon whether or not theSTS-3/
STM-1 Telecom Bus Interface for Channel 3 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Payload Indicator Signal Channel 3:
This input pin indicates whether or not Transmit Overhead (TOH)
bytes are being input via the TXA_D_3[7:0] input pins.
This input pin should be pulled "Low" for the duration that the STS-3/
STM-1 Transmit Telecom Bus is receiving a TOH byte, via the
TXA_D_3[7:0] input pins.
NOTE:
RLOL_3
This input signal is sampled upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - RLOL_3
(General Purpose) Input Pin:
This input pin can be used as a general purpose input pin.
The state of this input pin can be determined by reading the state of
Bit 1 (RLOL) within the Line Interface Scan Register associated with
Channel 3 (Indirect Address = 0x4E, 0x81), (Direct Address =
0x4F81).
NOTE:
For Product Legacy purposes, this pin is called RLOL_3
because one possible application is to tie this input pin to a
RLOL (Receive Loss of Lock) output pin, from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this input pin and the corresponding register bit
can be used for any purpose.
172
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
B24
STS3TxA_C1J1_0
TxDS3FP_8
TxSTS1PL_8
TxSBFrame_0
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 0); DS3/E3 Frame Generator Framing
Pulse Input/Output Pin - Channel 8:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 0):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_0[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_0[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled TxDS3FP_8 (Transmit DS3 Frame Pulse Input/Output - Channel
8):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 8) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_8 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_8 input pin. The Frame
Generator block (associated with Channel 8) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 8 is by-passed.
173
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
J23
SIGNAL NAME
I/O
STS3TxA_C1J1_1
TxDS3FP_9
TxSBFrame_1
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 1); DS3/E3 Frame Generator Framing
Pulse Input/Output Pin - Channel 9:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 1 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 1):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_1[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_1[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled TxDS3FP_9 (Transmit DS3 Frame Pulse Input/Output - Channel
9):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 9) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_9 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_9 input pin. The Frame
Generator block (associated with Channel 9) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 9 is by-passed.
174
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
AF24
STS3TxA_C1J1_2
TxDS3FP_10
TxSTS1PL_10
TxSBFrame_2
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 2); DS3/E3 Frame Generator Framing
Pulse Input/Output Pin - Channel 10:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 2):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_2[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_2[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled TxDS3FP_10 (Transmit DS3 Frame Pulse Input/Output - Channel
10):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 10) will pulse this output
pin "High" for one DS3/E3 bit-period, one period prior to the first bit of
a given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_10 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_10 input pin. The
Frame Generator block (associated with Channel 10) will synchronize its generation of DS3 or E3 frames to these framing pulses
applied to this input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 10 is by-passed.
175
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
I/O
AF17
STS3TxA_C1J1_3
TxDS3FP_11
TxSTS1PL_11
TxSBFrame_3
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 3); DS3/E3 Frame Generator Framing
Pulse Input/Output Pin - Channel 11:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 11 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator
Input Signal (Channel 3):
This input pin should be pulsed "High" during both of the following
conditions.
1. Whenever the C1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_3[7:0]) input pins.
2. Whenever the J1 byte is being input to the STS-3/STM-1 Transmit
Telecom Bus (TXA_D_3[7:0]) input pins.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled TxDS3FP_11 (Transmit DS3 Frame Pulse Input/Output - Channel
11):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 11) will pulse this output
pin "High" for one DS3/E3 bit-period, one period prior to the first bit of
a given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_11 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_11 input pin. The
Frame Generator block (associated with Channel 11) will synchronize its generation of DS3 or E3 frames to these framing pulses
applied to this input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 11 is by-passed.
176
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
B22
SIGNAL NAME
STS3TxA_DP_0
TxDS3FP_4
TxSTS1PL_4
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin - Channel
0; DS3/E3 Frame Generator Framing Pulse Input/Output Pin Channel 4:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via the
ST3TXA_D_0[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input
via the STS3TXA_D_0[7:0] input and the states of the
STS3TXA_PL_0 and STS3TXA_C1J1_0 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 0 register (Indirect Address = 0x00, 0x3B),
(Direct Address = 0x013B).
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled TxDS3FP_4 (Transmit DS3 Frame Pulse Input/Output - Channel
4):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 4) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_4 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_4 input pin. The Frame
Generator block (associated with Channel 4) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 4 is by-passed.
177
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
G23
SIGNAL NAME
STS3TxA_DP_1
TxDS3FP_5
TxSTS1PL_5
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin - Channel
1, DS3/E3 Frame Generator Framing Pulse Input/Output Pin Channel 5:
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via the
ST3TXA_D_1[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input
via the STS3TXA_D_1[7:0] input and the states of the
STS3TXA_PL_1 and STS3TXA_C1J1_1 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 1 register (Indirect Address = 0x00, 0x3A),
(Direct Address = 0x013A).
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled TxDS3FP_5 (Transmit DS3 Frame Pulse Input/Output - Channel
5):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 5) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_5 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_5 input pin. The Frame
Generator block (associated with Channel 5) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 5 is by-passed.
178
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AE24
SIGNAL NAME
STS3TxA_DP_2
TxDS3FP_6
TxSTS1PL_6
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin - Channel
2, DS3/E3 Frame Generator Framing Pulse Input/Output Pin Channel 6:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via the
ST3TXA_D_2[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input
via the STS3TXA_D_2[7:0] input and the states of the
STS3TXA_PL_2 and STS3TXA_C1J1_2 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 2 register (Indirect Address = 0x00, 0x39),
(Direct Address = 0x0139).
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled TxDS3FP_6 (Transmit DS3 Frame Pulse Input/Output - Channel
6):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 6) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_6 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_6 input pin. The Frame
Generator block (associated with Channel 6) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 6 is by-passed.
179
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AE19
SIGNAL NAME
STS3TxA_DP_3
TxDS3FP_7
TxSTS1PL_7
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin - Channel
3; DS3/E3 Frame Generator Framing Pulse Input/Output Pin Channel 7:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 3 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Parity Input Pin:
This input pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are input via the
ST3TXA_D_3[7:0] input pins.
2. The EVEN or ODD parity value of the bits which are being input
via the STS3TXA_D_3[7:0] input and the states of the
STS3TXA_PL_3 and STS3TXA_C1J1_3 input pins.
NOTE: Any one of these configuration selections can be made by
writing the appropriate value into the Interface Control
Register - Byte 3 register (Indirect Address = 0x00, 0x38),
(Direct Address = 0x0138).
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled TxDS3FP_7 (Transmit DS3 Frame Pulse Input/Output - Channel
7):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 7) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_7 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_7 input pin. The Frame
Generator block (associated with Channel 7) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 7 is by-passed.
180
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
B18
SIGNAL NAME
STS3TxA_ALARM_0
TxDS3FP_0
TxSTS1PL_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 0; DS3/E3 Frame Generator Framing Pulse Input/Output Pin - Channel 0:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 0 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Alarm Indicator Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_0[7:0]
input data bus.
NOTE: If the STS3TXA_ALARM_0 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled TxDS3FP_0 (Transmit DS3 Frame Pulse Input/Output - Channel
0):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 0) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_0 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_0 input pin. The Frame
Generator block (associated with Channel 0) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 0 is by-passed.
181
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
D25
SIGNAL NAME
STS3TxA_ALARM_1
TxDS3FP_1
TxSTS1PL_1
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 1; DS3/E3 Frame Generator Framing Pulse Input/Output Pin - Channel 1:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 1 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Alarm Indicator Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_1[7:0]
input data bus.
NOTE: If the STS3TxA_ALARM_1 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled TxDS3FP_1 (Transmit DS3 Frame Pulse Input/Output - Channel
1):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 1) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_1 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_1 input pin. The Frame
Generator block (associated with Channel 1) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 1 is by-passed.
182
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB26
SIGNAL NAME
STS3TxA_ALARM_2
TxDS3FP_2
TxSTS1PL_2
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 2; DS3/E3 Frame Generator Framing Pulse Input/Output Pin - Channel 2:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 2 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Alarm Indicator Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_2[7:0]
input data bus.
NOTE: If the STS3TxA_ALARM_2 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled TxDS3FP_2 (Transmit DS3 Frame Pulse Input/Output - Channel
2):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 2) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_2 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_2 input pin. The Frame
Generator block (associated with Channel 2) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 2 is by-passed.
183
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AF22
SIGNAL NAME
STS3TxA_ALARM_3
TxDS3FP_3
TxSTS1PL_3
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Input Channel 3; DS3/E3 Frame Generator Framing Pulse Input/Output Pin - Channel 3:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface for Channel 3 has been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Alarm Indicator Input:
This input pin pulses "High" coincident to any STS-1 signal (which is
carrying the AIS-P indicator) being applied to the STS3TxA_D_3[7:0]
input data bus.
NOTE: If the STS3TxA_ALARM_3 input signal pulses "High" for any
given STS-1 signal (within the incoming STS-3), then the
XRT94L43 will automatically declare an AIS-P for that STS-1
channel.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled TxDS3FP_3 (Transmit DS3 Frame Pulse Input/Output - Channel
3):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if the
DS3/E3 Framer block is enabled then this pin will function as either a
Transmit Framing Reference input pin or as a Transmit Framing Reference output pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Loop-Timing or in the Local-Timing/
Asynchronous Framing Mode:
This pin will function as a Framing Reference Output pin. The Frame
Generator block (associated with Channel 3) will pulse this output pin
"High" for one DS3/E3 bit-period, one period prior to the first bit of a
given DS3 or E3 frame being applied to the DS3/E3/
STS1_DATA_IN_3 input pin.
If the Frame Generator (within the DS3/E3 Framer block) is configured to operate in the Local-Timing/TxDS3FP Mode:
This pin will function as a Framing Reference Input pin. In this mode,
the user is expected to pulse this input pin "High" for one DS3 or E3
bit-period, coincident with the first bit of a given DS3 or E3 frame,
being placed on the DS3/E3/STS1_DATA_IN_3 input pin. The Frame
Generator block (associated with Channel 3) will synchronize its generation of DS3 or E3 frames to these framing pulses applied to this
input pin.
NOTE: This pin is inactive if the Frame Generator block, associated
with Channel 3 is by-passed.
184
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
C15
SIGNAL NAME
STS3TxA_D_0_0
TxSBDATA_0
RLOOP_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 0/RLOOP_0 (General Purpose) output pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_0[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 0.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_0. The LSB of any byte, which is being input
into the STS-3/STM-1 Transmit Telecom Bus - Data Bus (for Channel
0) should be input via this pin.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - RLOOP_0
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct
Address = 0x1F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_0
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
185
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
C16
SIGNAL NAME
STS3TxA_D_0_1
TxSBDATA_1
REQ_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 0/REQ_0 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_0[7:2] and STS3TxA_D_0_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - REQ_0
(General Purpose) output pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 0 (Indirect Address = 0x1E, 0x80), (Direct
Address = 0x1F01).
NOTE:
For Product Legacy purposes, this pin is called REQ_0
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
186
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
B19
STS3TxA_D_0_2
TxSBDATA_2
DS3/E3/
STS1_DATA_IN_0
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 0:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2:
STS3TxA_D_0_2 This input pin along with STS3TxA_D_0[7:3] and
STS3TxA_D_0[1:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 0:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 0).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_0
signal pin number F15.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_0 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 0 (Indirect Address = 0x1E, 0x01), (Direct Address =
0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_0 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_0.
187
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
B23
STS3TxA_D_0_3
TxSBDATA_3
DS3/E3/
STS1_DATA_IN_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 4:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_0_3:
This input pin along with STS3TxA_D_0[7:4] and STS3TxA_D_0[2:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 4:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 4).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_4
signal pin number A22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_4 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 4 (Indirect Address = 0x5E, 0x01), (Direct Address =
0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_4 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_4.
188
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
B25
STS3TxA_D_0_4
TxSBDATA_4
DS3/E3/
STS1_DATA_IN_8
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 4:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_0_4:
This input pin along with STS3TxA_D_0[7:5] and STS3TxA_D_0[3:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 8:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 8).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_8
signal pin number A24.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_8 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 8 (Indirect Address = 0x9E, 0x01), (Direct Address =
0x9F01) to a "1".
For STS-1 Applications:
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_8 signal upon the rising edge of Ds3/E3/
STS1_CLK_IN_8.
189
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
F15
SIGNAL NAME
STS3TxA_D_0_5
TxSBDATA_5
DS3/E3/
STS1_CLK_IN_0
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 0:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_0_5:
This input pin along with STS3TxA_D_0[7:6] and
STS3TxA_D_0[4:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 0:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
0).
The XRT94L43 uses this clock signal to sample and latch the data
that is applied to the DS3/E3/STS1_DATA_IN_0 input pin number
B19.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_0
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_0 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 0 (Indirect Address = 0x1E, 0x01)," (Direct
Address = 0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_0 signal upon the rising edge of this clock signal.
190
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
A22
SIGNAL NAME
STS3TxA_D_0_6
TxSBDATA_6
DS3/E3/
STS1_CLK_IN_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 4:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_0_6:
This input pin along with STS3TxA_D_0_7 and STS3TxA_D_0[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 0. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 4:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
4).
The XRT94L43 uses this clock signal to sample and latch the data
that is applied to the DS3/E3/STS1_DATA_IN_4 input pin number
B23.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_4
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_4 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 4 (Indirect Address = 0x5E, 0x01), (Direct
Address = 0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_4 signal upon the rising edge of this clock signal.
191
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
A24
SIGNAL NAME
STS3TxA_D_0_7
TxSB_DATA_7
DS3/E3/
STS1_CLK_IN_8
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 0 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 8:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_0_7:
This input pin along with STS3TxA_D_0[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 0.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_0.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 8:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
8).
The XRT94L43 uses this clock signal to sample and latch the data
that is applied to the DS3/E3/STS1_DATA_IN_8 input pin number
B25.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_8
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_8 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 8 (Indirect Address = 0x9E, 0x01), " (Direct
Address = 0x9F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_8 signal upon the rising edge of this clock signal.
192
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
C25
SIGNAL NAME
STS3TxA_D_1_0
TxSBDATA_0
RLOOP_1
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 0/RLOOP_1 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_1[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 1.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_1.
The LSB of any byte, which is being input into the STS-3/STM-1
Transmit Telecom Bus - Data Bus (for Channel 1) should be input via
this pin.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - RLOOP_1
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct
Address = 0x2F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_1
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
193
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
B26
SIGNAL NAME
STS3TxA_D_1_1
TxSBDATA_1
REQ_1
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 1/REQ_1 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_1[7:2] and STS3TxA_D_1_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - REQ_1
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 1 (Indirect Address = 0x2E, 0x80), (Direct
Address = 0x2F80).
NOTE:
For Product Legacy purposes, this pin is called REQ_1
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
194
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
E26
STS3TxA_D_1_2
TxSBDATA_2
DS3/E3/
STS1_DATA_IN_1
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 1:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_1_2:
This input pin along with STS3TxA_D_1[7:3] and
STS3TxA_D_1[1:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 1:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 1).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_1
signal pin number D26.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_1 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 1 (Indirect Address = 0x2E, 0x01), (Direct Address =
0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_1 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_1.
195
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
G24
SIGNAL NAME
STS3TxA_D_1_3
TxSBDATA_3
DS3/E3/
STS1DATA_IN_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 5:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 3: STS3TxA_D_1_3:
This input pin along with STS3TxA_D_1[7:4] and STS3TxA_D_1[2:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 5:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 5).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_5
signal pin number F23.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_5 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 5 (Indirect Address = 0x6E, 0x01), (Direct Address =
0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_5 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_5.
196
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
J24
SIGNAL NAME
STS3TxA_D_1_4
TxSBDATA_4
DS3/E3/
STS1_DATA_IN_9
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 4/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 9:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_1_4:
This input pin along with STS3TxA_D_1[7:5] and
STS3TxA_D_1[3:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 9:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 9).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_9
signal pin number H23.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_9 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 9 (Indirect Address = 0xAE, 0x01), (Direct Address =
0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_9 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_9.
197
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
D26
SIGNAL NAME
STS3TxA_D_1_5
DS3/E3/
STS1_Clk_IN_1
TxSBData_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 1:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_1_5:
This input pin along with STS3TxA_D_1[7:6] and STS3TxA_D_1[4:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 1:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
1). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_1 input pin number E26.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_1
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_1 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 1 (Indirect Address = 0x2E, 0x01), (Direct
Address = 0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_1 signal upon the rising edge of this clock signal.
198
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
F23
SIGNAL NAME
STS3TxA_D_1_6
DS3/E3/
STS1_Clk_IN_5
TxSBData_6
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 5:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_1_6:
This input pin along with STS3TxA_D_1_7 and STS3TxA_D_1[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 1. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 5:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
5). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_5 input pin number G24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_5
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_5 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 5 (Indirect Address = 0x6E, 0x01), (Direct
Address = 0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_5 signal upon the rising edge of this clock signal.
199
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
H23
SIGNAL NAME
STS3TxA_D_1_7
DS3/E3/
STS1_Clk_IN_9
TxSBData_7
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 1 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 9:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_1_7:
This input pin along with STS3TxA_D_1[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 1.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_1.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 9:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
9). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_9 input pin number J24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_9
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_9 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 9 (Indirect Address = 0xAE, 0x01), " (Direct
Address = 0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_9 signal upon the rising edge of this clock signal.
200
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AD26
SIGNAL NAME
STS3TxA_D_2_0
RLOOP_2
TxSBData_0
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 0/RLOOP_2 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_2[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 2.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_2.
The LSB of any byte, which is being input into the STS-3/STM-1
Transmit Telecom Bus - Data Bus (for Channel 2) should be input via
this pin.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - RLOOP_2
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct
Address = 0x3F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_2
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
201
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AE26
SIGNAL NAME
STS3TxA_D_2_1
REQ_2
TxSBData_1
I/O
SIGNAL
TYPE
I/O
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 1/REQ_2 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_2[7:2] and STS3TxA_D_2_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - REQ_2
(General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 2 (Indirect Address = 0x3E, 0x80), (Direct
Address = 0x3F80).
NOTE:
For Product Legacy purposes, this pin is called REQ_2
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
202
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
V24
STS3TxA_D_2_2
DS3/E3/
STS1_Data_IN_2
TxSBData_2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 2:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_2_2:
This input pin along with STS3TxA_D_2[7:3] and
STS3TxA_D_2[1:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 2:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 2).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_2
signal pin number V25.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_2 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 2 (Indirect Address = 0x3E, 0x01), (Direct Address =
0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_2 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_2.
203
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AD24
STS3TxA_D_2_3
DS3/E3/
STS1_Data_IN_6
TxSBData_3
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 6:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 3: STS3TxA_D_2_3:
This input pin along with STS3TxA_D_2[7:4] and STS3TxA_D_2[2:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 6:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 6).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_6
signal pin number Y22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_6 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 6 (Indirect Address = 0x7E, 0x01), (Direct Address =
0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_6 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_6.
204
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AF25
STS3TxA_D_2_4
DS3/E3/
STS1_Data_IN_10
TxSBData_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 4/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 10:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_2_4:
This input pin along with STS3TxA_D_2[7:5] and STS3TxA_D_2[3:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel
10:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 10).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/
STS1_CLK_IN_10 signal pin number AB22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_10 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 10 (Indirect Address = 0xBE, 0x01), (Direct Address =
0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_10 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_10.
