EXAR XRT94L31

XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
MARCH 2007
GENERAL DESCRIPTION
The XRT94L31 is a highly integrated SONET/SDH
terminator designed for E3/DS3/STS-1 mapping/demapping functions from either the STS-3 or STM-1
data stream. The XRT94L31 interfaces directly to the
optical transceiver.
REV. 1.0.1
APPLICATIONS
• Network switches
• Add/Drop Multiplexer
• W-DCS Digital Cross Connect Systems
FEATURES
The XRT94L31 processes the section, line and path
overhead in the SONET/SDH data stream. The
processing of path overhead bytes within the STS-1s
or TUG-3s includes 64 bytes for storing the J1 bytes.
Path overhead bytes can be accessed through the
microprocessor interface or via serial interface.
• Provides DS3/ E3 mapping/de-mapping for up to 3
The XRT94L31 uses the internal E3/DS3 DeSynchronizer circuit with an internal pointer leak
algorithm for clock smoothing as well as to remove
the jitter due to mapping and pointer movements.
These De-Synchronizer circuits do not need any
external clock reference for its operation.
• Integrated SERDES with Clock Recovery Circuit
• Provides SONET frame scrambling and
The SONET/SDH transmit blocks allow flexible
insertion of TOH and POH bytes through both
Hardware and Software. Individual POH bytes for the
transmitted SONET/SDH signal are mapped either
from the XRT94L31 memory map or from external
interface. A1, A2 framing pattern, C1 byte and H1, H2
pointer byte are generated.
The SONET/SDH receive blocks receive SONET
STS-3 signal or SDH STM-1 signal and perform the
necessary transport and path overhead processing.
The XRT94L31 provides a line side APS (Automatic
Protection Switching) interface by offering redundant
receive serial interface to be switched at the frame
boundary.
The XRT94L31 provides 3 mappers for performing
STS-1/VC-3 to STS-1/DS3/E3 mapping function, one
for each STS-1/DS3/E3 framers.
A PRBS test pattern generation and detection is
implemented to measure the bit-error performance.
A general-purpose microprocessor interface is
included for control, configuration and monitoring.
tributaries through SONET STS-1 or SDH AU-3
and/or TUG-3/AU-4 containers
• Generates and terminates SONET/SDH section,
line and path layers
descrambling
• Integrated Clock Synthesizer that generates 155
MHz and 77.76 MHz clock from an external 12.96/
19.44/77.76 MHz reference clock
• Integrated 3 E3/DS3/STS-1 De-Synchronizer circuit
that de-jitter gapped clock to meet 0.05UIpp jitter
requirements
• Access to Line or Section DCC
• Level 2 Performance Monitoring for E3 and DS3
• Supports mixing of STS-1E and DS3 or E3 and
DS3 tributaries
• E3 and DS3 framers for both Transmit and Receive
directions
• Complete Transport/Section Overhead Processing
and generation per Telcordia and ITU standards
• Single PHY and Multi-PHY operations supported
• Full line APS support for redundancy applications
• Loopback support for both SONET/SDH as well as
E3/DS3/STS-1
• Boundary scan capability with JTAG IEEE 1149·8bit microprocessor interface·
• 3.3 V ± 5% Power Supply; 5 V input signal
tolerance
• -40°C to +85°C Operating Temperature Range
• Available in a 504 Ball TBGA package
Exar Corporation 48720 Kato Road, Fremont CA, 94538 • (510) 668-7000 • FAX (510) 668-7017 • www.exar.com
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 1. BLOCK DIAGRAM OF THE XRT94L31
Rx STS-1
Rx STS-1
TOH
TOH
Processor
Processor
Block
Block
Tx
TxOverhead
Overhead
Data
DataInput
Input
Interface
Interface
Block
Block
Rx STS-1
Rx STS-1
POH
POH
Processor
Processor
Block
Block
Tx
TxSONET
SONET
POH
POH
Processor
Processor
Block
Block
Tx
TxPayload
Payload
Data
DataInput
Input
Interface
Interface
Block
Block
Tx
TxHDLC
HDLC
Controller
Controller
Block
Block
Tx
TxDS3/E3
DS3/E3
Framer
Framer
Block
Block
Tx
TxDS3/E3
DS3/E3
Mapper
Mapper
Block
Block
Rx
RxPayload
Payload
Data
DataOutput
Output
Interface
Interface
Block
Block
Rx
RxHDLC
HDLC
Controller
Controller
Block
Block
Rx
RxDS3/E3
DS3/E3
Framer
Framer
Block
Block
Rx DS3/E3
Rx DS3/E3
Mapper
Mapper&&
Jitter
JitterAttenuator
Attenuator
Block
Block
Tx STS-1
Tx STS-1
TOH
TOH
Processor
Processor
Block
Block
Rx
RxOverhead
Overhead
Data Output
Data Output
Interface
Interface
Block
Block
Tx STS-1
Tx STS-1
POH
POH
Processor
Processor
Block
Block
Rx SONET
Rx SONET
POH
POH
Processor
Processor
Block
Block
Channel 0
Channel 1
Tx
TxSTS-3
STS-3
TOH
TOH
Processor
Processor
Block
Block
Tx
TxSTS-3
STS-3
Telecom
Telecom
Bus
Bus
Block
Block
Primary
Primary&&
Redundant
Redundant
Tx
TxSTS-3
STS-3
PECL
PECL
Interface
Interface
Block
Block
Primary
Primary&&
Redundant
Redundant
Rx STS-3
Rx STS-3
TOH
TOH
Processor
Processor
Block
Block
Primary
Primary&&
Redundant
Redundant
CDR
CDR
Block
Block
Channel 2
Rx
RxSTS-3
STS-3
Telecom
Telecom
Bus
Bus
Block
Block
Primary
Primary&&
Redundant
Redundant
Rx
RxSTS-3
STS-3
PECL
PECL
Interface
Interface
Block
Block
ORDERING INFORMATION
PART NUMBER
PACKAGE TYPE
OPERATING TEMPERATURE RANGE
XRT94L31IB
27 x 27 504 Lead TBGA
-40°C to +85°C
2
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
MICROPROCESSOR INTERFACE
Y22
PCLK
I
TTL
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[14:0], D[7:0], RD*/DS* and DBEN
input pins, and· To update the state of D[7:0] and the RDY/DTACK
output signals.
NOTES:
1.
The Microprocessor Interface can
frequencies ranging up to 33MHz.
work
with
mPCLK
2.
This pin is inactive if the Microprocessor Interface has been
configured to operate in either the Intel-Asynchronous or the
Motorola-Asynchronousl Modes. In this case, tie this pin to
GND.
AD25
AD23
AC21
PTYPE_0PTYPE_1P
TYPE_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
001
Motorola - Asynchronous Mode
010
Intel X86
011
Intel I960
100
IDT3051/52 (MIPS)
101
Power PC 403 Mode
111
Motorola 860
AD27
AB25
W23
Y24
AD26
AC25
AA24
Y23
AE24
AB20
AD22
AC20
AD21
AE23
AF24
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
I
TTL
Address Bus Input pins (Microprocessor Interface):
These pins permit the Microprocessor to identify on-chip registers and
Buffer/Memory locations (within the XRT94L31) whenever it performs
READ and WRITE operations with the XRT94L31.
3
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AD20
AC19
AE22
AG24
AE21
AD19
AF23
AE20
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, whenever the Microprocessor performs READ and WRITE
operations with the Microprocessor Interface of the XRT94L31.
AF22
PWR_L/R/W*
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, as described below.
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 activelow signal is asserted, then the input buffers (associated with the BiDirectional Data Bus pins, 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 XRT94L31) upon the rising
of this input.
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.
PowerPC 403 Mode - R/W* - Read/Write Operation Identification
Input:
If the Microprocessor Interface is configured to operate in the PowerPC
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 PCLK, then the Microprocessor Interface will (upon the very same rising edge of PCLK) latch the contents of the Address Bus (A]14:0]) 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 XRT94L31) upon the Bi-Directional Dat 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 at a logic "Low") upon the
rising edge of PCLK, then the Microprocessor Interface will (upon the
very same rising edge of PCLK) latch the contents of the Address Bus
(A[14:0]) 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 BiDirectional Data Bus (D[7:0]) into the contents of the target register or
buffer location (within the XRT94L31).