205
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
V25
SIGNAL NAME
STS3TxA_D_2_5
DS3/E3/
STS1_Clk_IN_2
TxSBData_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 2:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_2_5:
This input pin along with STS3TxA_D_2[7:6] and STS3TxA_D_2[4:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 2:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
2). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_2 input pin number V24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_2
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_2 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 2 (Indirect Address = 0x3E, 0x01), (Direct
Address = 0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_2 signal upon the rising edge of this clock signal.
206
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
Y22
SIGNAL NAME
STS3TxA_D_2_6
DS3/E3/
STS1_Clk_IN_6
TxSBData_6
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 6:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_2_6:
This input pin along with STS3TxA_D_2_7 and STS3TxA_D_2[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 2. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 6:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
6). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_6 input pin number AD24.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_6
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_6 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 6 (Indirect Address = 0x7E, 0x01), (Direct
Address = 0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_6 signal upon the rising edge of this clock signal.
207
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB22
SIGNAL NAME
STS3TxA_D_2_7
DS3/E3/
STS1_Clk_IN_10
TxSBData_7
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 2 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 10:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_2_7:
This input pin along with STS3TxA_D_2[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 2.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_2.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 10:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
10). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_10 input pin
number AF25.
By default, the data that is applied to the DS3/E3/
STS1_DATA_IN_10 input pin will be latched into the XRT94L43 upon
the falling edge of this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_10 signal upon the rising edge of this clock signal
by setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 10 (Indirect Address = 0xBE, 0x01), (Direct
Address = 0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_10 signal upon the rising edge of this clock signal.
208
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AC18
SIGNAL NAME
STS3TxA_D_3_0
RLOOP_3
TxSBData_0
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 0/RLOOP_3 General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 0:
This input pin along with STS3TxA_D_3[7:1] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 3.
This input pin functions as the LSB (Least Significant Bit) input pin on
the Transmit (Add) Telecom Bus - Input Data Bus. The STS-3/STM-1
Telecom Bus interface will sample and latch this pin upon the falling
edge of STS3TxA_CLK_3. The LSB of any byte, which is being input
into the STS-3/STM-1 Transmit Telecom Bus - Data Bus (for Channel
3) should be input via this pin.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - RLOOP_3
(General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 1 (RLOOP) within the Line Interface Drive Register
associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct
Address = 0x4F80).
NOTE: For Product Legacy purposes, this pin is called RLOOP_3
because one possible application is to tie this output pin to
an RLOOP (Remote Loop-back) input pin from one of Exar's
XRT73L0X/XRT75L0X
DS3/E3/STS-1
LIU
devices.
However, this output pin, and the corresponding register bit
can be used for any purpose.
209
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB18
SIGNAL NAME
STS3TxA_D_3_1
REQ_3
TxSBData_1
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 1/REQ_3 (General Purpose) output Pin:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 1:
This input pin along with STS3TxA_D_3[7:2] and STS3TxA_D_3_0
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - REQ_3
(General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the appropriate value into Bit 5 (REQB) within the Line Interface Drive Register
associated with Channel 3 (Indirect Address = 0x4E, 0x80), (Direct
Address = 0x4F80).
NOTE:
For Product Legacy purposes, this pin is called REQ_3
because one possible application is to tie this output pin to
an REQB (Receive Equalizer By-Pass) or REQEN (Receive
Equalizer Enable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this output
pin, and the corresponding register bit can be used for any
purpose.
210
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AA20
STS3TxA_D_3_2
DS3/E3/
STS1_Data_IN_3
TxSBData_2
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 2/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 3:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 2: STS3TxA_D_3_2:
This input pin along with STS3TxA_D_3[7:3] and STS3TxA_D_3[1:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 3:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 3).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_3
signal pin number AD22.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_3 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 3 (Indirect Address = 0x4E, 0x01), (Direct Address =
0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_3 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_3.
211
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AB19
STS3TxA_D_3_3
DS3/E3/
STS1_Data_IN_7
TxSBData_3
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 3/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 7:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 3: STS3TxA_D_3_3:
This input pin along with STS3TxA_D_3[7:4] and
STS3TxA_D_3[2:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 7:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 7).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/STS1_CLK_IN_7
signal pin number AA19.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_7 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 7 (Indirect Address = 0x8E, 0x01), (Direct Address =
0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_7 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_7.
212
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
SIGNAL NAME
AD16
STS3TxA_D_3_4
DS3/E3/
STS1_Data_IN_11
TxSBData_4
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 4/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface input Pin - Channel 11 (DS3/E3/
STS1_DATA_IN_11):
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 4: STS3TxA_D_3_4:
This input pin along with STS3TxA_D_3[7:5] and
STS3TxA_D_3[3:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_DATA_IN - DS3/E3/STS-1 Line Interface Data Input - Channel 11:
This input accepts single-rail, recovered DS3, E3 or STS-1 data
(from a DS3/E3/STS-1 LIU IC). This input pin should be connected to
the RPOS output of the DS3/E3/STS-1 LIU IC (corresponding to
channel 11).
By default, the data that is applied to this input pin will be latched into
the XRT94L43 upon the falling edge of the DS3/E3/
STS1_CLK_IN_11 signal pin number AB16.
For DS3/E3 Applications
The XRT94L43 can be configured to latch this input signal upon the
rising edge of the DS3/E3/STS1_CLK_IN_11 signal by setting Bit 1
(DS3/E3/STS1_CLK_IN Invert), within the I/O Control Register Channel 11 (Indirect Address = 0xCE, 0x01), (Direct Address =
0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_11 signal upon the rising edge of DS3/E3/
STS1_CLK_IN_11.
213
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AD22
SIGNAL NAME
STS3TxA_D_3_5
DS3/E3/
STS1_Clk_IN_3
TxSBData_5
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 5/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 3:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 5: STS3TxA_D_3_5:
This input pin along with STS3TxA_D_3[7:6] and
STS3TxA_D_3[4:0] function as the STS-3/STM-1 Transmit (Add)
Telecom Bus - Input Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface will sample and latch this pin upon the falling edge
of STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 3:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
3). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_3 input pin number AA20.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_3
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_3 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 3 (Indirect Address = 0x4E, 0x01), (Direct
Address = 0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_3 signal upon the rising edge of this clock signal.
214
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AA19
SIGNAL NAME
STS3TxA_D_3_6
DS3/E3/
STS1_Clk_IN_7
TxSBData_6
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 6/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 7:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 6: STS3TxA_D_3_6:
This input pin along with STS3TxA_D_3_7 and STS3TxA_D_3[5:0]
function as the STS-3/STM-1 Transmit (Add) Telecom Bus - Input
Data Bus for Channel 3. The STS-3/STM-1 Telecom Bus interface
will sample and latch this pin upon the falling edge of
STS3TxA_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 7:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
7). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_7 input pin number AB19.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_7
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_7 signal upon the rising edge of this clock signal by
setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 7 (Indirect Address = 0x8E, 0x01), (Direct
Address = 0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_7 signal upon the rising edge of this clock signal.
215
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB16
SIGNAL NAME
STS3TxA_D_3_7
DS3/E3/
STS1_Clk_IN_11
TxSBData_7
I/O
SIGNAL
TYPE
I
TTL
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Channel 3 - Input Data Bus
Pin Number 7/DS3/E3 Framer or Receive STS-1 TOH Processor
block line interface clock input Pin - Channel 11:
The function of this pin depends upon whether or not theSTS-3/STM1 Telecom Bus Interface, associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled STS-3/STM-1 Transmit Telecom Bus - Input Data Bus Pin Number 7: STS3TxA_D_3_7:
This input pin along with STS3TxA_D_3[6:0] function as the STS-3/
STM-1 Transmit (Add) Telecom Bus - Input Data Bus for Channel 3.
The STS-3/STM-1 Telecom Bus interface will sample and latch this
pin upon the falling edge of STS3TxA_CLK_3.
NOTE: This input pin functions as the MSB (Most Significant Bit) of
the Transmit (Add) Telecom Bus, for Channel 3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/E3/
STS1_CLK_IN - DS3/E3/STS-1 Line Interface Clock Input - Channel 11:
This input accepts a recovered DS3, E3 or STS-1 clock signal (from
a DS3/E3/STS-1 LIU IC). This input pin should be connected to the
RCLK output of the DS3/E3/STS-1 LIU IC (corresponding to channel
11). The XRT94L43 uses this clock signal to sample and latch the
data that is applied to the DS3/E3/STS1_DATA_IN_11 input pin number AD16.
By default, the data that is applied to the DS3/E3/STS1_DATA_IN_11
input pin will be latched into the XRT94L43 upon the falling edge of
this clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to latch the DS3/E3/
STS1_DATA_IN_11 signal upon the rising edge of this clock signal
by setting Bit 1 (DS3/E3/STS1_CLK_IN Invert), within the I/O Control
Register - Channel 11 (Indirect Address = 0xCE, 0x01), (Direct
Address = 0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to sample the DS3/E3/
STS1_DATA_IN_11 signal upon the rising edge of this clock signal.
216
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AB25
SIGNAL NAME
TxREFCLK
SSE_POS
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Reference Clock Output
Pin/Slow-Speed Interface - Egress - Positive Data I/O:
The exact function of this pin depends upon whether or not theSTS3/STM-1 Telecom Bus is enabled, and whether the Slow-Speed
Interface is enabled.
Transmit STS-3/STM-1 Telecom Bus Reference Clock Output
Pin:
This pin generates a 19.44MHz clock signal that is ultimately derived
from the Clock Synthesizer block (within the XRT94L43 device).
If the user configures the STS-3/STM-1 Telecom Bus Interface to
operate in the "Re-Phase OFF" mode, then the device (or entity) that
is transmitting STS-3/STM-1 data (to the Transmit STS-3/STM-1
Telecom Bus Interface) must synchronizes its data transmission to
this output signal.
The user is not required to use this signal if the STS-3/STM-1 Telecom Bus Interface has been configured to operate in the "Re-Phase
ON" Mode.
SSE_POS (Slow-Speed Interface - Egress - Port is enabled):
If the Slow-Speed Interface - Egress (SSE) Port is enabled, then this
pin will function as either the SSE_POS output pin or the SSE_POS
input pin.If the user configures the SSE port to operate in the "Insert"
Mode, then the SSE port will be configured to replace any "userselected" Egress DS3/E3 or STS-1 data-stream (within the
XRT94L43 device) with the data that is applied to the SSE_POS and
SSE_NEG input pins. More specifically, in the "Insert" Mode, this pin
will function as the "SSE_POS" input pin. In this case, the SSE port
will sample and latch the contents of the input pin (along with the
SSE_NEG, in a Dual-Rail manner) upon the falling edge of the
SSE_CLK input clock signal.
If the user configures the SSE port to operate in the "Extract" Mode,
then the SSE port will output any "user-selected" Egress DS3/E3 or
STS-1 signal (within the XRT94L43 device) via this output port.
More specifically, in the "Extract Mode" this pin will function as the
"SSE_POS" output pin. In this case, the SSE port will output data via
this pin, along with the SSE_POS output pin (in a Dual-Rail Manner)
upon the rising edge of the SSE_CLK output signal.
217
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
PIN #
AA24
SIGNAL NAME
TxSBFP_OUT
SSI_NEG
I/O
SIGNAL
TYPE
O
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus Framing Pulse Output Pin:
This pin generates a pulse at an 8kHz rate. This signal is ultimately
derived from the Clock Synthesizer block (within the XRT94L43).
If the STS-3/STM-1 Telecom Bus Interface is configured to operate in
the "Re-Phase OFF" Mode, then the devices (or entities) that are
transmitting STS-3/STM-1 data (to the Transmit STS-3/STM-1 Telecom Bus Interface) must synchronize their STS-3/STM-1 frame
transmission to this output signal.
In the Re-Phase OFF Mode, each device or entity must align their
STS-3/STM-1 Frame transmission to this signal, in order to insure
that all four Transmit STS-3/STM-1 Telecom Bus Interfaces are presented with TOH data simultaneously.
Transmit STS-3/STM-1 Telecom Bus Framing Pulse Output Pin/
Slow-Speed Interface - Ingress - Negative Data I/O:
The exact function of this pin depends upon whether or not theSTS3/STM-1 Telecom Bus is enabled and whether the Slow-Speed Interface is enabled.
Transmit STS-3/STM-1 Telecom Bus Framing Pulse Output Pin:
This pin generates a pulse at an 8kHz rate. This signal is ultimately
derived from the Clock Synthesizer block (within the XRT94L43).
If the user configures the STS-3/STM-1 Telecom Bus Interface to
operate in the "Re-Phase OFF" Mode, then the devices (or entities)
that is transmitting STS-3/STM-1 data (to the Transmit STS-3/STM-1
Telecom Bus Interface) must synchronize its STS-3/STM-1 frame
transmission to this output signal.
In the Re-Phase OFF Mode, each device or entity must align their
STS-3/STM-1 Frame transmission to this signal, in order to insure
that all four Transmit STS-3/STM-1 Telecom Bus Interfaces are presented with TOH data simultaneously.
SSI_NEG (Slow-Speed Interface - Ingress Port is enabled):
If the Slow-Speed Interface - Ingress (SSI) Port is enabled, then this
pin will function as either the SSI_NEG output pin or the SSI_NEG
input pin.
If the user configures the SSI port to operate in the "Insert" Mode,
then the SSI port will be configured to replace any "user-selected"
Ingress DS3/E3 or STS-1 data-stream (within the XRT94L43 device)
with the data that is applied to the SSI_POS and SSI_NEG input
pins. More specifically, in the "Insert" Mode, this pin will function as
the SSI_NEG input pin. In this case, the SSI port will sample and
latch the contents of this input pin (along with the SSI_POS input pin,
in a Dual-Rail Manner) upon the falling edge of the SSI_CLK input
clock signal.
If the user configures the SSI port to operate in the "Extract" Mode,
then the SSI port will output any "user-selected" Ingress DS3/E3 or
STS-1 signal (within the XRT94L43 device) via this output port.
More specifically, in the "Extract Mode" this pin will function as the
"SSI_NEG" output pin. In this case, the SSI port will output data via
this pin, along with the SSI_POS output pin (in a Dual-Rail Manner)
upon the rising edge of the SSI_CLK output signal.
218
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RXSTS-1 TOH/POH INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
CMOS
A14
F20
K25
AD18
E16
H22
AA25
AC15
E19
K22
AD23
AA12
RxSTS1OHSel_0
RxSTS1OHSel_1
RxSTS1OHSel_2
RxSTS1OHSel_3
RxSTS1OHSel_4
RxSTS1OHSel_5
RxSTS1OHSel_6
RxSTS1OHSel_7
RxSTS1OHSel_8
RxSTS1OHSel_9
RxSTS1OHSel_10
RxSTS1OHSel_11
O
D11
G22
U23
AD20
B15
J21
AA26
AF15
E17
K23
AF26
AD11
RxSTS1OH_0
RxSTS1OH_1
RxSTS1OH_2
RxSTS1OH_3
RxSTS1OH_4
RxSTS1OH_5
RxSTS1OH_6
RxSTS1OH_7
RxSTS1OH_8
RxSTS1OH_9
RxSTS1OH_10
RxSTS1OH_11
O
DESCRIPTION
Receive STS-1 TOH and POH Output Port - POH Data Indicator:
These output pins, along with RxSTS1OHClk_n,
RxSTS1OHFrame_n and RxSTS1OH_n function as the Receive
STS-1 TOH and POH Output Port.
These output pins indicate whether POH or TOH data is being output
via the RxSTS1OH_n output pins.
These output pins will toggle "High" coincident with the POH data as
it is being output via the RxSTS1OH_n output pins. Conversely,
these output pins will toggle "Low" coincident with the TOH data as it
is being output via the RxSTS1OH_n output pins.
NOTE:
CMOS
These output pins are updated upon the falling edge of
RxSTS1OHClk_n. As a consequence, external circuitry,
receiving this data, should sample this data upon the rising
edge of RxSTS1OHClk_n.
Receive STS-1 TOH and POH Output Port - Output pin:
These output pins, along with RxSTS1OHSel_n, RxSTS1OHClk_n
and RxSTS1OHFrame_n function as the Receive STS-1 TOH and
POH Output Port.
Each bit, within the TOH and POH bytes (within the incoming STS-1
data stream) is updated upon the falling edge of RxSTS1OHClk_n.
As a consequence, external circuitry receiving this data, should sample this data upon the rising edge of RxSTS1OHClk_n.
NOTES:
1. The external circuitry can determine whether or not it is
receiving POH or TOH data via this output pin. The
RxSTS1OHSel_n output pin will be "High" anytime POH
data is being output via these output pins. Conversely, the
RxSTS1OHSel_n output pin will be "Low" anytime TOH
data is being output via these output pins.
2. TOH and POH data, associated with Receive STS-1 TOH
and POH Processor Block - Channel 0 will be output via the
RxSTS1OH_0, and so on.
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RXSTS-1 TOH/POH INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
F12
F22
T24
AE20
A18
H21
AB24
AE16
E18
K26
AA23
AF10
RxSTS1OHClk_0
RxSTS1OHClk_1
RxSTS1OHClk_2
RxSTS1OHClk_3
RxSTS1OHClk_4
RxSTS1OHClk_5
RxSTS1OHClk_6
RxSTS1OHClk_7
RxSTS1OHClk_8
RxSTS1OHClk_9
RxSTS1OHClk_10
RxSTS1OHClk_11
O
CMOS
Receive STS-1 TOH and POH Output Port - Clock Output signal:
These output pins, along with RxSTS1OH_n, RxSTS1OHFrame_n,
and RxSTS1OHSel_n function as the Receive STS-1 TOH and POH
Output Port.
These output pins function as the Clock Output signals for the
Receive STS-1 TOH and POH Output Port. The RxSTS1OH_n,
RxSTS1Frame_n and RxSTS1OHSel_n output pins are updated
upon the falling edge of this clock signal.
D12
E22
U26
AF18
B17
J22
W22
AF12
F19
K24
AF23
AD10
RxSTS1OHFrame_0
RxSTS1OHFrame_1
RxSTS1OHFrame_2
RxSTS1OHFrame_3
RxSTS1OHFrame_4
RxSTS1OHFrame_5
RxSTS1OHFrame_6
RxSTS1OHFrame_7
RxSTS1OHFrame_8
RxSTS1OHFrame_9
RxSTS1OHFrame_1
0
RxSTS1OHFrame_11
O
CMOS
Receive STS-1 TOH and POH Output Port - Frame Boundary
Indicator:
These output pins, along with RxSTS1OH_n, RxSTS1OHSel_n and
RxSTS1OHClk_n function as the Receive STS-1 TOH and POH
Output Port.
These output pins will pulse "High" coincident with either of the following events.
1. When the very first TOH byte (A1), of a given STS-1 frame, is
being output via the corresponding RxSTS1OH_n output pin.
2. When the very first POH byte (J1), of a given STS-1 frame, is
being output via the corresponding RxSTS1OH_n output pin.
NOTE: The external circuitry can determine whether these output
pins are pulsing "High" for the first TOH or POH byte by
checking the state of the corresponding RxSTS1OHSel_n
output pin.
220
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REV. 1.0.2
221
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
A20
SIGNAL NAME
STS3RxD_CLK_0
RxSBClkLLOOP_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel
0; LLOOP_0 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface associated with Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus Clock Output - Channel 0; STS3RxD_CLK_0:
All signals, which is output via the Receive Telecom Bus Channel 0 is clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_0[7:0]
• STS3RxD_ALARM_0
• STS3RxD_DP_0
• STS3RxD_PL_0
• STS3RxD_C1J1_0
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled LLOOP_0 (General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 0 (LLOOP) within the Line Interface
Drive Register associated with Channel 0 (Indirect Address =
0x1E, 0x80), (Direct Address = 0x1F80).