4
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AC18
PRD_L/DS*/WE*
I
TTL
READ Strobe /Data Strobe:
The function of this input pin depends upon which mode the Microprocessor Interface has been configured to operate in, as described below.
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 XRT94L31 will place the contents of the
addressed register (or buffer location) on the Microprocessor Bi-directional Data Bus (D[7:0]). When this signal is negated, the Data Bus will
be tri-stated.
Motorola-Asynchronous (68K) Mode - DS* - Data Strobe Input:
If the Microprocessor Interface is operating in the Motorola Asynchronous Mode, then this input will function as the DS* (Data Strobe) input
signal.
PowerPC 403 Mode - WE* - Write Enable Input:
If the Microprocessor Interface is operating in the PowerPC 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 level)
upon the rising edge of PCLK, then the Microprocessor Interface will
(upon the very same rising edge of PCLK) latch the contents on the BiDirectional Data Bus (D[7:0]) into the target on-chip register or buffer
location within the XRT94L31.
AG23
ALE/AS_L
I
TTL
Address Latch Enable/Address Strobe:T
he function of this input pin depends upon which mode the Microprocessor Interface has been configured to operate in, as described below.
Intel-Asynchronous Mode - ALE
If the Microprocessor Interface (of the XRT94L31) has been configured
to operate in the Intel-Asynchronous Mode, then this active-high input
pin is used to latch the address (present at the Microprocessor Interface
Address Bus input pins (A[14:0]) into the XRT94L31 Microprocessor
Interface block and to indicate the start of a READ or WRITE cycle. Pulling this input pin "High" enables the input bus drivers for the Address
Bus input pins (A[14:0]). The contents of the Address Bus will be latched
into the XRT94L31 Microprocessor Interface circuitry, upon the falling
edge of this input signal.
Motorola-Asynchronous (68K) Mode - AS*
If the Microprocessor Interface has been configured to operate in the
Motorola-Asynchronous Mode, then this active-low input pin is used to
latch the data (residing on the Address Bus, A[14:0]) into the Microprocessor Interface circuitry of the XRT94L31.
Pulling this input pin "Low" enables the input bus drivers for the Address
Bus input pins. The contents of the Address Bus will be latched into the
Microprocessor Interface circuitry, upon the rising edge of this signal.
PowerPC 403 Mode - No Function - Tie to GND:
If the MIcroprocessor Interface has been configured to operate in the
PowerPC 403 Mode, then this input pin has no role nor function and
should be tied to GND.
5
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AE19
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 XRT94L31 on-chip registers, LAPD and Trace Buffer
locations.
AD18
PRDY_L/
DTACK*RDY
O
CMOS
READY or DTACK Output:
The function of this input pin depends upon wich mode the Microprocessor Interface has been configured to operate in, as described below.
Intel Asynchronous Mode - RDY* - READY output:
If the Microprocessor Interface has been configured to operate in the
Intel-Asyncrhronous 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 detect this output
pin being toggled to the logic "Low" level.
Motorola 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* ouytput.
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" leve, 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.
PowerPC 403 Mode - RDY - Ready Output:
If the Microprocessor Interface has been configured to operate in the
PowerPC 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 the Microprocessor Interface is ready to complete or terminate the current READ or
WRITE cycle. Once the Microprocessor has sampled this signal being
at a 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.
The Microprocessor Interface will update the state of this output pin upon
the rising edge of PCLK.
6
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AF21
PDBEN_L
I
TTL
Bi-directional Data Bus Enable Input pin:
This input pin is used 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.
AF20
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: Connect this input pin to GND whenever the Microprocessor
Interface has been configured to operate in the Intel-Async,
Motorola 68K and IBM PowerPC 403 modes.
AG22
PINT_L
O
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.
AB24
RESET_L
I
TTL
Reset Input:
When this active-low signal is asserted, the XRT94L31 will be asynchronously reset. When this occurs, all outputs will be tri-stated and all onchip registers will be reset to their default values.
AE18
DIRECT_ADD_SEL
I
TTL
Address Location Select input pin:
This input pin must be pulled "High" in order to permit normal operation
of the Microprocessor Interface.
SONET/SDH SERIAL LINE INTERFACE PINS
T3
RXLDAT_P
I
LVPEC Receive STS-3/STM-1 Data - Positive Polarity PECL Input:
L
This input pin, along with RXLDAT_N functions as the Recovered Data
Input, from the Optical Transceiver or as the Receive Data Input from the
system back-plane
NOTE: For APS (Automatic Protection Switching) purposes, this input
pin, along with RXLDAT_N functions as the Primary STS-3/
STM-1 Receive Data Input Port.
T2
RXLDAT_N
I
LVPEC Receive STS-3/STM-1 Data - Negative Polarity PECL Input:
L
This input pin, along with RXLDAT_P functions as the Recovered Data
Input, from the Optical Transceiver or as the Receive Data Input from the
system back-plane.
NOTE: For APS (Automatic Protection Switching) purposes, this input
pin, along with RXLDAT_P functions as the Primary Receive
STS-3/STM-1 Data Input Port
7
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
U2
RXLDAT_R_P
I
TYPE
DESCRIPTION
LVPEC Receive STS-3/STM-1 Data - Positive Polarity PECL Input - Redundant Port:
L
This input pin, along with RXLDAT_R_N functions as the Recovered
Data Input, from the Optical Transceiver or as the Receive Data Input
from the system back-plane.
NOTE: For APS (Automatic Protection Switching) purposes, this input
pin, along with RXLDAT_R_N functions as the Redundant
Receive STS-3/STM-1 Data Input Port.
U1
RXLDAT_R_N
I
LVPEC Receive STS-3/STM-1 Data - Negative Polarity PECL Input - RedunL
dant Port:
This input pin, along with RXLDAT_R_P functions as the Recovered
Data Input, from the Optical Transceiver or as the Receive Data Input
from the system back-plane.
NOTE: For APS (Automatic Protection Switching) purposes, this input
pin, along with RXLDAT_R_N functions as the Redundant
Receive STS-3/STM-1 Data Input Port.
AE27
RXCLK_19MHZ
O
CMOS
19.44MHz Recovered Output Clock:
This pin outputs a 19.44MHz clock signal that has been derived from the
incoming STS-3/STM-1 LVPECL line signal (via the Receive STS-3/
STM-1 PECL Interface block) and has been extracted out and derived
by Clock and Data Recovery PLL (within the Receive STS-3/STM-1
PECL Interface block).
To operate the STS-3/STM-1 Interface of the XRT94L31 in the loop-timing mode, route this particular output signal through a narrow-band PLL
(in order to attenuate any jitter within this signal) prior to routing it to the
REFTTL input pin.
P3
REFCLK_P
I
LVPEC Transmit Reference Clock - Positive Polarity PECL Input:
L
This input pin, along with REFCLK_N and REFTTL can be configured to
function as the timing source for the STS-3/STM-1 Transmit Interface
Block.
If these two input pins are configured to function as the timing source, a
155.52MHz clock signal must be applied to these input pins in the form
of a PECL signal. Configure these two inputs to function as the timing
source by writing the appropriate data into the Transmit Line Interface
Control Register (Address Location = 0x0383)
NOTE: If REFTTL clock input is used, set this pin to a logic "High"
P2
REFCLK_N
I
LVPEC Transmit Reference Clock - Negative Polarity PECL Input:
L
This input pin, along with REFCLK_P and REFTTL can be configured to
function as the timing source for the STS-3/STM-1 Transmit Interface
Block.
If these two input pins are configured to function as the timing source,
then the user must apply a 155.52MHz clock signal, in the form of a
PECL signal to these input pins. These two inputscan be configured to
function as the timing source by writing the appropriate data into the
Transmit Line Interface Control Register (Address Location = 0x0383).
NOTE: Set this pin to a logic "Low" if REFTTL clock input is used
8
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
P5
TXLDATO_P
O
TYPE
DESCRIPTION
LVPEC Transmit STS-3/STM-1 Data - Positive Polarity LVPECL Output:
L
This output pin, along with TXLDATO_N functions as the Transmit Data
Output (from the Transmit STS-3/STM-1 PECL Interface block), to the
Optical Transceiver (for transmission to remote terminal equipment) or to
the system back-plane (for transmission to some other System-Board).
For High-Speed Back-Plane Applications, data is output from these output pins upon the rising/falling edge of TXLCLKO_P/TXLCLKO_N.
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLDATO_N functions as the Primary Transmit
STS-3/STM-1 Data Output Port.
P6
TXLDATO_N
O
LVPEC Transmit STS-3/STM-1 Data - Negative Polarity LVPECL Output:
L
This output pin, along with TXLDATO_P functions as the Transmit Data
Output (from the Transmit STS-3/STM-1 PECL Interface block), to the
Optical Transceiver (for transmission to remote terminal equipment) or to
the system back-plane (for transmission to some other System board).
For High-Speed Back-Plane Applications, data is output from these output pins upon the rising/falling edge of TXLCLKO_P/TXLCLKO_N.
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLDATO_P functions as the Primary Transmit
STS-3/STM-1 Data Output Port.
M4
TXLDATO_R_P
O
LVPEC Transmit STS-3/STM-1 Data - Positive Polarity LVPECL Output L
Redundant Port:
This output pin, along with TXLDATO_R_N functions as the Transmit
Data Output (from the Transmit STS-3/STM-1 PECL Interface block), to
the Optical Transceiver or to the system back-plane.
For High-Speed Back-Plane Applications, data is output from these output pins upon the rising/falling edge of TXLCLKO_R_P/
TXLCLKO_R_N).
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLDATO_N functions as the Redundant
Transmit STS-3/STM-4 Data Output Port.
M3
TXLDATO_R_N
O
LVPEC Transmit STS-3/STM-1 Data - Negative Polarity LVPECL Output L
Redundant Port:
This output pin, along with TXLDATO_R_P functions as the Transmit
Data Output (from the Transmit STS-3/STM-1 PECL Interface block), to
the Optical Transceiver (for transmission to remote terminal equipment)
or to the system back-plane (for transmission to some other System
board).
For High-Speed Back-Plane Applications, data is output from these output pins upon the rising/falling edge of TXLCLKO_R_P/
TXLCLKO_R_N).Note:
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLDATO_R_P functions as the Redundant
Transmit STS-3/STM-1 Data Output Port.
9
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
N6
TXLCLKO_P
O
TYPE
DESCRIPTION
LVPEC Transmit STS-3/STM-1 Clock - Positive Polarity PECL Output:
L
This output pin, along with TXLCLKO_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-3/STM-1 data is output via the
TXLDATO_P/TXLDATO_N output pins upon the rising edge of this clock
signal.
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLCLKO_N functions as the Primary Transmit
Output Clock signal.
N5
TXLCLKO_N
O
LVPEC Transmit STS-3/STM-1 Clock - Negative Polarity PECL Output:
L
This output pin, along with TXLCLKO_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-3/STM-1 data is output via the
TXLDATO_P/TXLDATO_N output pins upon the falling edge of this clock
signal.
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLCLKO_N functions as the Primary Transmit
Output Clock signal.
M1
TXLCLKO_R_P
O
LVPEC Transmit STS-3/STM-1 Clock - Positive Polarity PECL Output L
Redundant Port:
This output pin, along with TXLCLKO_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-3/STM-1 data is output via the
TXLDATO_R_P/TXLDATO_R_N output pins upon the rising edge of this
clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLCLKO_R_N functions as the Redundant
Transmit Output Clock signal.
M2
TXLCLKO_R_N
O
LVPEC Transmit STS-3/STM-1 Clock - Negative Polarity PECL Output L
Redundant Port:
This output pin, along with TXLCLKO_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-3/STM-1 data is
output via the TXLDATO_R_P/TXLDATO_R_N output pins upon the rising edge of this clock signal.
NOTE: For APS (Automatic Protection Switching) purposes, this output
pin, along with TXLCLKO_R_P functions as the Redundant
Transmit Output Clock signal.
10
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
P1
REFTTL
I
TYPE
TTL
DESCRIPTION
19.44MHz or 77.76MHz Clock Synthesizer Reference Clock Input
Pin:
The function of this input pin depends upon whether or not the Clock
Synthesizer block is enabled.
If Clock Synthesizer is Enabled.
If the Clock Synthesizer block is enabled, then it will be used to generate
the 155.52MHz, 19.44MHz and/or 77.76MHz clock signal for the Transmit STS-3/STM-1 circuitry. In this mode, the user should apply a clock
signal of any of the following frequencies to this input pin.
• 19.44 MHz
• 38.88 MHz
• 51.84 MHz
• 77.76 MHz
Afterwards, the user needs to write the appropriate data into the Transmit Line Interface Control Register (Address Location = 0x0383) in order
to (1) configure the Clock Synthesizer Block to accept any of the abovementioned signals and generate a 155.52MHz, 19.44MHz or 77.76MHz
clock signal, (2) to configure the Clock Synthesizer to function as the
Clock Source for the STS-3/STM-1 block.
If Clock Synthesizer is NOT Enabled:
If the Clock Synthesizer block is NOT enabled, then it will NOT be used
to generate the 19.44MHz and/or 77.76MHz clock signal, for the STS-3/
STM-1 block. In this configuration seting, the user MUST apply a
19.44MHz clock signal to this input pin.
NOTE: The user must place a clock signal to this input pin in order to
perform READ and WRITE operations to much of the SONET/
SDH-related registers via the Microprocessor Interface.
11
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
AG3
LOSTTL
I
TYPE
TTL
DESCRIPTION
Loss of Optical Carrier Input - Primary Receive STS-3/STM-1 PECL
Interface - TTL Input:
If the user is using an Optical Transceiver that contains an LOS (or Signal Detect) output that is of the CMOS/TTL format, then connect this
LOS output signal to this input pin of the XRT94L31.
Configure the LOSTTL input pin to be either an active-low or an activehigh signal, by pulling the LOSPECL input pin to the appropriate level as
described below.
LOSPECL
LOSTTL
Active-Low/
Active-High
GND
Active-Low
Setting this input pin "low"
configures the Receive Line
Interface block to declare the
"LOS_Detect" condition.
VDD
Active-High
Setting this input pin "high"
configures the Receive Line
Interface block to declare the
"LOS_Detect" condition.
Description of LOSTTL
If this input pin is pulled to the appropriate state such that LOS is TRUE,
then all of the following events will happen.
• The Primary Receive STS-3 TOH Processor block will declare the
Loss of Optical Carrier condition.
• The Primary Receive STS-3/STM-1 Line Interface block will declare
the LOS_Detect condition.
NOTE: If this input pin is pulled to the appropriate state such that LOS is
TRUE, this (by itself) will NOT cause the Primary Receive STS-3
TOH Processor block to declare the LOS defect condition.
12
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
AG25
LOSTTL_R
I
TYPE
TTL
DESCRIPTION
Loss of Optical Carrier Input - Redundant Receive STS-3/STM-1
PECL Interface - TTL Input:
If the user is using the Optical Transceiver that contains an LOS (or Signal Detect) output that is of the CMOS/TTL format, then connect this
LOS output signal to this input pin of the XRT94L31.
Configure the LOSTTL_R input pin to either an active-low or an activehigh signal, by pulling the LOSPECL_R input pin to the appropriate level
as described below.
LOSPECL_R
LOSTTL_R
Active-Low/
Active-High
GND
Active-Low
Setting this input pin "low"
configures the Redundant
Receive Line Interface block
to declare the "LOS_Detect"
condition.
VDD
Active-High
Setting this input pin "high"
configures the Redundant
Receive Line Interface block
to declare the "LOS_Detect"
condition.