NOTE:
222
For Product Legacy purposes, this pin is called
LLOOP_0 because one possible application is to tie
this output pin to an LLOOP (Local Loop-back) input
pin from one of Exar's XRT73L0X/XRT75L0X DS3/E3/
STS-1 LIU devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
D23
SIGNAL NAME
STS3RxD_CLK_1
RxSBClkLLOOP_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel
1; LLOOP_1 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface associated with Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus Clock Output - Channel 1; STS3RxD_CLK_1:
All signals, which is output via the Receive Telecom Bus Channel 1 is clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_1[7:0]
• STS3RxD_ALARM_1
• STS3RxD_DP_1
• STS3RxD_PL_1
• STS3RxD_C1J1_1
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled LLOOP_1 (General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 0 (LLOOP) within the Line Interface
Drive Register associated with Channel 1 (Indirect Address =
0x2E, 0x80), (Direct Address = 0x2F80).
NOTE:
223
For Product Legacy purposes, this pin is called
LLOOP_1 because one possible application is to tie
this output pin to an LLOOP (Local Loop-back) input
pin from one of Exar's XRT73L0X/XRT75L0X DS3/E3/
STS-1 LIU devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
W23
SIGNAL NAME
STS3RxD_CLK_2
RxSBClkLLOOP_2
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel
2; LLOOP_2 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface associated with Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus Clock Output - Channel 2; STS3RxD_CLK_2:
All signals, which is output via the Receive Telecom Bus Channel 2 is clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_2[7:0]
• STS3RxD_ALARM_2
• STS3RxD_DP_2
• STS3RxD_PL_2
• STS3RxD_C1J1_2
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled LLOOP_2 (General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 0 (LLOOP) within the Line Interface
Drive Register associated with Channel 2 (Indirect Address =
0x3E, 0x80), (Direct Address = 0x3F80).
NOTE:
224
For Product Legacy purposes, this pin is called
LLOOP_2 because one possible application is to tie
this output pin to an LLOOP (Local Loop-back) input
pin from one of Exar's XRT73L0X/XRT75L0X DS3/E3/
STS-1 LIU devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AF20
SIGNAL NAME
STS3RxD_CLK_3
RxSBClkLLOOP_3
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus Clock Output - Channel
3; LLOOP_3 (General Purpose) Output Pin:
The function of this input pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface associated with Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus Clock Output - Channel 3; STS3RxD_CLK_3:
All signals, which is output via the Receive Telecom Bus Channel 3 is clocked out upon the rising edge of this clock signal. This includes the following signals.
• STS3RxD_D_3[7:0]
• STS3RxD_ALARM_3
• STS3RxD_DP_3
• STS3RxD_PL_3
• STS3RxD_C1J1_3
This clock signal will operate at 19.44MHz.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled LLOOP_3 (General Purpose) Output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 0 (LLOOP) within the Line Interface
Drive Register associated with Channel 3 (Indirect Address =
0x4E, 0x80), (Direct Address = 0x4F80).
NOTE:
225
For Product Legacy purposes, this pin is called
LLOOP_3 because one possible application is to tie
this output pin to an LLOOP (Local Loop-back) input
pin from one of Exar's XRT73L0X/XRT75L0X DS3/E3/
STS-1 LIU devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
A21
SIGNAL NAME
STS3RxD_PL_0
TAOS_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 0/TAOS_0 (General Purpose)
output Pin - Channel 0:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface block associated with
Channel 0 has been enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 0) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload Indicator Output - STS3RxD_PL_0:
This output pin indicates whether or not Transport Overhead
bytes are being output via the STS3RXD_D_0[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/
STM-1 Receive Telecom Bus is transmitting a Transport Overhead byte via the STS3RXD_D_0[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that
the STS-3/STM-1 Receive Telecom Bus is transmitting something other than a Transport Overhead byte via the
STS3RXD_D_0[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 0) is disabled - TAOS_0 (General Purpose) output
Pin - Channel 0:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 4 (TAOS) within the Line Interface
Drive Register associated with Channel 0 (Indirect Address =
0x1E, 0x80), (Direct Address = 0x1F80).
NOTE: For Product Legacy purposes, this pin is called TAOS_0
because one possible application is to tie this output
pin to an TAOS (Transmit All Ones) input pin from one
of Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU
devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
226
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
D24
SIGNAL NAME
STS3RxD_PL_1
TAOS_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 1/TAOS_1 (General Purpose)
output Pin - Channel 1:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface block associated with
Channel 1 has been enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 1) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload Indicator Output - STS3RxD_PL_1:
This output pin indicates whether or not Transport Overhead
bytes are being output via the STS3RXD_D_1[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/
STM-1 Receive Telecom Bus is transmitting a Transport Overhead byte via the STS3RXD_D_1[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that
the STS-3/STM-1 Receive Telecom Bus is transmitting something other than a Transport Overhead byte via the
STS3RXD_D_1[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 1) is disabled - TAOS_1 (General Purpose) output
Pin - Channel 1:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 4 (TAOS) within the Line Interface
Drive Register associated with Channel 1 (Indirect Address =
0x2E, 0x80), (Direct Address = 0x2F80).
NOTE: For Product Legacy purposes, this pin is called TAOS_1
because one possible application is to tie this output
pin to an TAOS (Transmit All Ones) input pin from one
of Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU
devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
227
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
V23
SIGNAL NAME
STS3RxD_PL_2
TAOS_2
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 2/TAOS_2 (General Purpose)
output Pin - Channel 2:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface block associated with
Channel 2 has been enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 2) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload Indicator Output - STS3RxD_PL_2:
This output pin indicates whether or not Transport Overhead
bytes are being output via the STS3RXD_D_2[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/
STM-1 Receive Telecom Bus is transmitting a Transport Overhead byte via the STS3RXD_D_2[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that
the STS-3/STM-1 Receive Telecom Bus is transmitting something other than a Transport Overhead byte via the
STS3RXD_D_2[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 2) is disabled - TAOS_2 (General Purpose) output
Pin - Channel 2:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 4 (TAOS) within the Line Interface
Drive Register associated with Channel 2 (Indirect Address =
0x3E, 0x80), (Direct Address = 0x3F80).
NOTE: For Product Legacy purposes, this pin is called TAOS_2
because one possible application is to tie this output
pin to an TAOS (Transmit All Ones) input pin from one
of Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU
devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
228
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AF21
SIGNAL NAME
STS3RxD_PL_3
TAOS_3
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel 3/TAOS_3 (General Purpose)
output Pin - Channel 3:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface block associated with
Channel 3 has been enabled or disabled.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 3) is enabled - STS-3/STS-1 Receive (Drop) Telecom Bus - Payload Indicator Output - STS3RxD_PL_3:
This output pin indicates whether or not Transport Overhead
bytes are being output via the STS3RXD_D_3[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-3/
STM-1 Receive Telecom Bus is transmitting a Transport Overhead byte via the STS3RXD_D_3[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that
the STS-3/STM-1 Receive Telecom Bus is transmitting something other than a Transport Overhead byte via the
STS3RXD_D_3[7:0] output pins.
If the STS-3/STM-1 Telecom Bus Interface (associated with
Channel 3) is disabled - TAOS_3 (General Purpose) output
Pin - Channel 3:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 4 (TAOS) within the Line Interface
Drive Register associated with Channel 3 (Indirect Address =
0x4E, 0x80), (Direct Address = 0x4F80) .
NOTE: For Product Legacy purposes, this pin is called TAOS_3
because one possible application is to tie this output
pin to an TAOS (Transmit All Ones) input pin from one
of Exar's XRT73L0X/XRT75L0X DS3/E3/STS-1 LIU
devices. However, this output pin, and the
corresponding register bit can be used for any
purpose.
229
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
C23
SIGNAL NAME
STS3RxD_C1J1_0
RxDS3FP_8
TxSTS1FP_8
RxSBFrame_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal - Channel 0; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 8:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 0 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the
STS3RxD_D_0[7:0] output, and
2. Whenever the J1 byte is being output via the
STS3RxD_D_0[7:0] output.1:
NOTES:
1. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 0) will indicate that it is
transmitting the C1 byte (via the STS3RxD_D_0[7:0]
output pins), by pulsing this output pin "High" (for one
period of STS3RXD_CLK_0) and keeping the
STS3RXD_PL_0 output pin pulled "Low".
2. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 0) will indicate that it is
transmitting the J1 byte (via the STS3RXD_D_0[7:0]
output pins), by pulsing this output pin "High" (for one
period
of
STS3RXD_CLK_0)
while
the
STS3TXD_PL_0 output pin is pulled "High".
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled RxDS3FP_8 (Receive DS3 Frame Pulse Input/Output Channel 8):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 8) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_8 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 8 is by-passed.
230
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
J25
SIGNAL NAME
STS3RxD_C1J1_1
RxDS3FP_9
TxSTS1FP_9
RxSBFrame_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal - Channel 1; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 9:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 1 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the
STS3RxD_D_1[7:0] output.
2. Whenever the J1 byte is being output via the
STS3RxD_D_1[7:0] output.
NOTES:
1. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 1) will indicate that it is
transmitting the C1 byte (via the STS3RxD_D_1[7:0]
output pins), by pulsing this output pin "High" (for one
period of STS3RXD_CLK_1) and keeping the
STS3RXD_PL_1 output pin pulled "Low".
2. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 1) will indicate that it is
transmitting the J1 byte (via the STS3RXD_D_1[7:0]
output pins), by pulsing this output pin "High" (for one
period
of
STS3RXD_CLK_1)
while
the
STS3TXD_PL_1 output pin is pulled "High".
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled RxDS3FP_9 (Receive DS3 Frame Pulse Input/Output Channel 9):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 9) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_9 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 9 is by-passed.
231
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STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AC20
SIGNAL NAME
STS3RxD_C1J1_2
RxDS3FP_10
TxSTS1FP_10
RxSBFrame_2
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal - Channel 2; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 10:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 2 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the
STS3RxD_D_2[7:0] output, and
2. Whenever the J1 byte is being output via the
STS3RxD_D_2[7:0] output.
NOTES:
1. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 2) will indicate that it is
transmitting the C1 byte (via the STS3RxD_D_2[7:0]
output pins), by pulsing this output pin "High" (for one
period of STS3RXD_CLK_2) and keeping the
STS3RXD_PL_2 output pin pulled "Low".
2. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 2) will indicate that it is
transmitting the J1 byte (via the STS3RXD_D_2[7:0]
output pins), by pulsing this output pin "High" (for one
period
of
STS3RXD_CLK_2)
while
the
STS3TXD_PL_2 output pin is pulled "High".
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled RxDS3FP_10 (Receive DS3 Frame Pulse Input/Output Channel 10):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 10)
will pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_10 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 10 is by-passed.
232
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AE14
SIGNAL NAME
STS3RxD_C1J1_3
RxDS3FP_11
TxSTS1FP_11
RxSBFrame_3
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal - Channel 3; DS3/E3 Frame Synchronizer Framing Pulse Output Pin - Channel 11:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 3 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - C1/J1 Byte Phase
Indicator Output Signal:
This output pin pulses "High" under the following two conditions.
1. Whenever the C1 byte is being output via the
STS3RxD_D_3[7:0] output, and
2. Whenever the J1 byte is being output via the
STS3RxD_D_3[7:0] output.
NOTES:
1. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 3) will indicate that it is
transmitting the C1 byte (via the STS3RxD_D_3[7:0]
output pins), by pulsing this output pin "High" (for one
period of STS3RXD_CLK_3) and keeping the
STS3RXD_PL_3 output pin pulled "Low".
2. The STS-3/STM-1 Receive (Drop) Telecom Bus
(associated with Channel 3) will indicate that it is
transmitting the J1 byte (via the STS3RXD_D_3[7:0]
output pins), by pulsing this output pin "High" (for one
period
of
STS3RXD_CLK_3)
while
the
STS3TXD_PL_3 output pin is pulled "High".
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled RxDS3FP_11 (Receive DS3 Frame Pulse Input/Output Channel 11):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 11)
will pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_11 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 11 is by-passed.
233
XRT94L43
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REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
C22
SIGNAL NAME
STS3RxD_DP_0
RxDS3FP_4
TxSTS1FP_4
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output
Pin - Channel 0; DS3/E3 Frame Synchronizer Framing
Pulse Output Pin - Channel 4:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 0 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Parity Output Pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output
via the STS3RXD_D_0[7:0] output pins.
2. The EVEN or ODD parity value of the bits which are being
output via the STS3RXD_D_0[7:0] output pins and the states
of the STS3RXD_PL_0 and STS3RXD_C1J1_0 output pins.
This output pin will ultimately be used (by drop-side circuitry) to
verify the verify of the data which is output via the STS-3/STM1 Telecom Bus Interface associated with Channel 0.
NOTE: Any one of these configuration selections can be made
by writing the appropriate value into the Telecom Bus
Control Register (Indirect Address = 0x00, 0x3B),
(Direct Address = 0x013B).
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled RxDS3FP_4 (Receive DS3 Frame Pulse Input/Output Channel 4):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 4) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_4 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 4 is by-passed.
234
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
G25
SIGNAL NAME
STS3RxD_DP_1
RxDS3FP_5
TxSTS1FP_5
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output
Pin - Channel 1; DS3/E3 Frame Synchronizer Framing
Pulse Output Pin - Channel 5:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 1 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Parity Output Pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output
via the STS3RXD_D_1[7:0] output pins.
2. The EVEN or ODD parity value of the bits which are being
output via the STS3RXD_D_1[7:0] output pins and the states
of the STS3RXD_PL_1 and STS3RXD_C1J1_1 output pins.
This output pin will ultimately be used (by drop-side circuitry) to
verify the verify of the data which is output via the STS-3/STM1 Telecom Bus Interface associated with Channel 1.
NOTE: Any one of these configuration selections can be made
by writing the appropriate value into the Telecom Bus
Control Register (Indirect Address = 0x00, 0x3A),
(Direct Address = 0x013A).
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled RxDS3FP_5 (Receive DS3 Frame Pulse Input/Output Channel 5):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 5) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_5 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 5 is by-passed.
235
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AC23
SIGNAL NAME
STS3RxD_DP_2
RxDS3FP_6
TxSTS1FP_6
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output
Pin - Channel 2; DS3/E3 Frame Synchronizer Framing
Pulse Output Pin - Channel 6:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 2 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Parity Output Pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output
via the STS3RXD_D_2[7:0] output pins
.2. The EVEN or ODD parity value of the bits which are being
output via the STS3RXD_D_2[7:0] output pins and the states
of the STS3RXD_PL_2 and STS3RXD_C1J1_2 output pins.
This output pin will ultimately be used (by drop-side circuitry) to
verify the verify of the data which is output via the STS-3/STM1 Telecom Bus Interface associated with Channel 2.
NOTE: Any one of these configuration selections can be made
by writing the appropriate value into the Telecom Bus
Control Register (Indirect Address = 0x00, 0x39),
(Direct Address = 0x0139).
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled RxDS3FP_6 (Receive DS3 Frame Pulse Input/Output Channel 6):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 6) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_6 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 6 is by-passed.
236
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AC17
SIGNAL NAME
STS3RxD_DP_3
RxDS3FP_7
TxSTS1FP_7
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Parity Output
Pin - Channel 3; DS3/E3 Frame Synchronizer Framing
Pulse Output Pin - Channel 7:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 3 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Parity Output Pin:
This output pin can be configured to function as one of the following.
1. The EVEN or ODD parity value of the bits which are output
via the STS3RXD_D_3[7:0] output pins.
2. The EVEN or ODD parity value of the bits which are being
output via the STS3RXD_D_3[7:0] output pins and the states
of the STS3RXD_PL_3 and STS3RXD_C1J1_3 output pins.
This output pin will ultimately be used (by drop-side circuitry) to
verify the verify of the data which is output via the STS-3/STM1 Telecom Bus Interface associated with Channel 3.
NOTE: Any one of these configuration selections can be made
by writing the appropriate value into the Telecom Bus
Control Register (Indirect Address = 0x00, 0x38),
(Direct Address = 0x0138).
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled RxDS3FP_7 (Receive DS3 Frame Pulse Input/Output Channel 7):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 7) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_7 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 7 is by-passed.
237
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
C20
SIGNAL NAME
STS3RxD_Alarm_0
RxDS3FP_0
TxSTS1FP_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output signal - Channel 0; DS3/E3 Frame Synchronizer
Framing Pulse Output Pin - Channel 0:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 0 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", coincident with any STS-1 signal
(that is being output via the STS3RXD_D_0[7:0] output pins)
that is carrying an AIS-P indicator.
This output pin is "Low" for all other conditions.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled RxDS3FP_0 (Receive DS3 Frame Pulse Input/Output Channel 0):
If the STS-3/STM-1 Telecom Bus (Channel 0) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 0) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_0 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 0 is by-passed.
E25
STS3RxD_Alarm_1
RxDS3FP_1
TxSTS1FP_1
O
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output signal - Channel 1; DS3/E3 Frame Synchronizer
Framing Pulse Output Pin - Channel 1:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 1 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", coincident with any STS-1 signal
(that is being output via the STS3RXD_D_1[7:0] output pins)
that is carrying an AIS-P indicator.
This output pin is "Low" for all other conditions.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled RxDS3FP_1 (Receive DS3 Frame Pulse Input/Output Channel 1):
If the STS-3/STM-1 Telecom Bus (Channel 1) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 1) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_1 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 1 is by-passed.
238
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
V21
SIGNAL NAME
STS3RxD_Alarm_2
RxDS3FP_2
TxSTS1FP_2
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output signal - Channel 2; DS3/E3 Frame Synchronizer
Framing Pulse Output Pin - Channel 2:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 2 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", coincident with any STS-1 signal
(that is being output via the STS3RXD_D_2[7:0] output pins)
that is carrying an AIS-P indicator.
This output pin is "Low" for all other conditions.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled RxDS3FP_2 (Receive DS3 Frame Pulse Input/Output Channel 2):
If the STS-3/STM-1 Telecom Bus (Channel 2) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 2) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_2 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 2 is by-passed.
AD21
STS3RxD_Alarm_3
RxDS3FP_3
TxSTS1FP_3
O
CMOS STS-3/STM-1 Receive (Drop) Telecom Bus - Alarm Indicator Output signal - Channel 3; DS3/E3 Frame Synchronizer
Framing Pulse Output Pin - Channel 3:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface for Channel 3 has
been enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", coincident with any STS-1 signal
(that is being output via the STS3RXD_D_3[7:0] output pins)
that is carrying an AIS-P indicator.
This output pin is "Low" for all other conditions.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled RxDS3FP_3 (Receive DS3 Frame Pulse Input/Output Channel 3):
If the STS-3/STM-1 Telecom Bus (Channel 3) is disabled and if
the DS3/E3 Framer block is enabled then this pin will function
as the Receiving Framing Reference output pin. In this mode,
the Frame Synchronizer block (associated with Channel 3) will
pulse this output pin "High" for one DS3/E3 bit-period, coincident with the first bit (within a given DS3 or E3 frame) being
output via the DS3/E3/STS1_Data_OUT_3 output pin.
NOTE: This pin is inactive if the Frame Synchronizer block,
associated with Channel 3 is by-passed.
239
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
B21
SIGNAL NAME
STS3RxD_D_0_0
TxLEV_0
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 0/TxLEV_0 (General Purpose) Output pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 0: STSRxD_D_0_0:
This output pin along with STS3RxD_D_0[7:1] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_0.
NOTE: This input pin functions as the LSB (Least Significant
Bit) of the Receive (Drop) Telecom Bus for Channel 0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled TXLEV_0 (General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 2 (TxLEV) within the Line Interface
Drive Register associated with Channel 0 (Indirect Address =
0x1E, 0x80), (Direct Address = 0x1F80).
NOTE:
240
For Product Legacy purposes, this pin is called
TxLEV_0 because one possible application is to tie this
output pin to a TxLEV (Transmit Line Build-Out
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
B20
SIGNAL NAME
STS3RxD_D_0_1
ENCODIS_0
RxSBData_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 1/ENCODIS_0 (General Purpose)
Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 1: STSRxD_D_0_1:
This output pin along with STS3RxD_D_0[7:2] and
STS3RxD_D_0_0 function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled ENCODIS_0 (General Purpose) output Pin.
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 0 (Indirect
Address = 0x1E, 0x80), (Direct Address = 0x1F80).
NOTE:
241
For Product Legacy purposes, this pin is called
ENCODIS_0 because one possible application is to tie
this output pin to an ENCODIS (B3ZS/HDB3 Encoder
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
E20
STS3RxD_D_0_2
DS3/E3/
STS1_Data_OUT_0
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 2/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 0
(DS3/E3/STS1_DATA_OUT_0):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 2: STSRxD_D_0_2:
This output pin along with STS3RxD_D_0[7:3] and
STS3RxD_D_0[1:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 0:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 0). By default, the data that is output via this
output pin will be updated upon the rising edge of DS3/E3/
STS1_CLK_OUT_0 signal pin number C21.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_0 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 0 (Indirect Address = 0x1E, 0x01),
(Direct Address = 0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_0 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_0.
242
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
D20
STS3RxD_D_0_3
DS3/E3/
STS1_Data_OUT_4
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 3/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 4
(DS3/E3/STS1_DATA_OUT_4):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 3: STSRxD_D_0_3:
This output pin along with STS3RxD_D_0[7:4] and
STS3RxD_D_0[2:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 4:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 4). By default, the data that is output via this
output pin will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_4 signal pin number E21.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_4 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 4 (Indirect Address = 0x5E, 0x01),
(Direct Address = 0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_4 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_4.
243
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
D21
STS3RxD_D_0_4
DS3/E3/
STS1_Data_OUT_8
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 4/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 8
(DS3/E3/STS1_DATA_OUT_8):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 4: STSRxD_D_0_4:
This output pin along with STS3RxD_D_0[7:5] and
STS3RxD_D_0[3:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 8:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 8). By default, the data that is being output via
this output pin will be updated upon the rising edge of the DS3/
E3/STS-1_CLK_OUT_8 signal pin number C24.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_8 output signal upon the falling edge of the DS3/
E3/STS1_CLK_8 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 8 (Indirect Address = 0x9E, 0x01), (Direct Address =
0x9F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_8 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_8.
244
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
C21
STS3RxD_D_0_5
DS3/E3/STS1_Clk_OUT_0
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 5/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 0: (DS3/E3/STS1_CLK_OUT_0):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 5: STSRxD_D_0_5:
This output pin along with STS3RxD_D_0[7:6] and
STS3RxD_D_0[4:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 0:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 0).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_0 output pin will be updated upon the rising
edge of this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_0 output signal upon the falling edge of the DS3/
E3/STS1_CLK_0 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 0 (Indirect Address = 0x1E, 0x01), (Direct Address =
0x1F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_0 signal upon the falling edge of DS3/E3/
STS1_CLK_0.
245
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
E21
STS3RxD_D_0_6
DS3/E3/STS1_Clk_OUT_4
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 6/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 4: (DS3/E3/STS1_CLK_OUT_4):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 6: STSRxD_D_0_6:
This output pin along with STS3RxD_D_0_7 and
STS3RxD_D_0[5:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_0.
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 4:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 4).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_4 output pin will be updated upon the rising
edge of this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_4 output signal upon the falling edge of the DS3/
E3/STS1_CLK_4 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 4 (Indirect Address = 0x5E, 0x01), (Direct Address =
0x5F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_4 signal upon the falling edge of DS3/E3/
STS1_CLK_4.
246
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
C24
STS3RxD_D_0_7
DS3/E3/STS1_Clk_OUT_8
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 0 - Output
Data Bus Pin Number 7/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 8: (DS3/E3/STS1_CLK_OUT_8):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 0 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 0) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 7: STSRxD_D_0_7:
This output pin along with STS3RxD_D_0[6:0] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_0.
NOTE: This output pin functions as the MSB (Most Significant
Bit) for the STS-3/STM-1 Receive (Drop) Telecom Bus
Interface - Output Data Bus (Channel 0).
If STS-3/STM-1 Telecom Bus (Channel 0) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 8:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 8).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_8 output pin will be updated upon the rising
edge of this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_8 output signal upon the falling edge of the DS3/
E3/STS1_CLK_8 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 8 (Indirect Address = 0x9E, 0x01), (Direct Address =
0x9F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_8 signal upon the falling edge of DS3/E3/
STS1_CLK_8.
247
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
E24
SIGNAL NAME
STS3RxD_D_1_0
TxLEV_1
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 0/TxLEV_1 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 0: STSRxD_D_1_0:
This output pin along with STS3RxD_D_1[7:1] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_1.
NOTE: This input pin functions as the LSB (Least Significant
Bit) of the Receive (Drop) Telecom Bus for Channel 1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled TXLEV_1 (General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 2 (TxLEV) within the Line Interface
Drive Register associated with Channel 1 (Indirect Address =
0x2E, 0x80), (Direct Address = 0x2F80).
NOTE:
248
For Product Legacy purposes, this pin is called
TxLEV_1 because one possible application is to tie this
output pin to a TxLEV (Transmit Line Build-Out
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
E23
SIGNAL NAME
STS3RxD_D_1_1
ENCODIS_1
RxSBData_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 1/ENCODIS_1 (General Purpose)
Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 1: STSRxD_D_1_1:
This output pin along with STS3RxD_D_1[7:2] and
STS3RxD_D_1_0 function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled ENCODIS_1 (General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 1 (Indirect
Address = 0x2E, 0x80), (Direct Address = 0x2F80).
NOTE:
249
For Product Legacy purposes, this pin is called
ENCODIS_1 because one possible application is to tie
this output pin to an ENCODIS (B3ZS/HDB3 Encoder
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
F26
STS3RxD_D_1_2
DS3/E3/
STS1_Data_OUT_1
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 2/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 1
(DS3/E3/STS1_DATA_OUT_1):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 2: STSRxD_D_1_2:
This output pin along with STS3RxD_D_1[7:3] and
STS3RxD_D_1[1:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 1:
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 1). By default, the data that is output via this
output pin will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_1 signal pin number G26.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_1 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 1 (Indirect Address = 0x2E, 0x01),
(Direct Address = 0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_1 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_1.
250
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
H26
STS3RxD_D_1_3
DS3/E3/
STS1_Data_OUT_5
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 3/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 5
(DS3/E3/STS1_DATA_OUT_5):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 3: STSRxD_D_1_3:
This output pin along with STS3RxD_D_1[7:4] and
STS3RxD_D_1[2:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 5.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 5). By default, the data that is output via this
output pin will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_5 signal pin number F25.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_5 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 5 (Indirect Address = 0x6E, 0x01),
(Direct Address = 0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_5 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_5.
251
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
J26
SIGNAL NAME
I/O
STS3RxD_D_1_4
DS3/E3/
STS1_Data_OUT_9
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 4/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 9
(DS3/E3/STS1_DATA_OUT_9):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 4: STSRxD_D_1_4:
This output pin along with STS3RxD_D_1[7:5] and
STS3RxD_D_1[3:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 9.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 9). By default, the data that is being output via
this output pin will be updated upon the rising edge of the DS3/
E3/STS-1_CLK_OUT_9 signal pin number H25.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_9 output signal upon the falling edge of the DS3/
E3/STS1_CLK_9 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 9 (Indirect Address = 0xAE, 0x01), (Direct Address =
0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_9 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_9.
252
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
G26
STS3RxD_D_1_5
DS3/E3/STS1_Clk_OUT_1
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 5/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 1: (DS3/E3/STS1_CLK_OUT_1):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 5: STSRxD_D_1_5:
This output pin along with STS3RxD_D_1[7:6] and
STS3RxD_D_1[4:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 1:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 1).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_1 output pin will be updated upon the rising
edge of this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_1 output signal upon the falling edge of the DS3/
E3/STS1_CLK_1 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 1 (Indirect Address = 0x2E, 0x01), (Direct Address =
0x2F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_1 signal upon the falling edge of DS3/E3/
STS1_CLK_1.
253
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
F25
STS3RxD_D_1_6
DS3/E3/STS1_Clk_OUT_5
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 6/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 5: (DS3/E3/STS1_CLK_OUT_5):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 6: STSRxD_D_1_6:
This output pin along with STS3RxD_D_1_7 and
STS3RxD_D_1[5:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_1.
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 5:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 5).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_5 output pin will be updated upon the rising
edge of this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_5 output signal upon the falling edge of the DS3/
E3/STS1_CLK_5 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 5 (Indirect Address = 0x6E, 0x01), (Direct Address =
0x6F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_5 signal upon the falling edge of DS3/E3/
STS1_CLK_5.
254
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
H25
STS3RxD_D_1_7
DS3/E3/STS1_Clk_OUT_9
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 1 - Output
Data Bus Pin Number 7/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 9: (DS3/E3/STS1_CLK_OUT_9):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 1 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 1) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 7: STSRxD_D_1_7:
This output pin along with STS3RxD_D_1[6:0] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_1.
NOTE: This output pin functions as the MSB (Most Significant
Bit) for the STS-3/STM-1 Receive (Drop) Telecom Bus
Interface - Output Data Bus (Channel 1).
If STS-3/STM-1 Telecom Bus (Channel 1) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 9:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 9).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_9 output pin will be updated upon the rising
edge of this clock output pin.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_9 output signal upon the falling edge of the DS3/
E3/STS1_CLK_9 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 9 (Indirect Address = 0xAE, 0x01), (Direct Address =
0xAF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_9 signal upon the falling edge of DS3/E3/
STS1_CLK_9.
255
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
Y24
SIGNAL NAME
STS3RxD_D_2_0
TxLEV_2
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 0/TxLEV_2 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 0: STSRxD_D_2_0:
This output pin along with STS3RxD_D_2[7:1] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_2.
NOTE: This input pin functions as the LSB (Least Significant
Bit) of the Receive (Drop) Telecom Bus for Channel 2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled TXLEV_2 (General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 2 (TxLEV) within the Line Interface
Drive Register associated with Channel 2 (Indirect Address =
0x3E, 0x80), (Direct Address = 0x3F80).
NOTE:
256
For Product Legacy purposes, this pin is called
TxLEV_2 because one possible application is to tie this
output pin to a TxLEV (Transmit Line Build-Out
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
Y23
SIGNAL NAME
STS3RxD_D_2_1
ENCODIS_2
RxSBData_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 1/ENCODIS_2 (General Purpose)
Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 1: STSRxD_D_2_1:
This output pin along with STS3RxD_D_2[7:2] and
STS3RxD_D_2_0 function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled ENCODIS_2 (General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 2 (Indirect
Address = 0x3E, 0x80), (Direct Address = 0x3F80).
NOTE:
257
For Product Legacy purposes, this pin is called
ENCODIS_2 because one possible application is to tie
this output pin to an ENCODIS (B3ZS/HDB3 Encoder
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
W24
STS3RxD_D_2_2
DS3/E3/
STS1_Data_OUT_2
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 2/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 1
(DS3/E3/STS1_DATA_OUT_2):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 2: STSRxD_D_2_2:
This output pin along with STS3RxD_D_2[7:3] and
STS3RxD_D_2[1:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 2.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 2). By default, the data that is output via this
output pin will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_2 signal pin number AC25.
For DS3/E3 Applications
For DS3/E3 Applications the XRT94L43 can be configured to
update this output signal upon the falling edge of the DS3/E3/
STS1_CLK_2 signal by setting Bit 2 (DS3/E3/STS1_CLK_OUT
Invert), within the I/O Control Register - Channel 2 (Indirect
Address = 0x3E, 0x01), (Direct Address = 0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_2 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_2.
258
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AC24
STS3RxD_D_2_3
DS3/E3/
STS1_Data_OUT_6
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 3/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 6
(DS3/E3/STS1_DATA_OUT_6):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 3: STSRxD_D_2_3:
This output pin along with STS3RxD_D_2[7:4] and
STS3RxD_D_2[2:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 6.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 6). By default, the data that is output via this pin
will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_6 signal pin number AA22.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_6 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 6 (Indirect Address = 0x7E, 0x01),
(Direct Address = 0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_6 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_6.
259
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AC21
SIGNAL NAME
STS3RxD_D_2_4
DS3/E3/
STS1_Clk_OUT_10
RxSBData_4
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 4/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 10
(DS3/E3/STS1_DATA_OUT_10):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 4: STSRxD_D_2_4:
This output pin along with STS3RxD_D_2[7:5] and
STS3RxD_D_2[3:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 10.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 10). By default, the data that is being output via
the DS3/E3/STS1_DATA_OUT_10 output pin will be updated
upon the rising edge of this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_10 output signal upon the falling edge of the DS3/
E3/STS1_CLK_10 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 10 (Indirect Address = 0xBE, 0x01), (Direct Address =
0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_10 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_10.
260
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AC25
STS3RxD_D_2_5
DS3/E3/STS1_Clk_OUT_2
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 5/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 2: (DS3/E3/STS1_CLK_OUT_2):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 5: STSRxD_D_2_5:
This output pin along with STS3RxD_D_2[7:6] and
STS3RxD_D_2[4:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 2:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 2).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_2 output pin will be updated upon the rising
edge of this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_2 output signal upon the falling edge of the DS3/
E3/STS1_CLK_2 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 2 (Indirect Address = 0x3E, 0x01), (Direct Address =
0x3F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_2 signal upon the falling edge of DS3/E3/
STS1_CLK_2.
261
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AA22
STS3RxD_D_2_6
DS3/E3/STS1_Clk_OUT_6
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 6/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 6: (DS3/E3/STS1_CLK_OUT_6):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 6: STSRxD_D_2_6:
This output pin along with STS3RxD_D_2_7 and
STS3RxD_D_2[5:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_2.
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 6:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 6).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_6 output pin will be updated upon the rising
edge of this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_6 output signal upon the falling edge of the DS3/
E3/STS1_CLK_6 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 6 (Indirect Address = 0x7E, 0x01), (Direct Address =
0x7F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_6 signal upon the falling edge of DS3/E3/
STS1_CLK_6.
262
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AE23
SIGNAL NAME
STS3RxD_D_2_7
DS3/E3/
STS1_Clk_OUT_10
RxSBData_7
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 2 - Output
Data Bus Pin Number 7/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 10: (DS3/E3/STS1_CLK_OUT_10):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 2 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 2) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 7: STSRxD_D_2_7:
This output pin along with STS3RxD_D_2[6:0] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_2.
NOTE: This output pin functions as the MSB (Most Significant
Bit) for the STS-3/STM-1 Receive (Drop) Telecom Bus
Interface - Output Data Bus (Channel 2).
If STS-3/STM-1 Telecom Bus (Channel 2) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 10:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 10).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_10 output pin will be updated upon the rising edge of this output clock signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_10 output signal upon the falling edge of the DS3/
E3/STS1_CLK_10 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 10 (Indirect Address = 0xBE, 0x01), (Direct Address =
0xBF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_10 signal upon the falling edge of DS3/E3/
STS1_CLK_10.
263
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AE21
SIGNAL NAME
STS3RxD_D_3_0
TxLEV_3
RxSBData_0
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 0/TxLEV_3 (General Purpose) Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 0: STSRxD_D_3_0:
This output pin along with STS3RxD_D_3[7:1] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 3. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_3.
NOTE: This input pin functions as the LSB (Least Significant
Bit) of the Receive (Drop) Telecom Bus for Channel 3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled TXLEV_3 (General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 2 (TxLEV) within the Line Interface
Drive Register associated with Channel 3 (Indirect Address =
0x4E, 0x80), (Direct Address = 0x4F80).
NOTE:
264
For Product Legacy purposes, this pin is called
TxLEV_3 because one possible application is to tie this
output pin to a TxLEV (Transmit Line Build-Out
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
AC19
SIGNAL NAME
STS3RxD_D_3_1
ENCODIS_3
RxSBData_1
I/O
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 1/ENCODIS_3 (General Purpose)
Output Pin:
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 1: STSRxD_D_3_1:
This output pin along with STS3RxD_D_3[7:2] and
STS3RxD_D_3_0 function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 3. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled ENCODIS_3 (General Purpose) output Pin:
This output pin can be used as a general purpose output pin.
The state of this output pin can be controlled by writing the
appropriate value into Bit 3 (ENCODIS) within the Line Interface Drive Register associated with Channel 3 (Indirect
Address = 0x4E, 0x80), (Direct Address = 0x4F80).
NOTE:
265
For Product Legacy purposes, this pin is called
ENCODIS_3 because one possible application is to tie
this output pin to an ENCODIS (B3ZS/HDB3 Encoder
Disable) input pin from one of Exar's XRT73L0X/
XRT75L0X DS3/E3/STS-1 LIU devices. However, this
output pin, and the corresponding register bit can be
used for any purpose.
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AB21
STS3RxD_D_3_2
DS3/E3/
STS1_Data_OUT_3
RxSBData_2
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 2/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 3
(DS3/E3/STS1_DATA_OUT_3):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 2: STSRxD_D_3_2:
This output pin along with STS3RxD_D_3[7:3] and
STS3RxD_D_3[1:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 3. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 3.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 3). By default, the data that is output via this pin
will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_3 signal pin number AB20.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_3 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 3 (Indirect Address = 0x4E, 0x01),
(Direct Address = 0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_3 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_3.
266
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AE18
STS3RxD_D_3_3
DS3/E3/
STS1_Data_OUT_7
RxSBData_3
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 3/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 7
(DS3/E3/STS1_DATA_OUT_7):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 3: STSRxD_D_3_3:
This output pin along with STS3RxD_D_3[7:4] and
STS3RxD_D_3[2:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 3. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 6.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 7). By default, the data that is output via this pin
will be updated upon the rising edge of the DS3/E3/
STS1_CLK_OUT_7 signal pin number AD19.
For DS3/E3 Applications
The XRT94L43 can be configured to update this output signal
upon the falling edge of the DS3/E3/STS1_CLK_7 signal by
setting Bit 2 (DS3/E3/STS1_CLK_OUT Invert), within the I/O
Control Register - Channel 7 (Indirect Address = 0x8E, 0x01),
(Direct Address = 0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_7 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_7.
267
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AE15
STS3RxD_D_3_4
DS3/E3/
STS1_Data_OUT_11
RxSBData_4
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 4/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface output Pin - Channel 11
(DS3/E3/STS1_DATA_OUT_11):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 4: STSRxD_D_3_4:
This output pin along with STS3RxD_D_3[7:5] and
STS3RxD_D_3[3:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 3. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/
E3/STS1_DATA_OUT Line Interface Data output Pin Channel 1.