Description of LOSTTL_R
If this input pin is pulled to the appropriate state such that LOS is TRUE,
then all of the following events will happen.
The Redundant Receive STS-3 TOH Processor block wil declare the
Loss of Optical Carrier condition
The Redundant Receive STS-3/STM-1 Line Interface block will declare
the LOS_Detect condition.
NOTE: If this input pin is pulled to the appropriate state such that LOS is
TRUE, this (by itself) will NOT cause the Redundant Receive
STS-3 TOH Processor block to declare the LOS defect
condition.
13
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
L4
LOSPECL_P
I
TYPE
DESCRIPTION
LVPEC Loss of Optical Carrier/Signal Input - Single-Ended PECL Interface
L
Input - Primary Receive STS-3/STM-1 PECL Interface:
If the user is using an Optical Transceiver that contains an LOS (or Signal Detect) output pin that is of the LVPECL format, then connect this
LOS output signal to this input pin of the XRT94L31.
Configure the LOSPECL_P input pin to function as either an active-low
or active-low signal by pulling the LOSTTL input pin to the appropriate
level as described below.
LOSTTL
LOSPECL_P
Active-Low/
Active-High
GND
Active-Low
VDD
Active-High
Description of
LOSPECL_P
Setting this input pin "low"
configures the Receive Line
Interface block to declare the
"LOS_Detect" condition.
Setting this input pin "high"
configures the Receive Line
Interface block to declare the
"LOS_Detect" condition.
If this input pin is pulled to the appropriate state such that LOS is TRUE,
then all of the following events will happen.
• The Primary Receive STS-3 TOH Processor block will declare the
Loss of Optical Carrier condition.
• The Primary Receive STS-3/STM-1 Line Interface block will declare
the LOS_Detect condition.
NOTE: If this input pin is pulled to the appropriate state such that LOS is
TRUE, this (by itself) will NOT cause the Primary Receive STS-3
TOH Processor block to declare the LOS defect condition.
14
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
L3
LOSPECL_R
I
TYPE
DESCRIPTION
LVPEC Loss of Optical Carrier/Signal Input - Single-Ended PECL Interface
L
Input - Redundant Receive STS-3/STM-1 PECL Interface:
If the user is using an Optical Transceiver that contains an LOS (or Signal Detect) output pin that is of the LVPECL format, then connect this
LOS output signal to this input pin of the XRT94L31.
Configure the LOSPECL_R input pin to function as either an active-low
or active-low signal by pulling the LOSTTL input pin to the appropriate
level as described below.
LOSTTL
LOSPECL_R
Active-Low/
Active-High
GND
Active-Low
Setting this input pin "low"
configures the Redundant
Receive Line Interface block
to declare the "LOS_Detect"
condition.
VDD
Active-High
Setting this input pin "high"
configures the Redundant
Receive Line Interface block
to declare the "LOS_Detect"
condition.
Description of
LOSPECL_R
If this input pin is pulled to the appropriate state such that LOS is TRUE,
then all of the following events will happen.
• The Redundant Receive STS-3 TOH Processor block will declare the
Loss of Optical Carrier condition.
• The Redundant Receive STS-3/STM-1 Line Interface block will
declare the LOS_Detect condition.Note:
NOTE: If this input pin is pulled to the appropriate state such that LOS is
TRUE, this (by itself) will NOT cause the Redundant Receive
STS-3 TOH Processor block to declare the LOS defect
condition..
15
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
V1
LOCKDET
O
CMOS
Lock Detect Output Pin - Clock and Data Recovery PLL Block
This output pin indicates whether or not the Clock and data recovery PLL
block has obtained lock to incoming STS-3/STM-1 signal.
As the Receive STS-3/STM-1 PECL Interface block receives this STS-3/
STM-1 signal, the CDR (Clock and Data Recovery) PLL will attempt to
lock onto this STS-3/STM-1 PECL signal. The Receive STS-3/STM-1
PECL Interface block will (internally) derive a 19.44MHz clock signal
from this incoming STS-3/STM-1 PECL signal. The CDR PLL will then
continuously compare the frequency of this 19.44MHz clock signal, with
that derived from either the Clock Synthesizer block (or from the
19.44MHz clock signal applied to the REFTTL input pin).
If the CDR PLL determines that the frequency difference between these
two signals is less than 0.05%, then it will declare that the CDR PLL is in
Lock. If the CDR PLL determines that the frequency difference between
these two signals is greater than 0.05%, then it will declare the the CDR
PLL is Out of Lock.
0 - Indicates that the CDR PLL (within the Receive STS-3/STM-1 PECL
Interface Block) is declaring the Lock Condition.
1 - Indicates that the CDR PLL is declaring the Out of Lock Condition.
STS-3/STM-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
E1
TXA_CLK
O
CMOS
Transmit STS-3/STM-1 Telecom Bus Interface - Clock Output Signal:
This output clock signal functions as the clock source for the Transmit
STS-3/STM-1 Telecom Bus Interface. All signals, that are output via the
Transmit STS-3/STM-1 Telecom Bus Interface (e.g., TXA_C1J1,
TXA_ALARM, TXA_DP, TXA_PL and TXA_D[7:0]) are updated upon the
rising edge of this clock signal.
This clock signal operates at 19.44MHz and is derived from the Clock
Synthesizer block.
F2
TXA_C1J1whether or
not the
O
CMOS
Transmit STS-3/STM-1 Telecom Bus Interface - C1/J1 Byte Phase
Indicator Output Signal:
This output pin pulses "High" under the following two conditions;
• Coincident to whenever the C1/J0 byte (of the outbound STS-3/STM-1
signal) is being output via the TxA_D[7:0] output, and
• Coincident to whenever the J1 byte(s) (of the outbound STS-3/STS3c/STM-1 signal) is being output via the TxA_D[7:0] output.
NOTES:
1.
The Transmit STS-3/STM-1 Telecom Bus Interface will indicate
that it is currently 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 Transmit STS-3/STM-1 Telecom Bus will indicate that it is
currently 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 Transmit STS-3/STM-1
Telecom Bus Interface block is enabled and is configured to
operate in the Re-Phase OFF Mode.
16
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
E2
TXA_ALARM
O
CMOS
DESCRIPTION
Transmit STS-3/STM-1 Telecom Bus - Alarm Indicator Output signal:
This output pin pulses "High", coincdent to the instant that the Transmit
STS-3/STM-1 Telecom Bus outputs a byte (via the TxA_D[7:0] output
pins) that pertains to any that STS-1 or STS-3c signal is carrying the
AIS-P indicator.
This output pin is "Low" for all other conditions.
NOTE:
H3
TXA_DP
O
CMOS
This output pin is only active if the Transmit STS-3/STM-1
Telecom Bus Interface is enabled and has been configured to
operate in the Re-Phase OFF Mode.
Transmit STS-3/STM-1 Telecom Bus - Parity Output pin:
This output pin can be configured to function as one of the following.To
reflect either the EVEN or ODD parity value of the bits which are currently being output via the TXA_D[7:0] output pins.
To reflect either the EVEN or ODD parity value of the bits which are currently 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
(Address Location = 0x0137).
G4
TxSBFP
I
TTL
Transmit STS-3/STM-1 Frame Alignment Sync Input:
The Transmit STS-3 TOH Processor Block can be configured to initiate
its generation of a new outbound STS-3/STM-1 frame based upon an
externally supplied 8kHz clock signal to this input pin. If this feature is
used, the Transmit STS-3/STM-1 Telecom Bus Interface will begin transmitting the very first byte of given STS-3 or STM-1 frame, upon sensing
a rising edge (of the 8kHz signal) at this input pin.
NOTES:
1.
If this input pin is connected to GND, then the Transmit STS-3
TOH Processor block will generate its outbound STS-3/STM-1
frames asynchronously, with respect to any input signal.
2.
This input signal must be synchronized with the signal that is
supplied to the REFTTL input pin. Failure to insure this will
result in bit errors being generated within the outbound STS-3/
STM-1 signal.
3.
The user must supply an 8kHz pulse (to this input pin) that has
a width of approximately 51.4412.8ns (one 19.44MHz clock
period). The user must not apply a 50% duty cycle 8kHz signal
to this input pin.
4.
Register HRSYNC_DLY (Address Location: 0x0135) defines
the timing for TxSBFP input pin.
17
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
K5
TxA_PL
O
CMOS
Transmit STS-3/STM-1 Telecom Bus Interface - Payload Data Indicator Output Signal:
This output pin indicates whether or not the Transmit STS-3/STM-1 Telecom Bus Interface is currently placing a Transport Overhead byte or a
non-Transport Overhead Byte (e.g., STS-1 SPE, STS-3c SPE, VC-3 or
VC-4 data) via the TXA_D[7:0] output pins.
This output pin is pulled "Low" for the duration that the Transmit STS-3/
STM-1 Telecom Bus Interface 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
Transmit STS-3/STM-1 Telecom Bus Interface is transmitting something
other than a Transport Overhead byte via the TXA_D[7:0] output pins.
J4
G3
D1
F3
J5
H4
D2
E3
TxA_D0
TxA_D1
TxA_D2
TxA_D3
TxA_D4
TxA_D5
TxA_D6
TxA_D7
O
CMOS
Transmit STS-3/STM-1 Telecom Bus Interface - Transmit Output
Data Bus pins:
These 8 output pins function as the Transmit STS-3/STM-1 Telecom Bus
Interface - Output data bus. If the STS-3/STM-1 Telecom Bus Interface
is enabled, then all outbound STS-3/STM-1 data is output via these pins
(in a byte-wide manner), upon the rising edge of the TXA_CLK output
pin.
STS-3/STM-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
W2
RxD_CLK
I
TTL
Receive STS-3/STM-1 Telecom Bus Interface - Clock Input Signal:
This input clock signal functions as the clock source for the Receive
STS-3/STM-1 Telecom Bus Interface. All input signals are sampled
upon the falling edge of this input clock signal.
This clock signal should operate at 19.44MHz.Note:
NOTE: This input pin is only used if the STS-3/STM-1 Telecom Bus has
been enabled. It should be connected to GND otherwise.
AA3
RxD_PL
I
TTL
Receive STS-3/STM-1 Telecom Bus Interface - Payload Data Indicator Output Signal:
This input pin indicates whether or not the Receive STS-3/STM-1 Telecom Bus Interface is currently receiving Transport Overhead bytes or
non-Transport Overhead bytes (e.g., STS-1 SPE, STS-3c SPE,VC-3 or
VC-4 data) via the RXD_D[7:0] input pins.
This input pin should be pulled "Low" for the duration that the Receive
STS-3/STM-1 Telecom Bus Interface is receiving a Transport Overhead
byte via the RXD_D[7:0] input pins.
Conversely, this input pin should be pulled "High" for the duration that
the Receive STS-3/STM-1 Telecom Bus Interface is receiving something
other than a Transport Overhead byte via the RXD_D[7:0] input pins.
NOTE: Connect this pin to GND if the STS-3/STM-1 Telecom Bus is NOT
enabled
18
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
AD1
RxD_C1J1
I
TYPE
TTL
DESCRIPTION
Receive STS-3/STM-1 Telecom Bus Interface - C1/J1 Byte Phase
Indicator Input Signal:
This input pin should be pulsed "High" during both of the following conditions.
a. Coincident to whenever the C1/J0 byte (within the incoming STS3/STM-1 signal) is being applied to the Receive STS-3/STM-1
Telecom Bus - Data Input pins (RXD_D[7:0]).
b. Coincident to whenever the J1 byte(s) (within the incoming STS-3/
STM-1 signal) is being applied to the Receive STS-3/STM-1
Telecom Bus - Data Input pins (RXD_D[7:0]) input.
NOTE: This input pin should be pulled "Low" during all other times.
AB3
RxD_DP
I
TTL
Receive STS-3/STM-1 Telecom Bus Interface - Parity Input pin:
This input pin can be configured to function as one of the following.
The EVEN or ODD parity value of the bits (within the incoming STS-3/
STM-1 signal) which are currently being input via the RXD_D[7:0] input
pins.
The EVEN or ODD parity value of the bits (within the incoming STS-3/
STM-1 signal) 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-3/STM-1 Telecom Bus Interface block will use this
input signal to compute and verify the Parity of each byte within the
incoming STS-3/STM-1 data-stream.
NOTES:
W1
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 (Address Location = 0x0137).
2.
Tie this input pin to GND if the STS-3/STM-1 Telecom Bus
Interface is disabled.
Receive STS-3/STM-1 Telecom Bus Interface - Alarm Indicator
Input:
This input pin should be pulsed "High" for one RxD_CLK period coincident to whenever the Receive STS-3/STM-1 Telecom Bus Interface is
accepting a byte from an incoming STS-1 or STS-3c signal (via the
RxD_D[7:0] input pins) that is carrying the AIS-P indicator.
This input pin should be held at a logic "Low" at all other times.
NOTES:
1.
If the RxD_ALARM input signal pulses "High" for any given
STS-1 signal (within the incoming STS-3), the XRT94L31 will
automatically declare the AIS-P defect condition for that STS-1
or STS-3c channel.
2.
Tie this input pin to GND, if the STS-3/STM-1 Telecom Bus
Interface is disabled.
19
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
Y2
AD2
AC3
AA4A
B4
Y1
AD3
AA5
RxD_D0
RxD_D1
RxD_D2
RxD_D3
RxD_D4
RxD_D5
RxD_D6
RxD_D7
I
TYPE
TTL
DESCRIPTION
Receive STS-3/STM-1 Telecom Bus Interface - Receive Input Data
Bus pins:
These 8 input pins function as the Receive STS-3/STM-1 Telecom Bus
Interface Receive Input data bus. All STS-3/STM-1 data is sampled and
latched (into the XRT94L31, via these input pins) upon the falling edge
of the RXA_CLK input pin.
NOTE: These input pins are only active if the Receive STS-3/STM-1
Telecom Bus Interface has been enabled. If the XRT94L31 is
configured to exchange STS-3/STM-1 data via the PECL
Interface (instead), tie these pins to GND.
SONET/SDH OVERHEAD INTERFACE - TRANSMIT DIRECTION
H6
TxTOHClk
O
CMOS
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 is usedr to insert the users own
value for the TOH bytes (in the outbound STS-3/STM-1 signal).
This output pin provides the user with 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 XRT94L31 upon
the rising edge of this clock signal. The XRT94L31 will then insert this
particular TOH bit value into the appropriate TOH bit positions within the
outbound STS-3 data-stream.
NOTE: The Transmit TOH Input Port only supports the insertion of the
TOH within the first STS-1, within the outbound STS-3 signal.
G5
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.
To externally insert user values of TOH into the outbound STS-3 data
stream via the Transmit TOH Input Port, 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, output the next TOH bit, onto the TxTOH input pin, upon the
rising edge of TxTOHClk
20
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
F8
TxTOH
I
TYPE
TTL
DESCRIPTION
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.To externally insert user values of TOH into the outbound
STS-3 data stream via the Transmit TOH Input Port, 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, output the next TOH bit, onto this input pin, upon the rising edge
of TxTOHClk. The Transmit TOH Input Port will sample the data (on
this input pin) upon the falling 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".
E8
TxTOHFrame
O
CMOS
Transmit TOH Input Port - STS-3/STM-1 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-3 frame,
being expected via the TxTOH input pin.To externally insert user values
of TOH into the outbound STS-3 data stream via the Transmit TOH Input
Port, 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, output the next TOH bit, onto the TxTOH input pin, upon the
rising edge of TxTOHClk.
NOTE: The external circuitry (which is being interfaced to the Transmit
TOH Input Port can use this particular output pin to denote the
boundary of STS-3 frames.
21
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
D6
TxTOHIns
I
TYPE
TTL
DESCRIPTION
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-3 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.