This pin outputs single-rail DS3, E3 or STS-1 data to a DS3/E3/
STS-1 LIU IC. This output pin should be connected to the
TPOS/TDATA input of the DS3/E3/STS-1 LIU IC (corresponding to Channel 11). By default, the data that is being output via
this output pin will be updated upon the rising edge of the DS3/
E3/STS-1_CLK_OUT_11 signal pin number AB15.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_11 output signal upon the falling edge of the DS3/
E3/STS1_CLK_11 signal by setting Bit 2 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 11 (Indirect Address = 0xCE, 0x01), (Direct Address =
0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_11 signal upon the falling edge of DS3/E3/
STS1_CLK_OUT_11.
268
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AB20
STS3RxD_D_3_5
DS3/E3/STS1_Clk_OUT_3
RxSBData_5
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 5/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 3: (DS3/E3/STS1_CLK_OUT_3):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 5: STSRxD_D_3_5:
This output pin along with STS3RxD_D_3[7:6] and
STS3RxD_D_3[4:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 3. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 3:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 3).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_3 output pin will be updated upon the rising
edge of this output pin.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_3 output signal upon the falling edge of the DS3/
E3/STS1_CLK_3 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 3 (Indirect Address = 0x4E, 0x01), (Direct Address =
0x4F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_3 signal upon the falling edge of DS3/E3/
STS1_CLK_3.
269
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AD19
STS3RxD_D_3_6
DS3/E3/STS1_Clk_OUT_7
RxSBData_6
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 6/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 7: (DS3/E3/STS1_CLK_OUT_7):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 6: STSRxD_D_3_6:
This output pin along with STS3RxD_D_3_7 and
STS3RxD_D_3[5:0] function as the STS-3/STM-1 Receive
(Drop) Telecom Bus - Output Data Bus for Channel 3. The
STS-3/STM-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS3RxD_CLK_3.
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 7:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 7).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_7 output pin will be updated upon the rising
edge of this output pin.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_6 output signal upon the falling edge of the DS3/
E3/STS1_CLK_7 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 7 (Indirect Address = 0x8E, 0x01), (Direct Address =
0x8F01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_7 signal upon the falling edge of DS3/E3/
STS1_CLK_7.
270
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
PIN #
SIGNAL NAME
I/O
AB15
STS3RxD_D_3_7
DS3/E3/STS1_Clk_OUT_11
RxSBData_7
O
SIGNAL
TYPE
DESCRIPTION
CMOS Receive STS-3/STM-1 Telecom Bus - Channel 3 - Output
Data Bus Pin Number 7/DS3/E3 Framer or Transmit STS-1
TOH Processor block line interface clock output Pin Channel 11: (DS3/E3/STS1_CLK_OUT_11):
The function of this output pin depends upon whether or not
theSTS-3/STM-1 Telecom Bus Interface, associated with
Channel 3 is enabled.
If STS-3/STM-1 Telecom Bus (Channel 3) has been enabled
- STS-3/STM-1 Receive Telecom Bus - Output Data bus Pin
Number 7: STSRxD_D_3_7:
This output pin along with STS3RxD_D_3[6:0] function as the
STS-3/STM-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 3. The STS-3/STM-1 Telecom Bus Interface will
update the data via this output upon the rising edge of
STS3RxD_CLK_3.
NOTE: This output pin functions as the MSB (Most Significant
Bit) for the STS-3/STM-1 Receive (Drop) Telecom Bus
Interface - Output Data Bus (Channel 3).
If STS-3/STM-1 Telecom Bus (Channel 3) is disabled - DS3/
E3/STS1_CLK_OUT Line Interface Clock output Pin Channel 11:
This pin outputs a DS3, E3 or STS-1 rate clock signal to a DS3/
E3/STS-1 LIU IC. This output pin should be connected to the
TxCLK input of the DS3/E3/STS-1 LIU IC (corresponding to
Channel 11).
By default, the data, which is being output via the DS3/E3/
STS1_DATA_OUT_11 output pin will be updated upon the rising edge of this clock output signal.
For DS3/E3 Applications
The XRT94L43 can be configured to update the DS3/E3/
STS1_DATA_11 output signal upon the falling edge of the DS3/
E3/STS1_CLK_11 signal by setting Bit 0 (DS3/E3/
STS1_CLK_OUT Invert), within the I/O Control Register Channel 11 (Indirect Address = 0xCE, 0x01), (Direct Address =
0xCF01) to a "1".
For STS-1 Applications
The XRT94L43 can not be configured to update the DS3/E3/
STS1_DATA_OUT_11 signal upon the falling edge of DS3/E3/
STS1_CLK_11.
271
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
Y5
RxTOHClk
O
CMOS
Receive TOH Output Port - Clock Output:
This output pin, along with RxTOH, RxTOHValid and RxTOHFrame function as the Receive TOH Output Port:
The Receive TOH Output Port is used to obtain the value of the TOH
Bytes, within the incoming STS-12/STM-4 signal.
This output pin provides a clock signal.
If the RxTOHValid output pin is "High", then the contents of the TOH bytes
within the incoming STS-12 data-stream, will be serially output via the
RxTOH output. This data will be updated upon the falling edge of this clock
signal. Therefore, it is advisable to sample the data (at the RxTOH output
pin) upon the rising edge of this clock output signal.
W5
RxTOHValid
O
CMOS
Receive TOH Output Port - TOH Valid (or READY) indicator:
This output pin, along with RxTOH and RxTOHFrame function as the
Receive TOH Output Port.
This output pin will toggle "High" whenever valid TOH data is being output
via the RxTOH output pin.
V6
RxTOH
O
CMOS
Receive TOH Output port - Output Pin:
This output pin, along with RxTOHClk, RxTOHValid and RxTOHFrame
function as the Receive TOH Output port.
All TOH data, that resides within the incoming STS-12 data-stream will be
output via this output pin.
The RxTOHValid output pin will toggle "High", coincident with anytime a bit
(from the Receive STS-12 TOH data) is being output via this output pin.
The RxTOHFrame output pin will pulse "High" (for eight periods of RxTOHClk) coincident to when the A1 byte is being output via this output pin.
Data, on this output pin, is updated upon the falling edge of RxTOHClk.
W6
RxTOHFrame
O
CMOS
Receive TOH Output Port - STS-12/STM-4 Frame Indicator:
This output pin, along with the RxTOHClk, RxTOHValid and RxTOH output
pins function as the Receive TOH Output port.
This output pin will pulse "High", for one period of RxTOHClk, one RxTOHClk period prior to the very first TOH bit (of a given STS-12 frame) being
output via the RxTOH output pin.
W2
RxLDCCVAL
O
CMOS
Receive - Line DCC Output Port - DCC Value Indicator Output Pin:
This output pin, along with the RxTOHClk and the RxLDCC output pins
function as the Receive Line DCC output port of the XRT94L43.
This output pin pulses "High" coincident to when the Receive Line DCC
output port outputs a DCC bit via the RxLDCC output pin.
This output pin is updated upon the falling edge of RxTOHClk.
The Line DCC HDLC Controller circuitry that is interfaced to this output
pin, the RxLDCC and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
2. Anytime the Line DCC HDLC circuitry samples this output pin being
"High", it should sample and latch the data on the RxLDCC output pin (as
a valid Line DCC bit) into the Line DCC HDLC circuitry.
272
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
W3
RxLDCC
O
CMOS
Receive - Line DCC Output Port - Output Pin:
This output pin, along with RxLDCCVAL and the RxTOHClk output pins
function as the Receive Line DCC output port of the XRT94L43.
This pin outputs the contents of the Line DCC (e.g., the D4, D5, D6, D7,
D8, D9, D10, D11 and D12 bytes), within the incoming STS-12 datastream. The Receive Line DCC Output port will assert the RxLDCCVAL
output pin, in order to indicate that the data, residing on the RxLDCC output pin is a valid Line DCC byte. The Receive Line DCC output port will
update the RxLDCCVAL and the RxLDCC output pins upon the falling
edge of the RxTOHClk output pin. The Line DCC HDLC circuitry that is
interfaced to this output pin, the RxLDCCVAL and the RxTOHClk pins is
suppose to do the following.
1. It should continuously sample and monitor the state of the RxLDCCVAL
output pin upon the rising edge of RxTOHClk.
2. Anytime the Line DCC HDLC circuitry samples the RxLDCCVAL output
pin "High", it should sample and latch the contents of this output pin (as a
valid Line DCC bit) into the Line DCC HDLC circuitry.
Y1
RxE1F1E2FP
O
CMOS
Receive - Order-Wire Output Port - Frame Boundary Indicator:
This output pin, along with RxE1F1E2, RxE1F1E2Val and the RxTOHClk
output pins function as the Receive Order-Wire Output port of the
XRT94L43.
This output pin pulses "High" (for one period of RxTOHClk) coincident to
when the very first bit (of the E1 byte) is being output via the RxE1F1E2
output pin.
Y2
RxE1F1E2
O
CMOS
Receive - Order-Wire Output Port - Output Pin:
This output pin, along with RxE1F1E2Val, RxE1F1F2FP, and the RxTOHClk output pins function as the Receive Order-Wire Output Port of the
XRT94L43.
This pin outputs the contents of the Order-Wire bytes (e.g., the E1, F1 and
E2 bytes) within the incoming STS-12 data-stream.
The Receive Order-Wire Output port will pulse the RxE1F1E2FP output
pin "High" (for one period of RxTOHClk) coincident to when the very first
bit (of the E1 byte) is being output via the RxE1F1E2 output pin. Additionally, the Receive Order-Wire Output port will also assert the RxE1F1E2Val
output pin, in order to indicate that the data, residing on the RxE1F1E2
output pin is a valid Order-Wire byte.
The Receive Order-Wire output port will update the RxE1F1E2Val, the
RxE1F1E2FP and the RxE1F1E2 output pins upon the falling edge of the
RxTOHClk output pin.
The Receive Order-Wire circuitry that is interfaced to this output pin, and
the RxE1F1E2Val, the RxE1F1E2 and the RxTOHClk pins is suppose to
do the following;
1. It should continuously sample and monitor the state of the
RxE1F1E2Val and RxE1F1E2FP output pins upon the rising edge of
RxTOHClk.
2. Anytime the Order-wire circuitry samples the RxE1F1E2Val and
RxE1F1E2FP output pins "High", it should begin to sample and latch the
contents of this output pin (as a valid Order-Wire bit) into the Order-Wire
circuitry.
3. The Order-Wire circuitry should continue to sample and latch the contents of the output pin until the RxE1F2E2Val output pin is sampled "Low".
273
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
AB5
RxSDCC
O
CMOS
Receive - Section DCC Output Port - Output Pin:
This output pin, along with RxSDCCVAL and the RxTOHClk output pins
function as the Receive Section DCC output port of the XRT94L43.
This pin outputs the contents of the Section DCC (e.g., the D1, D2 and D3
bytes), within the incoming STS-12 data-stream. The Receive Section
DCC Output port will assert the RxSDCCVAL output pin, in order to indicate that the data, residing on the RxSDCC output pin is a valid Section
DCC byte. The Receive Section DCC output port will update the RxSDCCVAL and the RxSDCC output pins upon the falling edge of the RxTOHClk
output pin. The Section DCC HDLC circuitry that is interfaced to this output
pin, the RxSDCCVAL and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of the RxSDCCVAL
output pin upon the rising edge of RxTOHClk.
2. Anytime the Section DCC HDLC circuitry samples the RxSDCCVAL output pin "High", it should sample and latch the contents of this output pin
(as a valid Section DCC bit) into the Section DCC HDLC circuitry.
AA5
RxSDCCVAL
O
CMOS
Receive - Section DCC Output Port - DCC Value Indicator Output Pin:
This output pin, along with the RxTOHClk and the RxSDCC output pins
function as the Receive Section DCC output port of the XRT94L43.
This output pin pulses "High" coincident to when the Receive Section DCC
output port outputs a DCC bit via the RxSDCC output pin.
This output pin is updated upon the falling edge of RxTOHClk.
The Section DCC HDLC Controller circuitry that is interfaced to this output
pin, the RxSDCC and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
2. Anytime the Section DCC HDLC circuitry samples this output pin being
"High", it should sample and latch the data on the RxSDCC output pin (as
a valid Section DCC bit) into the Section DCC HDLC circuitry.
W4
RxE1F1E2VAL
O
CMOS
Receive - Order Wire Output Port - E1F1E2 Value Indicator Output
Pin:
This output pin, along with the RxTOHClk, RxE1F1E2FP, RxE1F1E2 and
RxTOHClk output pins function as the Receive - Order Wire Output Port of
the XRT94L43.
This output pin pulses "High" coincident to when the Receive - Order Wire
output port outputs the contents of an E1, F1 or E2 byte, via the
RxE1F1E2 output pin.
This output pin is updated upon the falling edge of RxTOHClk.
The Receive Order-Wire circuitry, that is interfaced to this output pin, the
RxE1F1E2 and the RxTOHClk pins is suppose to do the following.
1. It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
2. Anytime the Receive Order-Wire circuitry samples this output pin being
"High", it should sample and latch the data on the RxE1F1E2 output pin
(as a valid Order-wire bit) into the Receive Order-Wire circuitry.
274
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
B8
B4
AA3
AE3
C6
A1
AB3
AE4
C5
B7
AC3
AF3
A8
A3
Y3
AD3
RxPOH_0
RxPOH_1
RxPOH_2
RxPOH_3
RxPOH_4
RxPOH_5
RxPOH_6
RxPOH_7
RxPOH_8
RxPOH_9
RxPOH_10
RxPOH_11
RxPOH_12
RxPOH_13
RxPOH_14
RxPOH_15
O
CMOS
Receive SONET POH Processor Block - Path Overhead Output Port Output Pin:
These output pins, along with the RxPOHClk_n, RxPOHFrame_n and
RxPOHValid_n function as the Receive SONET POH Processor block POH Output port.
These pins serially output the POH data that have been received by each
of the Receive SONET POH Processor blocks (via the incoming STS-12
data-stream). Each bit, within the POH bytes is updated (via these output
pins) upon the falling edge of RxPOHClk_n. As a consequence, external
circuitry receiving this data, should sample this data upon the rising edge
of RxPOHClk_n.
B9
B5
AA4
AA8
B6
C4
AB4
AE5
E7
A5
AC4
AB8
A9
D6
Y4
AD4
RxPOHClk_0
RxPOHClk_1
RxPOHClk_2
RxPOHClk_3
RxPOHClk_4
RxPOHClk_5
RxPOHClk_6
RxPOHClk_7
RxPOHClk_8
RxPOHClk_9
RxPOHClk_10
RxPOHClk_11
RxPOHClk_12
RxPOHClk_13
RxPOHClk_14
RxPOHClk_15
O
CMOS
Receive SONET POH Processor Block - Path Overhead Output Port Clock Output Signal:
These output pins, along with RxPOH_n, RxPOHFrame_n and
RxPOHValid_n function as the Receive SONET POH Processor block POH Output Port.
These output pins function as the Clock Output signals for the Receive
SONET POH Processor block - POH Output Port. The RxPOH_n,
RxPOHFrame_n and RxPOHValid_n output pins are updated upon the
falling edge of this clock signal. As a consequence, the external circuitry
should sample these signals upon the rising edge of this clock signal.
275
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
B3
C3
AB1
AF1
D4
F7
AC1
AC5
F5
C7
AD1
AD5
F8
E4
AA1
AE1
RxPOHFrame_0
RxPOHFrame_1
RxPOHFrame_2
RxPOHFrame_3
RxPOHFrame_4
RxPOHFrame_5
RxPOHFrame_6
RxPOHFrame_7
RxPOHFrame_8
RxPOHFrame_9
RxPOHFrame_10
RxPOHFrame_11
RxPOHFrame_12
RxPOHFrame_13
RxPOHFrame_14
RxPOHFrame_15
O
CMOS
DESCRIPTION
Receive SONET POH Processor Block - Path Overhead Output Port Frame Boundary Indicator:
These output pins, along with the RxPOH_n, RxPOHClk_n and
RxPOHValid_n output pins function as the Receive SONET POH Processor Block - Path Overhead Output Port.
These output pins will pulse "High" coincident with the very first POH byte
(J1), of a given STS-1 frame, is being output via the corresponding
RxPOH_n output pin.
276
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REV. 1.0.2
RECEIVE TRANSPORT OVERHEAD INTERFACE
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
E6
D3
AB2
AF2
D5
A4
AC2
AC6
A2
C9
AD2
AC7
C8
E5
AA2
AE2
RxPOHValid_0
RxPOHValid_1
RxPOHValid_2
RxPOHValid_3
RxPOHValid_4
RxPOHValid_5
RxPOHValid_6
RxPOHValid_7
RxPOHValid_8
RxPOHValid_9
RxPOHValid_10
RxPOHValid_11
RxPOHValid_12
RxPOHValid_13
RxPOHValid_14
RxPOHValid_15
O
CMOS
Receive SONET POH Processor Block - Path Overhead Output Port Valid POH Data Indicator:
These output pins, along with RxPOH_n, RxPOHClk_n and
RxPOHFrame_n function as the Receive SONET POH Processor block Path Overhead Output port.
These output pins will toggle "High" coincident with when valid POH data
is being output via the RxPOH_n output pins. This output is updated upon
the falling edge of RxPOHClk_n. Hence, external circuitry should sample
these signals upon rising edge of RxPOHClk_n.
AA7
LOF
8kHz_OUT
O
CMOS
Receive STS-12 LOF (Loss of Frame) Indicator/8kHz Clock Output:
The function of this output pin depends upon whether or not the 8kHz
Clock Generation feature has been enabled.
8kHZ Clock Generation Feature - not enabled (Normal Mode) - The
STS-12 Loss of Frame Indicator Output:
This output pin indicates whether or not the Receive STS-12 TOH Processor block (within the device) is declaring the LOF condition.
"Low" - Indicates that the Receive STS-12 TOH Processor block is NOT
currently declaring the LOF condition.
"High" - Indicates that the Receive STS-12 TOH Processor block is currently declaring the LOF condition.
8kHz Clock Generation Feature - Enabled - 8kHz Clock Output:
If this feature is enabled, the XRT94L43 will be configured to derive and
generate 8kHz clock output signals, from a particular STS-1 signal that is
being received via one of the 12 Receive STS-1 TOH/POH Processor
blocks.
DESCRIPTION
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278
XRT94L43
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
A19
SIGNAL NAME
GPIO_0
ExtLOS_0
SSE_CLK
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface - Egress - Clock I/O:
The function of this input pin depends on whether or not Channel 0 of
the DS3/E3 Framer Block is enabled or whether or not the Slow-Speed
Interface is enabled.
GPIO_0 (DS3/E3 Framer Block - Channel 0 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin.
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit 0 (GPIO_DIR_0), within the
Operation General Purpose Input/Output Direction Register - 0 (Indirect
Address = 0x00, 0x4B), (Direct Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 0 (GPIO_0) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 0 (GPIO_0) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x047).
ExtLOS_0 (DS3/E3 Framer Block - Channel 0 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 0. This input pin is intended to be
connected to a LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSE_CLK (Slow-Speed Interface - Egress Port is enabled):
If the Slow-Speed Interface - Egress (SSE) Port is enabled, then this pin
will function as either the SSE_CLK output pin or the SSE_CLK input
pin.
If the user configures the SSE port to operate in the "Insert" Mode, then
the SSE port will be configured to replace any "user-selected" Egress
DS3/E3 or STS-1 data-stream (within the XRT94L43 device) with the
data that is applied to the SSE_POS and SSE_NEG input pins. More
specifically, in the Insert Mode, this pin will function as the SSE_CLK
input pin. In this case, the SSE port will sample and latch the contents of
the SSE_POS and SSE_NEG input pins upon the falling edge of this
input clock signal.
If the user configures the SSE port to operate in the "Extract" Mode, then
the SSE port will output any "user-selected" Egress DS3/E3 or STS-1
signal (within the XRT94L43 device) via this output port. More specifically, in the "Extract Mode", this pin will function as the SSE_CLK output
pin. In this case, the SSE port will output the data (via the SSE_POS
and SSE_NEG output pins) upon the rising edge of this output clock signal.
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GENERAL PURPOSE INPUT/OUTPUT
PIN #
D22
SIGNAL NAME
GPIO_1
ExtLOS_1
SSI_CLK
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface - Ingress - Clock I/O:
The function of this input pin depends on whether or not Channel 1 of
the DS3/E3 Framer Block is enabled, or whether or not the Slow Speed
Interface is enabled.
GPIO_1 (DS3/E3 Framer Block - Channel 1 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin.
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit 1 (GPIO_DIR_1), within the
Operation General Purpose Input/Output Direction Register - 0 (Indirect
Address = 0x00, 0x4B), (Direct Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 1 (GPIO_1) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 1 (GPIO_1) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_1 (DS3/E3 Framer Block - Channel 1 is enabled), SlowSpeed Interface is Disabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 1. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSI_CLK (Slow-Speed Interface - Ingress Port is enabled):
If the Slow-Speed Interface -Ingress (SSI) Port is enabled, then this pin
will function as either the SSI_CLK output pin or the SSI_CLK input pin.
If the user configures the SSI port to operate in the "Insert" Mode, then
the SSI port will be configured to replace any "user-selected" Ingress
DS3/E3 or STS-1 data-stream (within the XRT94L43 device) with the
data that is applied to the SSI_POS and SSI_NEG input pins. More specifically, in the "Insert" Mode, this pin will function as the "SSI_CLK" input
pin. In this case, the SSI port will sample and latch the contents of the
SSI_POS and SSI_NEG input pins upon the falling edge of this input
clock signal.
If the user configures the SSI port to operate in the "Extract" Mode, then
the SSI port will output any "user-selected" Ingress DS3/E3 or STS-1
signal (within the XRT94L43 device) via this output port. More specifically, in the "Extract Mode", this pin will function as the SSI_CLK output
pin. In this case, the SSI port will output the data (via the SSI_POS and
SSI_NEG output pins) upon the rising edge of this output clock signal.
280
XRT94L43
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
W25
SIGNAL NAME
GPIO_2
ExtLOS_2
SSI_POS
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface -Ingress - Positive Data I/O:
The function of this input pin depends on whether or not Channel 2 of
the DS3/E3 Framer Block is enabled..
GPIO_2 (DS3/E3 Framer Block - Channel 2 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 2 (GPIO_DIR_2), within the Operation General Purpose Input/
Output Direction Register - 0 (Indirect Address = 0x00, 0x4B), (Direct
Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 2 (GPIO_2) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 2 (GPIO_2) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_2 (DS3/E3 Framer Block - Channel 2 is enabled, SlowSpeed Interface is Disabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 2. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSI_POS (Slow-Speed Interface - Ingress Port is enabled):
If the Slow-Speed Interface - Ingress (SSI) Port is enabled, then this pin
will function as either the SSI_POS output pin or the SSI_POS input pin.
If the user configures the SSI port to operate in the "Insert" Mode, then
the SSI port will be configured to replace any "user-selected" Ingress
DS3/E3 or STS-1 data-stream (within the XRT94L43 device) with the
data that is applied to the SSI_POS and SSI_NEG input pins. More specifically, in the "Insert" Mode, this pin will function as the SSI_POS input
pin. In this case, the SSI port will sample and latch the contents of this
input pin (along with SSI_NEG, in a Dual-Rail Manner) upon the falling
edge of the SSI_CLK input clock signal.
If the user configures the SSI port to operate in the "Extract" Mode, then
the SSI port will output any "user-selected" Ingress DS3/E3 or STS-1
signal (within the XRT94L43 device) via this output port. More specifically, in the "Extract Mode", this pin will function as the SSI_POS output
pin. In this case, the SSI port will output data via this pin, along with the
SSI_NEG output pin (in a Dual-Rail Manner) upon the rising edge of the
SSI_CLK output signal.
281
XRT94L43
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
AC22
SIGNAL NAME
GPIO_3
ExtLOS_3
SSE_NEG
I/O
I/O
SIGNAL
TYPE
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output Pin or External LOS Input Pin/SlowSpeed Interface - Egress - Negative Data I/O:
The function of this input pin depends on whether or not Channel 3 of
the DS3/E3 Framer Block is enabled, or wheter or not the Slow Speed
Interface is enabled.
GPIO_3 (DS3/E3 Framer Block - Channel 3 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin.
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit 3 (GPIO_DIR_3), within the
Operation General Purpose Input/Output Direction Register - 0 (Indirect
Address = 0x00, 0x4B), (Direct Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 3 (GPIO_3) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 3 (GPIO_3) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_3 (DS3/E3 Framer Block - Channel 3 is enabled, SlowSpeed Interface is Disabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 3. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
SSE_NEG (Slow-Speed Interface - Egress Port is enabled):
If the Slow-Speed Interface - Egress (SSE) Port is enabled, then this pin
will function as either the SSE_NEG output pin or the SSE_NEG input
pin.
If the user configures the SSE port to operate in the "Insert" Mode, then
the SSE port will be configured to replace any "user-selected" Egress
DS3/E3 or STS-1 data-stream (within the XRT94L43 device) with the
data that is applied to the SSE_POS and SSE_NEG input pins. More
specifically, in the "Insert" Mode, this pin will function as the SSE_NEG
input pin. In this case, the SSE port will sample and latch the contents of
this input pin (along with SSE_POS, in a Dual-Rail Manner) upon the
falling edge of the SSE_CLK input clock signal.
If the user configures the SSE port to operate in the "Extract" Mode, then
the SSE port will output any "user-selected" Egress DS3/E3 or STS-1
signal (within the XRT94L43 device) via this output port. More specifically, in the "Extract Mode" this pin will function as the SSE_NEG output
pin. In this case, the SSE port will output data via this pin, along with the
SSE_POS output pin (in a Dual-Rail Manner) upon the rising edge of the
SSE_CLK output signal
282
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
A23
GPIO_4
ExtLOS_4
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 4 of
the DS3/E3 Framer Block is enabled.
GPIO_4 (DS3/E3 Framer Block - Channel 4 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 4 (GPIO_DIR_4), within the Operation General Purpose Input/
Output Direction Register - 0 (Indirect Address = 0x00, 0x4B), (Direct
Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 4 (GPIO_4) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 4 (GPIO_4) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_4 (DS3/E3 Framer Block - Channel 4 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 4. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
F24
GPIO_5
ExtLOS_5
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 5 of
the DS3/E3 Framer Block is enabled.
GPIO_5 (DS3/E3 Framer Block - Channel 5 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 5 (GPIO_DIR_5), within the Operation General Purpose Input/
Output Direction Register - 0 (Indirect Address = 0x00, 0x4B), (Direct
Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 5 (GPIO_5) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 5 (GPIO_5) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_5 (DS3/E3 Framer Block - Channel 5 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 1. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
283
XRT94L43
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REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
W21
GPIO_6
ExtLOS_6
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 6 of
the DS3/E3 Framer Block is enabled.
GPIO_6 (DS3/E3 Framer Block - Channel 6 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 6 (GPIO_DIR_6), within the Operation General Purpose Input/
Output Direction Register - 0 (Indirect Address = 0x00, 0x4B), (Direct
Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 6 (GPIO_6) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 6 (GPIO_6) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_6 (DS3/E3 Framer Block - Channel 6 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 6. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
AE22
GPIO_7
ExtLOS_7
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 7 of
the DS3/E3 Framer Block is enabled.
GPIO_7 (DS3/E3 Framer Block - Channel 7 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 7 (GPIO_DIR_7), within the Operation General Purpose Input/
Output Direction Register - 0 (Indirect Address = 0x00, 0x4B), (Direct
Address = 0x014B).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 7 (GPIO_7) within the Operation General Purpose Input/Output Register - Byte 0 (Indirect Address = 0x00, 047),
(Direct Address = 0x0147).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 7 (GPIO_7) within the Operation
General Purpose Input/Output Register - Byte 0 (Indirect Address =
0x00, 0x47), (Direct Address = 0x0147).
ExtLOS_7 (DS3/E3 Framer Block - Channel 7 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 7. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
284
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
A25
GPIO_8
ExtLOS_8
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 8 of
the DS3/E3 Framer Block is enabled.
GPIO_8 (DS3/E3 Framer Block - Channel 8 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 0 (GPIO_DIR_8), within the Operation General Purpose Input/
Output Direction Register - 1 (Indirect Address = 0x00, 0x4A), (Direct
Address = 0x014A).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 0 (GPIO_8) within the Operation General Purpose Input/Output Register - Byte 1 (Indirect Address = 0x00, 046),
(Direct Address = 0x0146).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 0 (GPIO_8) within the Operation
General Purpose Input/Output Register - Byte 1 (Indirect Address =
0x00, 0x46), (Direct Address = 0x0146).
ExtLOS_8 (DS3/E3 Framer Block - Channel 8 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 8. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
H24
GPIO_9
ExtLOS_9
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 9 of
the DS3/E3 Framer Block is enabled.
GPIO_9 (DS3/E3 Framer Block - Channel 8 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 1 (GPIO_DIR_9), within the Operation General Purpose Input/
Output Direction Register - 1 (Indirect Address = 0x00, 0x4A), (Direct
Address = 0x014A).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 1 (GPIO_9) within the Operation General Purpose Input/Output Register - Byte 1 (Indirect Address = 0x00, 046),
(Direct Address = 0x014A).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 1 (GPIO_9) within the Operation
General Purpose Input/Output Register - Byte 1 (Indirect Address =
0x00, 0x46), (Direct Address = 0x0146).
ExtLOS_9 (DS3/E3 Framer Block - Channel 9 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 9. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
285
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
GENERAL PURPOSE INPUT/OUTPUT
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
AB23
GPIO_10
ExtLOS_10
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 10 of
the DS3/E3 Framer Block is enabled.
GPIO_10 (DS3/E3 Framer Block - Channel 10 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 2 (GPIO_DIR_10), within the Operation General Purpose Input/
Output Direction Register - 1 (Indirect Address = 0x00, 0x4A), (Direct
Address = 0x014A).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 2 (GPIO_10) within the Operation General
Purpose Input/Output Register - Byte 1 (Indirect Address = 0x00, 046),
(Direct Address = 0x0146).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 2 (GPIO_10) within the Operation General Purpose Input/Output Register - Byte 1 (Indirect Address =
0x00, 0x46), (Direct Address = 0x0146).
ExtLOS_10 (DS3/E3 Framer Block - Channel 10 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 10. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
AD15
GPIO_11
ExtLOS_11
I/O
TTL/
CMOS
General Purpose Input/Output Pin or External LOS Input Pin:
The function of this input pin depends on whether or not Channel 11 of
the DS3/E3 Framer Block is enabled.
GPIO_11 (DS3/E3 Framer Block - Channel 11 is disabled).
If the DS3/E3 Framer Block is disabled, then this pin will function as a
General Purpose Input/Output pin. This input pin can be configured to
function as either an input or output pin by writing the appropriate value
into Bit 3 (GPIO_DIR_11), within the Operation General Purpose Input/
Output Direction Register - 1 (Indirect Address = 0x00, 0x4A), (Direct
Address = 0x014A).
When configured as an input pin, the state of this pin can be monitored
by reading the state of Bit 3 (GPIO_11) within the Operation General
Purpose Input/Output Register - Byte 1 (Indirect Address = 0x00, 046),
(Direct Address = 0x0146).
When configured as an output pin, the state of this pin can be controlled
by writing the appropriate value into Bit 3 (GPIO_11) within the Operation General Purpose Input/Output Register - Byte 1 (Indirect Address =
0x00, 0x46), (Direct Address = 0x0146).
ExtLOS_11 (DS3/E3 Framer Block - Channel 11 is enabled).
If the DS3/E3 Framer Block is enabled, then this pin will function as the
External LOS Input pin for Channel 11. This input pin is intended to be
connected to an LOS output pin of a DS3/E3 LIU IC.
If this input pin is pulled "High", then the corresponding DS3/E3 Framer
block will automatically declare an LOS condition.
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CLOCK INPUTS
PIN #
SIGNAL NAME
I/O
SIGNAL
TYPE
DESCRIPTION
P23
REFCLK34
I
TTL
E3 Reference Clock Input for the Jitter Attenuator within the DS3/E3
Mapper Block:
Apply a signal with a frequency of 34.368±20ppm to this input pin.
This input pin functions as the timing reference for the DS3/E3/STS-1 Jitter
Attenuator (within the DS3/E3 Mapper block) for E3 applications.
P24
REFCLK51
I
TTL
STS-1 Reference Clock Input for the Jitter Attenuator within the DS3/
E3 Mapper Block:
The user is expected to apply a signal with a frequency of
51.84MHz±20ppm to this input pin. This input pin functions as the timing
reference for the DS3/E3/STS-1 Jitter Attenuator (within the DS3/E3 Mapper block) for STS-1 applications.
P25
REFCLK45
I
TTL
DS3 Reference Clock Input for the Jitter Attenuator within the DS3/E3
Mapper Block:
Apply a signal with a frequency of 44.736±20ppm to this input pin.
This input pin functions as the timing reference for the DS3/E3/STS-1 Jitter
Attenuator (within the DS3/E3 Mapper block) for DS3 applications.
BOUNDARY SCAN
PIN #
SIGNAL NAME
SIGNAL
TYPE
I/O
B2
TDO
O
C2
TDI
I
B1
TRST
I
G5
TCK
I
H6
TMS
I
DESCRIPTION
MISCELLANEOUS PINS
PIN #
L21
SIGNAL NAME
Test Mode
I/O
I
SIGNAL
TYPE
DESCRIPTION
Test Mode Input Pin:
Tie this input pin "Low" for normal operation.
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POWER SUPPLY PINS
PIN #
SIGNAL
TYPE
SIGNAL NAME
I/O
DESCRIPTION
N6
N5
P3
R3
Analog VDD Pins
(Transmitter)
_
P4
Analog VDD Pins
(PLL)
PLL Analog Power Supply Voltage = 3.3V Nominal
L1
Analog VDD Pins
(Receiver)
Receiver Analog Power Supply Voltage = 3.3V Nominal
Digital VDD
Digital Power Supply Voltage = 3.3V Nominal
VDD = 3.3V
U6
R15
R16
P15
P16
N15
N16
M15
M16
L15
L16
AA10
AA11
AA9
F10
F11
F9
K21
Transmitter Analog Power Supply Voltage = 3.3V Nominal
VDD (2.5V)
P6
M4
N21
N26
P22
Analog VDD Pins
(PLL)
PLL Analog Power Supply Voltage = 2.5 V Nominal
R6
Analog VDD Pins
(Transmitter)
Transmitter Analog Power Supply Voltage = 2.5 V Nominal
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POWER SUPPLY PINS
SIGNAL NAME
L6
Analog VDD Pins
(Receiver)
Receiver Analog Power Supply Voltage = 2.5 V Nominal
Digital VDD
Digital Power Supply Voltage = 2.5 V Nominal
U21
R11
R12
P11
P12
N11
N12
M11
M12
L11
L12
K6
F16
F17
F18
AA16
AA17
AA18
I/O
SIGNAL
TYPE
PIN #
DESCRIPTION
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GROUND
PIN #
SIGNAL NAME
Y6
Y21
T11
T12
T13
T14
T15
T16
R13
R14
P13
P14
N13
N14
M13
M14
L13
L14
G6
G21
F6
F21
F13
F14
AA6
AA21
AA13
AA14
GND
N3
N4
M3
R5
P5
T6
L2
M6
M21
N24
N25
N22
N23
P21
Analog Ground
I/O
_
SIGNAL
TYPE
DESCRIPTION
Ground
NO CONNECTS
M23
NC
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GROUND
PIN #
SIGNAL NAME
M26
NC
T5
NC
I/O
SIGNAL
TYPE
DESCRIPTION
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DC ELECTRICAL CHARACTERISTICS
DC CHARACTERISTICS FOR TTL INPUT/CMOS OUTPUT
Applies to all TTL-Level Input and CMOS Level Output pins - Ambient Temperature = 25°C
SYMBOL
VDDQ
PARAMETER
I/O Supply Voltage
MIN
MAX
UNITS
3.135
3.465
V
CONDITION
VIH
High-Level Input Voltage
2.0
VDD+0.3
V
VOUT>VOH(min)
VIL
Low-Level Input Voltage
-0.3
0.3*VDD
V
VOUT<VOL(max)
VOH
High-Level Output Voltage
1.9
VOL
Low-Level Output Voltage
Input Current
II
V
VDD = MIN
VIN = VIH
IOH = -2mA
0.6
V
VDD = MIN
VIN = VIL
IOL = 2mA
±15
µA
VDD = MAX
VIN = VDD or GND
DC CHARACTERISTICS FOR LVPECL I/O
Applies to all LVPECL Input and Output pins
SYMBOL
PARAMETER
MIN
VIH
High-Level Input Voltage
VIL
Low-Level Input Voltage
-0.4
Input Common Mode Voltage
1.0
Differential Input Voltage
0.2
VICM
VINDIFF
MAX
UNITS
VDD+0.4
V
V
VDD
V
V
VOH
High-Level Output Voltage
VDD-1.08
VDD-0.88
V
VOL
Low-Level Output Voltage
VDD-1.88
VDD-1.62
V
1.18
2.12
V
VOUTDIFF Differential Output Voltage
292
CONDITION
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AC ELECTRICAL CHARACTERISTICS
1.0 MICROPROCESSOR INTERFACE TIMING FOR REVISION D SILICON
1.1
MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS INTEL MODE
FIGURE 5. ASYNCHRONOUS MODE 1 - INTEL TYPE PROGRAMMED I/O TIMING (WRITE CYCLE)
CS
ALE_AS
t0
A[6:0]
Address
t1
t3
Data
D[7:0]
t4
RD_DS
t5
t2
WR_R/W
NOTE: The values for t0 through t7, within this figure can be found in Table 1.
FIGURE 6. ASYNCHRONOUS MODE 1 - INTEL TYPE PROGRAMMED I/O TIMING (READ CYCLE)
CS
ALE_AS
t0
A[6:0]
Address
t1
Data
D[7:0]
t6
t5
RD_DS
t2
WR_R/W
t7
RDY_DTACK
NOTE: The values for t0 through t7, within this figure can be found in Table 1.
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TABLE 1: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
INTEL ASYNCHRONOUS MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX.
t0
Address setup time to pALE low
6
-
-
t1
Address hold time to pALE low
6
-
-
t2
pRD_L, pWR_L pulse width
320
-
-
t3
Data setup time to pWR_L low
0
-
-
t4
Data hold time to pWR_L high
0
-
-
t5
pALE low to pRD_L, pWR_L low
5
-
-
t6
Data invalid from pRD_L high
7
-
-
t7
Data valid from pRDY_L low
-
-
0
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
1.2
MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS MOTOROLA (68K) MODE
FIGURE 7. ASYNCHRONOUS MODE 2 - MOTOROLA 68K PROGRAMMED I/O TIMING (WRITE CYCLE)
CS
ALE_AS
t0
t1
A[6:0]
D[7:0]
Address
t2
Data
t3
RD_DS
WR_R/W
t4
RDY_DTACK
NOTE: The values for t0 through t7 can be found in Table 2.