To externally insert user values of TOH into the outbound STS-3 data
stream via the Transmit TOH Input Port, 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, 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 falling edge of TxTOHClk.]
NOTES:
B4
TxLDCCEnable
O
CMOS
1.
Data applied to the TxTOH input pin will be sampled according
to the following insertion priority scheme:
2.
For DCC, E1, F1, E2 bytes, TxTOH input pin will be sampled if
both TxTOHEnable and TxTOHIns are "High".
3.
For other TOH bytes, TxTOH input pin will be sampled if both
TxTOHEnable and TxTOHIns are "High" or if both TxTOHIns
and Software Insertion Enabled are "Low".
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 their value for the D4, D5, D6, D7, D8, D9,
D10, D11 and D12 bytes into the Transmit STS-3 TOH Processor Block.
The Transmit STS-3 TOH Processor block will accept this data and will
insert into the D4, D5, D6, D7, D8, D9, D10, D11 and D12 byte-fields,
within the outbound STS-3 data-stream.
The Line DCC HDLC Controller circuitry (which is connected to the
TxTOHClk, the TxSDCC and this output pin, is suppose to do the following.
It should continuously monitor the state of this output pin.
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-3 TOH Processor block) onto the TxLDCC input pin, upon
the rising edge of TxTOHClk.
Any data that is placed on the TxLDCC input pin, will be sampled upon
the falling edge of TxOHClk.
22
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
D7
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 is used to insert their value for the D1, D2 and D3 bytes, into
the Transmit STS-3 TOH Processor Block. The Transmit STS-3 TOH
Processor block will accept this data and will insert into the D1, D2 and
D3 byte-fields, within the outbound STS-3 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.
It should continuously monitor the state of this output pin.
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-3 TOH Processor block) onto the TxSDCC input
pin, upon the rising edge of TxTOHClk.
Any data that is placed on the TxSDCC input pin, will be sampled upon
the falling edge of TxOHClk.
C5
TxSDCC
I
TTL
Transmit - Section DCC Input Port - Input pin:
This input pin, along with the TxSDCCEnable and the TxTOHClk output
pins is used to insert their value for the D1, D2 and D3 bytes, into the
Transmit STS-3 TOH Processor Block. The Transmit STS-3 TOH Processor block will accept this data and insert it into the D1, D2 and D3
byte fields, within the outbound STS-3 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.
It should continuously monitor the state of the TxSDCCEnable input pin.
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-3 TOH Processor block) onto this
input pin upon the rising edge of TxTOHClk.
Any data that is placed on the TxSDCC input pin, will be sampled upon
the falling edge of TxTOHClk.Note:
NOTE: This pin should be connected to GND if it is not used.
D8
TxLDCC
I
TTL
Transmit - Line DCC Input Port:
This input pin, along with the TxLDCCEnable and the TxTOHClk pins is
used to insert their value for the D4, D5, D6, D7, D8, D9, D10, D11 and
D12 bytes, into the Transmit STS-3 TOH Processor Block. The Transmit
STS-3 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-3 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.
It should continuously monitor the state of the TxLDCCEnable input pin.
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-3 TOH Processor block) onto the
TxLDCC input pin, upon the rising edge of TxTOHClk.
Any data that is placed on the TxLDCC input pin, will be sampled upon
the falling edge of TxTOHClk.Note:
NOTE: This pin should be connected to GND if it is not used.
23
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
E9
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 is used to insert their value for the E1, F1 and E2 bytes, into the
Transmit STS-3 TOH Processor Block. The Transmit STS-3 TOH Processor block will accept this data and will insert into the E1, F1 and E2
byte-fields, within the outbound STS-3 data-stream.
Whatever external circuitry (which is connected to the TxTOHClk, the
TxE1F1E2 and this output pin), is suppose to do the following.
It should continuously monitor the state of this output pin.
Whenever this output pin pulses "High", then the external circuitry
should place the next orderwire bit (to be inserted into the Transmit STS3 TOH Processor block) onto the TxE1F1E2 input pin, upon the rising
edge of TxTOHClk.
Any data that is placed on the TxE1F1E2 input pin, will be sampled upon
the falling edge of TxOHClk.
C6
TxE1F1E2Frame
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-3 frame.
A4
TxE1F1E2
I
TTL
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 their value for the E1, F1 and E2 bytes, into
the Transmit STS-3 TOH Processor Block. The Transmit STS-3 TOH
Processor block will accept this data and insert it into the E1, F1 and E2
byte fields, within the outbound STS-3 data-stream.
Whatever external circuitry that is interfaced to this input pin, the
TxE1F1E2Enable and the TxTOHClk pins is suppose to do the following.
It should continuously monitor the state of the TxE1F1E2Enable input
pin.
Whenever the TxE1F1E2Enable input pin pulses "High", then the external circuitry should place the next orderwire bit (to be inserted into the
Transmit STS-3 TOH Processor block) onto this input pin upon the rising
edge of TxTOHClk.
Any data that is placed on the TxE1F1E2 input pin, will be sampled upon
the falling edge of TxTOHClk.Note:
NOTE: This pin should be connected to GND if it is not used.
24
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
C7
TXPOH
I
TYPE
TTL
DESCRIPTION
Transmit Path Overhead Input Port - Input pin.
This pin is used for the Transmit AU-4/VC-4 Mapper POH Processor
Block when TUG-3 mapping is used.This input pin is used to insert the
POH data into the Transmit AU-4/VC-4 Mapper POH Processor blocks
for insertion and transmission via the outbound STS-3 signal.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 rising edge of
TxPOHClk_n approximately one TxPOHClk_n period prior to the TxPOH
port being ready to accept and process the first bit within 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 rising 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:
a. assert the TxPOHIns_n input pin by toggling it "High", and
b. place the value of the first bit (within this particular POH byte) on
this input pin upon the very next rising edge of TxPOHClk_n.
This data bit will be sampled upon the very next falling 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 rising edge of TxPOHClk_n.
D9
TXPOHCLK
O
TTL
Transmit Path Overhead Input Port - Clock Output pin:
This pin is used for the Transmit AU-4/VC-4 Mapper POH Processor
Block when TUG-3 mapping is used.
This output pin, along with TxPOH, TxPOHEnable, TxPOHIns and
TxPOHFrame function as the Transmit Path Overhead (TxPOH) Input
Port.
The TxPOHFrame and TxPOHEnable output pins are updated upon the
falling edge this clock output signal. The TxPOHIns input pins and the
data residing on the TxPOH input pins are sampled upon the next falling
edge of this clock signal.
B5
TXPOHFRAME
O
TTL
Transmit Path Overhead Input Port - Frame Output pin:
This pin is used for the Transmit AU-4/VC-4 Mapper POH Processor
Block when TUG-3 mapping is used.
This output pin, along with the TxPOH, TxPOHEnable, TxPOHIns and
TxPOHClk function as the Transmit Path Overhead Input Port.If the user
is only inserting POH data via these input pins:
NOTE: 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.
25
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
C8
TXPOHINS
I
TYPE
TTL
DESCRIPTION
Transmit Path Overhead Input Port - Insert Enable Input pin:
This pin is used for the Transmit AU-4/VC-4 Mapper POH Processor
Block when TUG-3 mapping is used.
These input pins, along with TxPOH, TxPOHEnable, TxPOHFrame and
TxPOHClk 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 falling
edge of TxPOHClk.
NOTE: Conversely, if these input pins are pulled "Low", then the TxPOH
port will NOT sample and latch data via the corresponding
TxPOH input pins.
B6
TXPOHENABLE
O
TTL
Transmit Path Overhead Input Port - POH Indicator Output pin:
This pin is used for the Transmit AU-4/VC-4 Mapper POH Processor
Block when TUG-3 mapping is used.
Th[s output pins, along with TxPOH, TxPOHIns, TxPOHFrame and
TxPOHClk 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.
E10
B8
D11
TxPOH_0
TxPOH_1
TxPOH_2
I
TTL
Transmit Path Overhead Input Port - Input pin.
These input pins are used to insert the POH data into each of the 3
Transmit SONET POH Processor blocks (for insertion and transmission
via the outbound STS-3 signal.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 rising edge of
TxPOHClk_n approximately one TxPOHClk_n period prior to the TxPOH
port being ready to accept and process the first bit within 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 rising 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:
a. assert the TxPOHIns_n input pin by toggling it "High", and
b. place the value of the first bit (within this particular POH byte) on
this input pin upon the very next rising edge of TxPOHClk_n.
This data bit will be sampled upon the very next falling 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 rising edge of TxPOHClk_n.
26
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A5
A6
A7
TxPOHClk_0
TxPOHClk_1
TxPOHClk_2
O
CMOS
Transmit Path Overhead Input Port - Clock Output pin:
These output pins, along with TxPOH_n, TxPOHEnable_n, TxPOHIns_n
and TxPOHFrame function as the Transmit Path Overhead (TxPOH)
Input Port.
The TxPOHFrame and TxPOHEnable 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 upon the next falling edge of this clock signal.
C9
C10
A8
TxPOHFrame_0
TxPOHFrame_1
TxPOHFrame_2
O
CMOS
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 or
not the user inserting POH or TOH data via the TxPOH_n input pins.If
the user is only inserting POH data via these input pins: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.
NOTES:
D10
E11
C11
TxPOHIns_0
TxPOHIns_1
TxPOHIns_2
I
TTL
1.
The externally circuitry can determine whether or not 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.
2.
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.
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 falling 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:
NOTE: If the TxPOHIns_n input pin is pulled "Low", this setting will be
overridden if the user has configured the Transmit SONET/STS1 POH Processor or Transmit STS-1 TOH Processor blocks to
accept certain POH or TOH overhead bytes via the external
port.
B7
B9
B10
TxPOHEnable_0
TxPOHEnable_1
TxPOHEnable_2
O
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.
TRANSMIT LINE/ SYSTEM SIDE INTERFACE PINS
27
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
C12
TXDS3CLK_0
TXE3CLK_0
I
B20
TXDS3CLK_1
TXE3CLK_1
AF17
TXDS3CLK_2
TXE3CLK_2
TYPE
TTL
DESCRIPTION
Transmit DS3/E3 Reference Clock Input - Channel_n (Not used for
Mapper Applications):n=[0:2]
The manner in which the user should handle this input pin depends upon
whether Channe_n has been configured to operate in the Mapper Mode
or in the ATM UNI/PPP Mode.
If Channel_n is configured to operate in the Mapper Mode:
If Channel_n has been configured to operate in the Mapper Mode, then
this input pin supports no function, and should, therefore, be connected
to GND.
If Channel_n is configured to operate in the ATM UNI/PPP/Clear
Channel Mode:
If Channel_n (within the XRT94L31) has been configured to operate in
the ATM UNI/PPP Mode, then this input pin will function as the timing
reference clock signal for the Transmit STS-1/DS3/E3 Framer block circuitry, provided that Channel_n has been configured to operate in the
Local Timing Mode.
If Channel_h has been configured to operate in the DS3 Mode, then the
user is expected to apply a 44.736MHz clock signal to this input pin.
Likewise, if Channel_n has been configured to operate in the E3 Mode,
then the user is expected to apply a 34.368MHz clock signal to this input
pin.
NOTE: For more information on using the XRT94L31 for ATM UNI/PPP
applications, the user should consult the XRT94L31 1-Channel
STS-3c/3-Channel DS3/E3/STS-1 ATM UNI/PPP Data Sheet.
B11
A22
AD16
TxOHClk_0
TxOHClk_1
TxOHClk_2
O
CMOS
Transmit Overhead Clock Output:
This output pin functions as the Transmit Overhead Clock output for the
transmit system side interface when the XRT94L31 is configured to
operate in STS-1/DS3/E3 mode, however, it functions as the Transmit
STS-1 Overhead clock output when the device is configured to operate
in the STS-1 mode.
When configured to operate in DS3/E3 mode:
This output pin functions as the Transmit Overhead Data Input Interface
clock signal. If the user enables the Transmit Overhead Data Input Interface block by asserting the TxOHIns input pin, then the Transmit Overhead Data Input Interface block will sample and latch the data (residing
on the TxOH_n input pin) upon the falling edge of this signal.
When configured to operate in STS-1 mode:
These output pins, along with TxOH_n, TxOHEnable_n, TxOHIns_n and
TxOHFrame function as the Transmit Path Overhead (TxOH) Input Port.
The TxOHFrame and TxOHEnable output pins are updated upon the
falling edge this clock output signal. The TxOHIns_n input pins and the
data residing on the TxOH_n input pins are sampled upon the falling
edge of this clock signal.
28
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
D12
C18
AC16
TxOHENABLE_0
TxOHENABLE_1
TxOHENABLE_2
O
CMOS
Transmit Overhead Enable Output indicator
This output pin functions as the Transmit Overhead Enable output indicator for the transmit system side interface when the XRT94L31 is configured to operate in STS-1/DS3/E3 mode, however, it functions as the
Transmit STS-1 Overhead Enable output when the device is configured
to operate in the STS-1 mode.
When configured to operate in DS3/E3 mode:
The Channel will assert this output pin, for one TxInClk period, just prior
to the instant that the Transmit Overhead Data Input Interface will be
sampling and processing an overhead bit.
If the local terminal equipment intends to insert its own value for an overhead bit, into the outbound DS3 or E3 data stream, then it is expected to
sample the state of this signal, upon the falling edge of TxInClk. Upon
sampling the TxOHEnable_n signal "High", the local terminal equipment
should (1) place the desired value of the overhead bit, onto the TxOH_n
input pin and (2) assert the TxOHIns_n input pin. The Transmit Overhead Data Input Interface block will sample and latch the data on the
TxOH_n signal, upon the rising edge of the very next TxInClk_n input
signal.
When configured to operate in STS-1 mode:
These output pins, along with TxOH_n, TxOHIns_n, TxOHFrame_n and
TxOHClk_n function as the Transmit Path Overhead (TxOH) Input Port.
These output pins will pulse "High" anytime the TxOH port is ready to
accept and process POH bytes. These output pins will be "Low" at all
other times.
29
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
E12
E17
AB16
TxOH_0
TxOH_1
TxOH_2
I
TYPE
TTL
DESCRIPTION
Transmit Overhead Data Input:
This input pin functions as the Transmit Overhead Data output indicator
for the transmit system side interface when the XRT94L31 is configured
to operate in STS-1/DS3/E3 mode, however, it functions as the Transmit
STS-1 Overhead Enable output when the device is configured to operate
in the STS-1 mode.
When configured to operate in DS3/E3 mode:
The Transmit Overhead Data Input Interface accepts overhead via these
input pins, and insert this data into the overhead bit positions within the
outbound DS3 or E3 frames. If the TxOHIns_n input pin is pulled "High",
then the Transmit Overhead Data Input Interface will sample the overhead data, via this input pin, upon the falling edge of the TxOHClk_n output signal.
Conversely, if the TxOHIns_n input pin is NOT pulled "High", then the
Transmit Overhead Data Input Interface block will be inactive and will not
accept any overhead data via the TxOH_n input pin.
When configured to operate in STS-1 mode:
These input pins are used to do the following.
a. To insert the POH data into each of the 3 Transmit STS-1 POH
Processor blocks (for insertion and transmission via each of the
outbound STS-1 signals).2.
b. To insert the TOH data into each of the 3 Transmit STS-1 TOH
Processor blocks (for insertion and transmission via each of the
outbound STS-1 signals).
The function of these input pins, depend upon whether or not the user
has opted to insert the TOH data into the 3 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.
• TxOHFrame_n
• TxOHEnable_n
• TxOHClk_n
The TxOHFrame_n output pin will toggle "High" upon the falling edge of
TxOHClk_n approximately one TxOHClk_n period prior to the TxOH port
being ready to accept and process the first bit within J1 byte (e.g., the
first POH byte). The TxOHFrame_n output pin will remain "High" for
eight consecutive TxOHClk_n periods. The external circuitry should use
this pin to note STS-1 SPE frame boundaries.