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FIGURE 8. ASYNCHRONOUS MODE 2 - MOTOROLA 68K PROGRAMMED I/O TIMING (READ CYCLE)
CS
t0
ALE_AS
t1
Address
A[6:0]
t5
D[7:0]
t7
Data
RD_DS
WR_R/W
t6
RDY_DTACK
NOTE: The values for t0 through t7 can be found in Table 2.
TABLE 2: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE WHEN CONFIGURED TO OPERATE IN THE
MOTOROLA (68K) ASYNCHRONOUS MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX
t0
Address setup time to pALE low
6
-
-
t1
Address hold time to pALE high
6
-
-
t2
Data setup time to pDS_L low
0
-
-
t3
Data hold time to pDS_L low
160
-
-
t4
pDS_L high to pRDY_L high (Write Cycle)
-
-
16
t5
pRDY_L low to Data valid
-
-
15
t6
pDS_L high to pRDY_L high (Read Cycle)
-
-
16
t7
pRDY_L high to Data invalid
3
-
-
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
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1.3
MICROPROCESSOR INTERFACE TIMING - POWER PC 403 SYNCHRONOUS MODE
FIGURE 9. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (WRITE CYCLE)
pCLK
pCS_L
t0
pRW_L
t1
t2
Address
pA[7:0]
t3
pD[7:0]
t4
Data
t5
t6
pWE_L
t7
pOE_L
pRdy
t8
NOTE: The value for t0 through t12 can be found in Table 3.
296
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FIGURE 10. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (READ CYCLE)
pCLK
pCS_L
pRW_L
Address
pA[7:0]
t10
Data
pD[7:0]
pWE_L
t11
pOE_L
t12
pRdy
NOTE: The value for t0 through t12 can be found in Table 3.
TABLE 3: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
IBM POWER PC403 MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX.
t0
pCS_L low to Clock high
10
-
-
t1
pRW_L low to Clock high
9
-
-
t2
Address setup time
9
-
-
t3
Address hold time
5
-
-
t4
Data setup time (WRITE cycle)
9
-
-
t5
Data hold time (WRITE cycle)
0
-
-
t6
pWE_L low to Clock high
6
-
-
t7
Clock high to pWE_L high
6
-
-
t8
Clock high to pRDY high
-
-
10
t9
Clock high to pRDY low
-
-
10
t10
Clock high to Data valid (READ cycle)
-
-
11
t11
Clock high to pOE_L low
11
-
-
t12
Clock high to pOE_L high
11
-
-
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
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1.4
MICROPROCESSOR INTERFACE TIMING - IDT3051/52 MODE
FIGURE 11. SYNCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (WRITE CYCLE)
pCLK
pCS_L
t0
t1
pALE
t2
pA[7:0]
Address
t3
Data
pD[7:0]
t4
pRdy_L
t5
pRD_L
t6
pWR_L
pDBEN_L
NOTE: The values for t0 through t11 can be found in Table 4.
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FIGURE 12. SYNCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (READ CYCLE)
pCLK
pCS_L
pALE
pA[7:0]
Address
t7
Data
pD[7:0]
t5
pRdy_L
t8
t9
pRD_L
t10
pWR_L
pDBEN_L
t11
NOTE: The values for t0 through t11 can be found in Table 4.
TABLE 4: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
IDT3051/52 MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX.
t0
pCS_L low to Clock high
6
-
-
t1
pALE high to Clock high
1
-
-
t2
Clock high to pALE low
6
-
-
t3
Data setup time (WRITE cycle)
-
-
N/N
t4
Data hold time (WRITE cycle)
-
-
N/N
t5
Clock high to pRDY_L low
-
-
11
t6
Clock high to pWR_L high
6
-
-
t7
Clock high to Data valid (READ cycle)
-
-
N/N
t8
Clock high to pRDY_L high
-
-
11
t9
pRDY_L high to Data invalid
0
-
-
t10
Clock high to pRD_L high
11
-
-
t11
Clock high to pDBEN_L high
10
-
-
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
2.0 STS-12/STM-4 TELECOM BUS INTERFACE TIMING INFORMATION
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2.1
STS-12/STM-4 Telecom Bus Interface Timing Information
This section presents the timing requirements for the STS-12/STM-4 Telecom Bus Interface. In particular this
section indicates the following.
a. Identifies which edge of TxA_CLK in which the TxA_D[7:0], TxA_PL, TxA_C1J1, TxA_ALARM and
TxA_DP output pins are updated on.
b. The clock to output delays (from the rising edge of TxA_CLK to the instant that the TxA_D[7:0], TxA_PL,
TxA_C1J1, TxA_ALARM and TxA_DP output pins are updated.
c. The set-up and hold-time requirements of TxSBFP with respect to the REFCLK input.
d. Identifies which edge of RxD_CLK that the RxD_D[7:0], RxD_PL, RxD_C1J1, RxD_ALARM and
RxD_DP input pins are sampled on.
e. The set-up time requirements (from an update in the RxD_D[7:0], RxD_PL, RxD_C1J1, RxD_ALARM
and RxD_DP input signals to the rising edge of RxD_CLK).
f. The hold-time requirements (from the rising edge of RxD_CLK to a change in the RxD_D[7:0], RxD_PL,
RxD_C1J1, RxD_ALARM and RxD_DP input signals)
2.2
The Transmit STS-12/STM-4 Telecom Bus Interface Timing
In the Transmit STS-12/STM-4 Telecom Bus Interface, all of the signals (which are output via this Bus
Interface) are updated upon the rising edge of TxA_CLK (77.76MHz clock signal).
Figure 13 and Figure 14 presents an illustration of the waveforms of the signals that will be output via the
Transmit STS-12/STM-4 Telecom Bus Interface, as well as the timing parameter (t1).
FIGURE 13. WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE TRANSMIT STS-12/STM-4 TELECOM BUS
INTERFACE
t1
TxA_CLK
TxA_PL
TxA_C1J1
TxA_D[7:0]
A2
C1
C1
J1
NOTE: The value for t1 can be found in Table 5.
300
Data
J1
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The TxSBFP input signal is sampled upon the rising edge of TxA_CLK by the Transmit STS-12/STM-4
Telecom Bus Interface circuitry, as illustrated below in Figure 14.
FIGURE 14. TIMING RELATIONSHIPS BETWEEN THE TXSBFP INPUT PIN AND THE TXA_CLK OUTPUT PIN WITHIN THE
TRANSMIT STS-12/STM-4 TELECOM BUS INTERFACE
t5
t4
TxA _CLK
t5A
REFCLK
t5B
TxSBFP
TxA _D[7:0]
Data
A1
A1
Data
Data
Data
NOTE: The value for t4, t5, t5A and t5B can be found in Table 5.
Table 5 presents information on the Timing parameters for the Transmit STS-12/STM-4 Telecom Bus Interface.
TABLE 5: TIMING INFORMATION FOR THE TRANSMIT STS-12/STM-4 TELECOM BUS INTERFACE
SYMBOL
2.3
DESCRIPTION
MIN.
t1
Rising edge of TxA_CLK to updates in TxA_D[7:0], TxA_PL,
TxA_C1J1 and TxA_DP
3.7ns
t4
TxSBFP Set-up time to rising edge of TxA_CLK
8.5ns
t5
TxA_CLK rising edge to TxSBFP Hold time
0ns
t5A
TxSBFP Set-up time to rising edge of REFCLK
5ns
t5B
Rising edge of REFCLK to TxSBFP Hold Time
0ns
TYP.
MAX.
9.5ns
The Receive STS-12/STM-4 Telecom Bus Interface Timing
In the Receive STS-12/STM-4 Telecom Bus Interface, all of the signals (which are input via this Bus Interface)
are sampled upon the rising edge of RxD_CLK (77.76MHz clock signal).
Figure 15 presents an illustration of the waveforms and the timing parameters (t2 and t3) of the signals that will
be received by the Receive STS-12/STM-4 Telecom Bus Interface.
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FIGURE 15. WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-12/STM-4 TELECOM BUS INTERFACE
t2
RxD_CLK
RxD_PL
RxD_C1J1
RxD_D[7:0]
A2
C1
C1
J1
Data
Data
t3
NOTE: The value for t2 and t3 can be found in Table 6.
Table 6 presents information on the Timing parameters for the Receive STS-12/STM-4 Telecom Bus Interface.
TABLE 6: TIMING INFORMATION FOR THE RECEIVE STS-12/STM-4 TELECOM BUS INTERFACE
SYMBOL
DESCRIPTION
MIN.
t2
RxD_D[7:0], RxD_PL, RxD_C1J1, RxD_ALARM and RxD_DP to
rising edge of RxD_CLK set-up time requirements
3 ns
t3
Rising edge of RxD_CLK to RxD_D[7:0], RxD_PL, RxD_C1J1,
RxD_ALARM and RxD_DP hold time requirements
0 ns
302
TYP.
MAX.
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3.0 STS-12/STM-4 PECL INTERFACE TIMING INFORMATION
3.1
The Receive STS-12/STM-4 PECL Interface Timing
The Receive STS-12/STM-4 PECL Interface block samples the incoming STS-12/STM-4 signal (which is
present on the RxL_Data_p/RxL_Data_n input pins) upon the rising edge of the RxL_CLKL_p/RxL_CLKL_n
input clock signal.
FIGURE 16. WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-12/STM-4 PECL INTERFACE
t6
t7
RxL _CLKL_p
RxL _CLKL_n
RxL _Data_p
RxL _Data_n
NOTE: Table 7 presents information on the Timing parameters for the Receive STS-12/STM-4 PECL Interface
TABLE 7: TIMING INFORMATION FOR THE RECEIVE STS-12/STM-4 PECL INTERFACE
SYMBOL
DESCRIPTION
MIN.
t6
RxL_DATA to rising edge of RxL_CLKL set-up time requirements
200ps
t7
Rising edge of RxL_CLKL to RxL_DATA hold time requirements
200ps
TYP.
MAX.
NOTE: These timing requirements apply to both the Primary and the Redundant Receive STS-12/STM-4 PECL Interface
blocks.
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3.2
The Transmit STS-12/STM-4 PECL Interface Block
The outbound STS-12/STM-4 data (from the Transmit STS-12/STM-4 PECL Interface block) is updated upon
the rising edge of TxLCLKO_p/TxLCLKO_n via the TxLData_p/TxLData_n output pins.
FIGURE 17. WAVEFORMS OF THE TRANSMIT STS-12/STM-4 PECL INTERFACE SIGNALS
t8
TxLCLKO_p
TxLCLKO_n
TxLData_p
TxLData_n
Table 8 presents information on the Timing Parameter for the Transmit STS-12/STM-4 PECL Interface
TABLE 8: TIMING INFORMATION FOR THE TRANSMIT STS-12/STM-4 PECL INTERFACE
SYMBOL
t8
DESCRIPTION
Rising edge of TxLCLKO to TxLDATA out delay
MIN.
TYP.
MAX.
600ps
800ps
1ns
NOTE: These timing requirements apply to both the Primary and the Redundant Transmit STS-12/STM-4 PECL Interface
block.
4.0 DS3/E3/STS-1 LIU INTERFACE TIMING INFORMATION
4.1
Ingress DS3/E3/STS-1 Interface Timing
The user should be aware of the following things about the Ingress DS3/E3/STS-1 Interface Timing.
a. If a given channel is configured to operate in the DS3/E3 Mode, then the DS3/E3 Framer block can be
configured to sample the DS3/E3/STS_1_DATA_IN and the DS3/E3/STS_1_NEG_IN input pins upon
either the rising or falling edge of DS3/E3/STS_1_CLOCK.
b. If a given channel is configured to operate in the STS-1/STM-0 Mode, then the Receive STS-1 TOH Processor block will be operating in the Single-Rail Mode (e.g., the Receive STS-1 TOH Processor block will
ONLY sample the DS3/E3/STS_1_DATA_IN input signal. It will not sample the DS3/E3/STS_1_NEG_IN
input signal.
c. Further, if a given channel is configured to operate in the STS-1/STM-0 Mode, then the Receive STS-1
TOH Processor block can ONLY be configured to sample the DS3/E3/STS_1_DATA_IN input signal,
upon the rising edge of DS3/E3/STS_1_CLOCK_IN. The Receive STS-1 TOH Processor block CANNOT be configured to sample the DS3/E3/STS_1_DATA_IN input signal upon the falling edge of DS3/
E3/STS_1_CLOCK_IN.
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The Timing Diagram for the Ingress DS3/E3/STS-1 Interface is presented below in Figure 18.
FIGURE 18. WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE INPUT TO THE DS3/E3/STS-1 LIU INTERFACE
IN THE INGRESS DIRECTION
t9
t 10
DS3/E3/STS_1_DATA_IN
DS3/E3/STS_1_NEG_IN
DS3/E3/STS_1_CLOCK_IN
NOTE: The values for t9 and t10 are presented in Table 9, Table 10 and Table 11.
4.2
Ingress Timing for DS3/E3 Applications
Table 9 presents information on the Timing parameters for the DS3/E3/STS-1 LIU Interface Signals (in the
Ingress Direction) for DS3/E3 Applications, and when the DS3/E3 Framer block has been configured to sample
the DS3/E3/STS_1_DATA_IN and DS3/E3/STS_1_NEG_IN signals upon the rising edge of DS3/E3/
STS_1_CLOCK_IN.
TABLE 9: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS WHEN
THE DS3/E3 FRAMER BLOCK HAS BEEN CONFIGURED TO SAMPLE THE DS3/E3/STS_1_DATA_IN AND DS3/E3/
STS_1_NEG_IN INPUT PINS UPON THE RISING EDGE OF DS3/E3/STS_1_CLOCK_IN
SYMBOL
DESCRIPTION
MIN.
t9
DS3/E3/STS_1_DATA_IN and DS3/E3/STS_1_NEG_IN to
rising edge of DS3/E3/STS_1_CLOCK_IN set-up time
requirements
7ns
t10
Rising edge of DS3/E3/STS_1_CLOCK_IN to DS3/E3/
STS_1_DATA_IN and DS3/E3/STS_1_NEG_IN Hold time
requirements
0ns
TYP.
MAX.
Table 10 presents information on the Timing parameters for the DS3/E3/STS-1 LIU Interface Signals (in the
Ingress Direction) for DS3/E3 Applications, and when the DS3/E3 Framer block has been configured to sample
the DS3/E3/STS_1_DATA_IN and DS3/E3/STS_1_NEG_IN signals upon the falling edge of DS3/E3/
STS_1_CLOCK_IN.
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TABLE 10: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS
DS3/E3 FRAMER BLOCK HAS BEEN CONFIGURED TO SAMPLE THE DS3/E3/STS_1_DATA_IN AND
DS3/E3/STS_1_NEG_IN INPUT PINS UPON THE FALLING EDGE OF DS3/E3/STS_1_CLOCK_IN
AND WHEN THE
SYMBOL
DESCRIPTION
MIN.
t9
DS3/E3/STS_1_DATA_IN and DS3/E3/STS_1_NEG_IN to
falling edge of DS3/E3/STS_1_CLOCK_IN set-up time
requirements
7ns
t10
Falling edge of DS3/E3/STS_1_CLOCK_IN to DS3/E3/
STS_1_DATA_IN and DS3/E3/STS_1_NEG_IN Hold time
requirements
0ns
4.3
TYP.
MAX.
Ingress Timing for STS-1/STM-0 Applications
Table 11 presents information on the Timing parameters for the DS3/E3/STS-1 LIU Interface Signals (in the
Ingress Direction) for STS-1/STM-0 Applications.
TABLE 11: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0
APPLICATIONS
SYMBOL
DESCRIPTION
MIN.
t9
DS3/E3/STS_1_DATA_IN to rising edge of DS3/E3/
STS_1_CLOCK_IN set-up time requirements
4ns
t10
Rising edge of DS3/E3/STS_1_CLK_IN to DS3/E3/
STS_1_DATA_IN and DS3/E3/STS_1_CLOCK_IN
Hold time requirements
0ns
4.4
TYP.
MAX.
The Egress DS3/E3/STS-1 Interface Timing
The user should be aware of the followings things about the Egress DS3/E3/STS-1 Interface timing.
a. If a given channel is configured to operate in the DS3/E3 Mode, then the DS3/E3 Framer block can be
configured to output the outbound DS3/E3 data (via the DS3/E3/STS_1_DATA_OUT and DS3/E3/
STS_1_NEG_OUT output pins) upon either the rising or falling edge of DS3/E3/STS_1_CLOCK_OUT.
b. If a given channel is configured to operate in the STS-1/STM-0 Mode, then the Transmit STS-1 TOH
Processor block will be operating in the Single-Rail Mode (e.g., the Transmit STS-1 TOH Processor
block will output all outbound STS-1/STM-0 data via the DS3/E3/STS_1_DATA_OUT output pin. No
data will be output via the DS3/E3/STS_1_NEG_OUT output pin).
c. Further, if a given channel is configured to operate in the STS-1/STM-0 Mode, then the Transmit STS-1
TOH Processor block can ONLY be configured to output the outbound STS-1/STM-0 data (via the DS3/
E3/STS_1_DATA_OUT pin) upon the rising edge of DS3/E3/STS_1_CLOCK_OUT.
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The Timing Diagram for the Egress DS3/E3/STS-1 Interface is presented below in Figure 19.
FIGURE 19. WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE OUTPUT FROM THE DS3/E3/STS-1 LIU
INTERFACE (IN THE RECEIVE/EGRESS DIRECTION)
t 11
DS3/E3/STS_1_DATA_OUT
DS3/E3/STS_1_NEG_OUT
DS3/E3/STS_1_CLOCK_OUT
NOTE: The value for t11 is presented in Table 12, Table 13 and Table 14.
4.5
Egress Timing for DS3/E3 Applications
Table 12 presents information on the Timing Parameters for the DS3/E3/STS-1 LIU Interface Signals (in the
Egress Direction) for DS3/E3 Applications and when the DS3/E3 Framer block has been configured to output
the outbound DS3/E3 data (via the DS3/E3/STS_1_DATA_OUT and DS3/E3/STS_1_NEG_OUT signal upon
the rising edge of DS3/E3/STS_1_CLOCK_OUT.
TABLE 12: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS AND
WHEN THE DS3/E3 FRAMER BLOCK HAS BEEN CONFIGURED TO OUTPUT THE OUTBOUND DS3/E3 DATA (VIA THE
DS3/E3/STS_1_DATA_OUT AND DS3/E3/STS_1_NEG_OUT OUTPUT PINS) UPON THE RISING EDGE OF DS3/E3/
STS_1_CLOCK_OUT
SYMBOL
t11
DESCRIPTION
MIN.
TYP.
0ns
Rising edge of DS3/E3/STS_1_CLK_OUT to DS3/E3/
STS_1_DATA_OUT & DS3/E3/STS_1_NEG_OUT output
delay
MAX.
4ns
Table 13 presents information on the Timing Parameters for the DS3/E3/STS-1 LIU Interface Signal (in the
Egress Direction) for DS3/E3 Applications and when the DS3/E3 Framer block has been configured to output
the outbound DS3/E3 data (via the DS3/E3/STS_1_DATA_OUT and DS3/E3/STS_1_NEG_OUT signals upon
the falling edge of DS3/E3/STS_1_CLOCK_OUT.
TABLE 13: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS AND
WHEN THE DS3/E3 FRAMER BLOCK HAS BEEN CONFIGURED TO OUTPUT THE OUTBOUND DS3/E3 DATA (VIA THE
DS3/E3/STS_1_DATA_OUT AND DS3/E3/STS_1_NEG_OUT OUTPUT PINS) UPON THE FALLING EDGE OF DS3/
E3/STS_1_CLOCK_OUT
SYMBOL
t11
DESCRIPTION
MIN.
Rising edge of DS3/E3/STS_1_CLK_OUT to DS3/
E3/STS_1_DATA_OUT & DS3/E3/
STS_1_NEG_OUT output delay
307
0ns
TYP.
MAX.
4ns
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4.6
Egress Timing for STS-1/STM-0 Applications
Table 14 presents information on the Timing parameters for the DS3/E3/STS-1 LIU Interface Signals (in the
Egress Direction) for STS-1/STM-0 Applications.
TABLE 14: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0
APPLICATIONS
SYMBOL
t11
DESCRIPTION
MIN.
Rising edge of DS3/E3/STS_1_CLK_OUT to DS3/
E3/STS_1_DATA_OUT output delay
0ns
TYP.
MAX.
3ns
5.0 STS-3/STM-1 TELECOM BUS INTERFACE TIMING INFORMATION
5.1
STS-3/STM-1 Telecom Bus Interface Timing Information
This section presents the timing requirements for the STS-3/STM-1 Telecom Bus Interface. In particular this
section indicates the following.
a. Identifies which edge of RxD_CLK in which the RxD_D[7:0], RxD_PL, RxD_C1J1, RxD_ALARM and
RxD_DP output pins are updated on.
b. The clock to output delays (from the rising edge of RxD_CLK to the instant that the RxD_D[7:0],
RxD_PL, RxD_C1J1, RxD_ALARM and RxD_DP output pins are updated.
c. Identifies which edge of TxA_CLK that the TxA_D[7:0], TxA_PL, TxA_C1J1 and TxA_DP input pins are
sampled on.
d. The set-up time requirements (from an update in the TxA_D[7:0], TxA_PL, TxA_C1J1, TxA_ALARM and
TxA_DP input signals to the rising edge of TxA_CLK).
e. The hold-time requirements (from the rising edge of TxA_CLK to a change in the TxA_D[7:0], TxA_PL,
TxA_C1J1, TxA_ALARM and TxA_DP input signals)
In contrast to the names that are given to the Transmit and Receive STS-3/STM-1 Telecom Bus Interface, the
Transmit STS-3/STM-1 Telecom Bus interface will have the responsibility of receiving (in lieu of transmitting)
STS-3/STM-1 data from some remote entity over a Telecom Bus Interface that is clocked at 19.44MHz.
Likewise, the Receive STS-3/STM-1 Telecom Bus Interface will have the responsibility of transmitting (in lieu of
receiving) STS-3/STM-1 data to some remote entity over a Telecom Bus Interface that is also clocked at
19.44MHz.
5.2
The Receive STS-3/STM-1 Telecom Bus Interface Timing
In the Receive STS-3/STM-1 Telecom Bus Interface, all of the signals (which are output via this Bus Interface)
are updated upon the rising edge of RxD_CLK (19.44MHz clock signal).
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Figure 20 and Figure 21 presents an illustration of the waveforms of the signals that will be output via the
Receive STS-3/STM-1 Telecom Bus Interface along with the timing parameter (t12).
FIGURE 20. WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE RECEIVE STS-3/STM-1 TELECOM BUS
INTERFACE
t 12
RxD_CLK
RxD _PL
RxD _C1J1
RxD _D[7:0]
A2
C1
C1
J1
Data
J1
NOTE: The value for t12 can be found in Table 15.
Table 15 presents information on the Timing parameters for the Receive STS-3/STM-1 Telecom Bus Interface.
TABLE 15: TIMING INFORMATION FOR THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE
SYMBOL
DESCRIPTION
MIN.
t12
Rising edge of RxD_CLK to updates in RxD_D[7:0], RxD_PL,
RxD_C1J1, RxD_ALARM and RxD_DP
0ns
5.3
TYP.
MAX.
3ns
The Transmit STS-3/STM-1 Telecom Bus Interface Timing
In the Transmit STS-3/STM-1 Telecom Bus Interface, all of the signals (which are input via this Bus Interface)
are sampled upon the rising edge of TxA_CLK (19.44MHz clock signal).
Figure 21 presents an illustration of the waveforms and the timing parameters (t13 and t14) of the signals that
will be received by the Transmit STS-3/STM-1 Telecom Bus Interface.
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FIGURE 21. WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE
t 13
TxA _CLK
TxA _PL
TxA _C1J1
TxA _D[7:0]
A2
C1
C1
J1
Data
Data
t 14
NOTE: The value for t13 and t14 can be found in Table 16.
Table 16 presents information on the Timing parameters for the Transmit STS-3/STM-1 Telecom Bus Interface.
TABLE 16: TIMING INFORMATION FOR THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE
SYMBOL
DESCRIPTION
MIN.
t13
TxA_D[7:0], TxA_PL, TxA_C1J1, TxA_ALARM and TxA_DP
to rising edge of TxA_CLK set-up time requirements
10ns
t14
Rising edge of TxA_CLK to TxA_D[7:0], TxA_PL, TxA_C1J1,
TxA_ALARM and TxA_DP hold time requirements
0 ns
TYP.
MAX.
6.0 TRANSMIT TOH OVERHEAD INPUT PORT
6.1
Transmit TOH Overhead Input Port
The Transmit TOH Overhead Input Port permits the user to insert his/her own value for the TOH bytes into the
outbound STS-12/STM-4 data-stream. The user should note that the TxTOHIns and the TxTOH input pins are
sampled (by the Transmit TOH Overhead Input Port) upon the rising edge of TxTOHClk. All of the remaining
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signals (e.g., TxTOHFrame and TxTOHEnable) are updated upon the falling edge of TxTOHClk. The timing
waveform and information for the Transmit TOH Overhead Input Port is presented below.
FIGURE 22. TIMING WAVEFORM OF THE TRANSMIT TOH OVERHEAD INPUT PORT
t 15
t 16
t 17
TxTOHClk
TxTOHFram e
TxTOHEnable
TxTOHIns
TxTOH
NOTE: The values for t15, t16 and t17 can be found in Table 17.
TABLE 17: TIMING INFORMATION FOR THE TRANSMIT TOH OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t15
Falling edge of TxTOHClk to rising edge of TxTOHFrame and
TxTOHEnable
-0.5ns
t16
TxTOHIns to rising edge of TxTOHClk set-up time
12ns
t17
TxTOH Data to rising edge of TxTOHClk set-up time
11ns
TYP.
MAX.
0.5ns
7.0 TRANSMIT POH OVERHEAD INPUT PORT
7.1
Transmit POH Overhead Input Port
The Transmit POH Overhead Input Port permits the user to insert his/her own value for the POH bytes into
either the outbound STS-1 SPE data-stream (which is output via the Transmit STS-12/STM-4 data-stream or
via the outbound STS-1 SPE data-stream (which is output via the Transmit STS-1 data-stream). The user
should note that the TxPOHIns and the TxPOH input pins are sampled (by the Transmit POH Overhead Input
Port) upon the rising edge of TxPOHClk. All of the remaining signals (e.g., TxPOHFrame and TxPOHEnable)
are updated upon the falling edge of TxPOHClk. The timing waveform and information for the Transmit POH
Overhead Input Port is presented below.
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FIGURE 23. TIMING WAVEFORM OF THE TRANSMIT POH OVERHEAD INPUT PORT
t 18
t 19
t 20
TxPOHClk
TxPOHFram e
TxPOHEnable
TxPOHIns
TxPOH
NOTE: The values for t18, t19 and t20 can be found in Table 18.
TABLE 18: TIMING INFORMATION FOR THE TRANSMIT POH OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t18
Falling edge of TxPOHClk to rising edge of TxPOHFrame and
TxPOHEnable
-1.5ns
t19
TxPOHIns to rising edge of TxPOHClk set-up time
15ns
t20
TxPOH Data to rising edge of TxPOHClk set-up time
14ns
TYP.
MAX.
3ns
8.0 TRANSMIT ORDERWIRE (E1, F1, E2) BYTE OVERHEAD INPUT PORT
8.1
Transmit E1, F1, E2 (Order-wire) Byte Overhead Input Port
The Transmit Order-wire Byte Overhead Input Port provides a dedicated port for the user to insert his/her own
value for the E1, F1 and E2 bytes within the outbound STS-12/STM-4 data-stream. The user should note that
the TxE1F1E2 input pin is sampled (by the Transmit Order-wire Byte Overhead Input Port) upon the rising
edge of TxTOHClk. All of the remaining signals (e.g., TxE1F1E2Enable, TxE1F1E2Frame) are updated upon
the falling edge of TxTOHClk. The timing waveform and information for the Transmit Order-wire Byte
Overhead Input Port is presented below.
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FIGURE 24. TIMING WAVEFORM OF THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT
t 22
t 21
TxTOHClk
TxE1F1E2Fr
TxE1F1E2Enb
TxE1F1E2
NOTE: The values for t21 and t22 can be found in Table 19.
TABLE 19: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t21
Falling edge of TxTOHClk to rising edge of TxE1F1F2Enable
and TxE1F1F2Frame
-0.5ns
t22
TxE1F1F2 Data to rising edge of TxTOHClk set-up time
TYP.
MAX.
0.5ns
11ns
9.0 TRANSMIT SECTION DCC INSERTION INPUT PORT
9.1
Transmit Section DCC Insertion Input Port
The Transmit Section DCC Insertion Input Port provides a dedicated port for the user to insert his/her own
value for the D1, D2 and D3 bytes within the outbound STS-12/STM-4 data-stream. The user should note that
the TxSDCC input pin is sampled (by the Transmit Section DCC Insertion Input Port) upon the rising edge of
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TxTOHClk. The TxSDCCEnable output signal is updated upon the falling edge of TxTOHClk. The timing
waveform and information for the Transmit Section DCC Insertion Input Port is presented below.
FIGURE 25. TIMING WAVEFORM OF THE TRANSMIT SECTION DCC OVERHEAD INSERTION PORT
t 23
t 24
TxTOHClk
TxSDCCEnb
TxSDCC
NOTE: The values for t23 and t24 can be found in Table 20.
TABLE 20: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t23
Falling edge of TxTOHClk to rising edge of TxSDCCEnable
-0.5ns
t24
TxSDCC Data to rising edge of TxTOHClk set-up time
12ns
TYP.
MAX.
0.5ns
10.0 TRANSMIT LINE DCC INSERTION INPUT PORT
10.1
Transmit Line DCC Insertion Input Port
The Transmit Section DCC Insertion Input Port provides a dedicated port for the user to insert his/her own
value for the D4 through D12 bytes within the outbound STS-12/STM-4 data-stream. The user should note
that the TxLDCC input pin is sampled (by the Transmit Section DCC Insertion Input Port) upon the rising edge
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of TxTOHClk. The TxLDCCEnable output signal is updated upon the falling edge of TxTOHClk. The timing
waveform and information for the Transmit Line DCC Insertion Input Port is presented below.
FIGURE 26. TIMING WAVEFORM OF THE TRANSMIT LINE DCC INSERTION INPUT PORT
t 25
t 26
TxTOHClk
TxLDCCEnb
TxLDCC
NOTE: The values for t25 and t26 can be found in Table 21.
TABLE 21: TIMING INFORMATION FOR THE TRANSMIT LINE DCC INSERTION INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t25
Falling edge of TxTOHClk to rising edge of TxLDCCEnable
t26
TxLDCC Data to rising edge of TxTOHClk set-up time
-0.5ns
TYP.
MAX.
0.5ns
11ns
11.0 RECEIVE TOH OVERHEAD OUTPUT PORT
11.1
Receive TOH Overhead Output Port
The Receive TOH Overhead Output port permits the user to extract out the values of the TOH bytes within the
incoming STS-12/STM-4 data-stream. All of the Receive TOH Overhead Output port signals are updated upon
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the falling edge of RxTOHClk. The timing waveform and information for the Receive TOH Overhead Output
Port is presented below.
FIGURE 27. TIMING WAVEFORM OF THE RECEIVE TOH OVERHEAD OUTPUT PORT
t 27
t 28
RxTOHClk
RxTOHFram e
RxTOHValid
RxTOH
NOTE: The values for t27 and t28 can be found in Table 22.
TABLE 22: TIMING INFORMATION FOR THE RECEIVE TOH OVERHEAD OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
TYP.
MAX.
t27
Falling edge of RxTOHClk to rising edge of RxTOHFrame and
RxTOHValid
-0.2ns
0.4ns
t28
Falling edge of RxTOHClk to RxTOH output delay
0.2ns
0.1ns
12.0 RECEIVE POH OVERHEAD OUTPUT PORT
12.1
Receive POH Overhead Output Port
The Receive POH Overhead Output port permits the user to extract out the values of the POH bytes within the
incoming STS-12/STM-4 data-stream. All of the Receive POH Overhead Output port signals are updated
upon the falling edge of RxPOHClk. The timing waveform and information for the Receive POH Overhead
Output Port is presented below.
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FIGURE 28. TIMING WAVEFORM OF THE RECEIVE POH OVERHEAD OUTPUT PORT
t 29
t 30
RxPOHClk
RxPOHFram e
RxPOHValid
RxPO H
NOTE: The values for t29 and t30 can be found in Table 23.
TABLE 23: TIMING INFORMATION FOR THE RECEIVE POH OVERHEAD OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
TYP.
MAX.
t29
Falling edge of RxPOHClk to rising edge of RxPOHFrame
and RxPOHValid
0.2ns
3ns
t30
Falling edge of RxPOHClk to RxPOH output delay
0.2ns
1.5ns
13.0 RECEIVE ORDERWIRE (E1, F1, E2) BYTES OVERHEAD OUTPUT PORT
13.1
Receive E1, F1, E2 (Order-Wire) Byte Overhead Output Port
The Receive Order-wire Byte Overhead output port provides a dedicated port for the user to extract out the
Order-wire (e.g., the E1, F1 and E2) bytes from that within the incoming STS-12/STM-4 data-stream. The user
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should note that all of the output signals (of this port) are updated upon the falling edge of RxTOHClk. The
timing waveform and information for the Receive Order-wire Byte Overhead output port is presented below.
FIGURE 29. TIMING WAVEFORM OF THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT PORT
t 31
t 32
RxTOHClk
RxE1F1E2Fr
RxE1F1E2Val
RxE1F1E2
NOTE: The values for t31 and t32 can be found in Table 24.
TABLE 24: TIMING INFORMATION FOR THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
TYP.
MAX.
t31
Falling edge of RxTOHClk to rising edge of RxE1F1E2Frame
and RxE1F1E2Valid
-0.2ns
0.4ns
t32
Falling edge of RxTOHClk to RxE1F1E2 output delay
0.1ns
0.3ns
14.0 RECEIVE SECTION DCC EXTRACTION OUTPUT PORT
14.1
Receive Section DCC Output Port
The Receive Section DCC output port provides a dedicated port for the user to extract out the Section DCC
(e.g., D1, D2 and D3) bytes from that within the incoming STS-12/STM-4 data-stream. The user should note
that all of the output signals (of this port) are updated upon the falling edge of RxTOHClk. The timing
waveform and information for the Receive Section DCC output port is presented below.
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FIGURE 30. TIMING WAVEFORM OF THE RECEIVE SECTION DCC OUTPUT PORT
t 33
t 34
RxTOHClk
RxSDCCVal
RxSDCC
NOTE: The values for t33 and t34 can be found in Table 25.
TABLE 25: TIMING INFORMATION FOR THE RECEIVE SECTION DCC OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
t33
Falling edge of RxTOHClk to rising edge of RxSDCCValid
t34
Falling edge of RxTOHClk to RxSDCC output delay
TYP.
MAX.
0ns
0.5ns
0.1ns
0.5ns
15.0 RECEIVE LINE DCC EXTRACTION OUTPUT PORT
15.1
Receive Line DCC Output Port
The Receive Line DCC output port provides a dedicated port for the user to extract out the Line DCC (e.g., D4
through D12) bytes from that within the incoming STS-12/STM-4 data-stream. The user should note that all of
the output signals (of this port) are updated upon the falling edge of RxTOHClk. The timing waveform and
information for the Receive Line DCC output port is presented below.
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FIGURE 31. TIMING WAVEFORM OF THE RECEIVE LINE DCC OUTPUT PORT
t 35
t 36
RxTOHClk
RxLDCCVal
RxLDCC
NOTE: The values for t35 and t36 can be found in Table 26.
TABLE 26: TIMING INFORMATION FOR THE RECEIVE LINE DCC OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
TYP.
MAX.
t35
Falling edge of RxTOHClk to rising edge of RxLDCCValid
-0.2ns
0.1ns
t36
Falling edge of RxTOHClk to RxLDCC output delay
0.1ns
0.4ns
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ORDERING INFORMATION
PART NUMBER
PACKAGE
OPERATING TEMPERATURE
RANGE
XRT94L43IB
516 PBGA
-400C to +850C
PACKAGE DIMENSIONS
516 Ball Plastic Ball Grid Array
(35 x 35 m m PBGA)
Rev. 1.0 (Bottom View)
26
24
25
22
23
20
21
18
19
16
14
17
12
15
13
10
11
8
6
9
7
4
2
5
3
Chamfer
Optional
1
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
b
D
D1
e
e
D1
D
D2
C
b
A2
A A1
Sym bol
Inches
MIN
MAX
Millimeters
MIN
MAX
A
0.075
0.106
1.90
2.70
A1
0.020
0.028
0.50
0.70
A2
0.039
0.051
1.00
1.30
b
0.024
0.035
0.60
0.90
C
0.016
0.028
0.40
0.70
D
1.370
1.386
34.80
35.20
D1
D2
e
1.250BSC
1.177
1.185
0.050BSC
31.75BSC
29.90
Note: The control dimension is the millimeter column
321
30.10
1.27BSC
XRT94L43
SONET/SDH OC-12 TO 12XDS3/E3 MAPPER
REV. 1.0.2
REVISION HISTORY
REVISION #
DATE
DESCRIPTION
P1.0.0
July 2002
Short form.
P1.0.1
July 2002
Added pin out and Register tables.
P1.0.2
August 2002
Added descriptive sections.
P1.0.3
August 2002
Added more description to sections.
P1.0.4
September 2002
Corrected Direct Addreses by adding 100Hex to each.
P1.0.4
December 2002
Added SDH Register tables and Direct addressing pin out. Made minor edits to
tesxt and broke data sheet into three books, (Description and pin outs, Sonet
Registers and SDH Registers.
P1.0.5
May 2002
Added electrical characteristics.
1.0.0
June 2004
Final edits, release to production
1.0.1
July 2006
Made edits to pin descriptions
1.0.2
November 2006
Added/changed block diagrams and features.
NOTICE
EXAR Corporation reserves the right to make changes to the products contained in this publication in order to
improve design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any
circuits described herein, conveys no license under any patent or other right, and makes no representation that
the circuits are free of patent infringement. Charts and schedules contained here in are only for illustration
purposes and may vary depending upon a user’s specific application. While the information in this publication
has been carefully checked; no responsibility, however, is assumed for inaccuracies.
EXAR Corporation does not recommend the use of any of its products in life support applications where the
failure or malfunction of the product can reasonably be expected to cause failure of the life support system or
to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless
EXAR Corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has
been minimized; (b) the user assumes all such risks; (c) potential liability of EXAR Corporation is adequately
protected under the circumstances.
Copyright 2006 EXAR Corporation
Datasheet November 2006.
Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited.
322