The TxOHEnable_n output pin will toggle "High" upon the falling edge of
TxOHClk_n approximately one TxOHClk_n period prior to the TxOH port
being ready to accept and process the first bit within a given POH byte.
If the user wishes to externally insert a given POH byte;
a. assert the TxOHIns_n input pin by toggling it "High", and
b. place the value of the first bit (within this particular POH byte) on
this input pin upon the very next falling edge of TxOHClk_n.
This data bit will be sampled upon the very next falling edge of
TxOHClk_n. The external circuitry should continue to keep the
TxOHIns_n input pin "High" and advancing the next bits (within the POH
bytes) upon each rising edge of TxOHClk_n.
30
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
E12
E17
AB16
TxOH_0
TxOH_1
TxOH_2
I
TYPE
TTL
DESCRIPTION
Continued
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.
• TxOHFrame_n
• TxOHEnable_n
• TxOHClk_n
The TxOHFrame_n output pin will toggle "High" twice during a given
STS-1 frame period. First, this output pin will toggle "High" coincident
with the TxOH 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 TxOH port being ready to accept and process the J1 byte
(e.g., the very first POH byte).
If the externally circuitry samples the TxOHFrame_n output pin "High",
and the TxOHEnable_n output pin "Low", then the TxOH port is now
ready to accept and process the very first TOH byte.
If the externally circuitry samples the TxOHFrame_n output pin "High"
and the TxOHEnable_n output pin "High", then the TxOH port is now
ready to accept and process the very first POH byte.
To externally insert a given POH or TOH byte;
a. assert the TxOHIns_n input pin by toggling it "High", and
b. place the value of the first bit (within this particular POH or TOH
byte) on this input upon the very next falling edge of TxOHClk_n
This data bit will be sampled upon the very next falling edge of
TxOHClk_n. The external circuitry should continue to keep the
TxOHIns_n input pin "High" and advancing the next bits (within the POH
bytes) upon each rising edge of TxOHClk_n.
31
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
F12
B19
AG19
TxOHINS_0
TxOHINS_1
TxOHINS_2
I
TYPE
TTL
DESCRIPTION
Transmit Overhead Data Insert Input:
This input pin functions as the Transmit Overhead Data Insert input indicator for the transmit system side interface when the XRT94L31 is configured to operate in STS-1/DS3/E3 mode, however, it functions as the
Transmit STS-1 Overhead Enable output when the device is configured
to operate in the STS-1 mode.
When configured to operate in DS3/E3 mode:
This input pin is used to either enable or disable the Transmit Overhead
Data Input Interface block within the DS3/E3 Frame Generator block.
If the Transmit Overhead Data Input Interface block is enabled, then the
DS3/E3 Frame Generator block will accept overhead data (from the local
terminal equipment) via the TxOH_n input pin; and insert this data into
the overhead bit positions within the outbound DS3 or E3 data stream.
Conversely, if the Transmit Overhead Data Input Interface block is disabled, then the DS3/E3 Frame Generator block it will NOT accept overhead data from the local terminal equipment.Pulling this input pin "High"
enables the Transmit Overhead Data Input Interface block.
Pulling this input pin "Low" disables the Transmit Overhead Data Input
Interface block.
When configured to operate in STS-1 mode:
These input pins, along with TxOH_n, TxOHEnable_n, TxOHFrame_n
and TxOHClk_n function as the Transmit Overhead (TxOH) Input Port.
These input pins are used to enable or disable the TxOH input port.
If these input pins are pulled "High", then the TxOH port will sample and
latch data via the corresponding TxOH input pins, upon the falling edge
of TxOHClk_n.
Conversely, if these input pins are pulled "Low", then the TxOH port will
NOT sample and latch data via the corresponding TxOH input pins
NOTE: If the TxOHIns_n input pin is pulled "Low", this setting will be
overridden if the user has configured the Transmit SONET/STS1 POH Processor or Transmit STS-1 TOH Processor blocks to
accept certain POH or TOH overhead bytes via the external
port.
32
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A9
D17
AF18
TxOHFRAME_0
TxOHFRAME_1
TxOHFRAME_2
O
CMOS
Transmit Overhead Framing Pulse:
This input pin functions as the Transmit Overhead Framing Pulse for the
transmit system side interface when the XRT94L31 is configured to
operate in DS3/E3 mode, however, it functions as the Transmit STS-1
Overhead Enable output when the device is configured to operate in the
STS-1 mode.
When configured to operate in DS3/E3 mode:
This output pin pulses "High" (for one TxOHClk_n period) coincident with
the instant that the DS3/E3 Frame Generator block will be accepting the
very first overhead bit within an outbound DS3 or E3 frame (via Transmit
Overhead Data Input Interface).
When configured to operate in STS-1 mode:
These output pins, along with the TxOH_n, TxOHEnable_n, TxOHIns_n
and TxOHClk_n function as the Transmit Overhead Input Port.The function of these output pins depends upon whether or not the user inserting
POH or TOH data via the TxOH_n input pins.
If the user is only inserting POH data via these input pins:
In this mode, the TxOH 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 TxOH port will pulse these output pins "High" coincident with the following.
Whenever the TxOH port is ready to accept and process the A1 byte
(e.g., the very first TOH byte) via this port.
Whenever the TxOH port is ready to accept and process the J1 byte
(e.g., the very first POH byte) via this port.
NOTES:
1.
The externally circuitry can determine whether or not the TxOH
port is expecting the A1 byte or the J1 byte, by checking the
state of the corresponding TxOHEnable output pin. If the
TxOHEnable_n output pin is "Low" while the TxOHFrame_n
output pin is "High", then the TxOH port is ready to process the
A1 (TOH) bytes.
2.
If the TxOHEnable_n output pin is "High" while the
TxOHFrame_n output pin is "High", then the TxOH port is ready
to process the J1 (POH) bytes.
33
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AF19
STUFFCNTL_0/
TXHDLC_CLK_0
I/O
TTL/
CMOS
AG21
STUFFCNTL_1/
TXHDLC_CLK_1
AE17
STUFFCNTL_2/
TXHDLC_CLK_2
STUFFCNTL_n/TxHDLC_CLK_n:
The function of this input pin depends upon (1) whether or not the
XRT94L31 has been configured to operate in the ATM UNI/PLCP Mode
and (2) whether a given DS3/E3 Framer block/Channel has been configured to operate in the High-Speed HDLC Controller Mode, as described
below.
STUFFCNT_n:Transmit PLCP Processor block Nibble-Stuff Control
Input pin - ATM UNI Mode Only:
This pin only functions in this particular role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
TxHDLC_CLK[2:0]:Transmit HDLC Controller block Clock output
signal - High-Speed HDLC Controller Mode Only:
This output signal functions as the demand clock for the Transmit HDLC
Controller, associated with the DS3/E3 Framer blocks. Whenever the
user pulls the Snd_Msg input pin "High" then the Transmit HDLC Controller block begins to sample and latch the contents of the TxHDLCDat[7:0] input pins upon the falling edge of this clock signal. The user
is advised to configure their terminal equipment circuitry to output (or
place) data onto the TxHDLCDat[7:0] bus upon the rising edge of this
clock signal.
Since the Transmit HDLC Controller block is sampling and latching 8-bits
of data at a given time, it may be assumed that the frequency of the
TxHDLC_CLK_n output signal is either 34.368MHz/8 or 44.736MHz/8.
In general, this presumption is true. However, because the Transmit
HDLC Controller block is also performing Zero-Stuffing of the user data
that it accepts from the Terminal Equipment, the frequency of this signal
may be slower.
NOTE: If the DS3/E3 Framer block has NOT been configured to operate
in the High-Speed HDLC Controller Mode, tie this pin to GND.
AC17
EIGHTKHZSYNC_0/
RXHDLC_CLK_0
AD17
EIGHTKHZSYNC_1/
RXHDLC_CLK_1
AG20
EIGHTKHZSYNC_2/
RXHDLC_CLK_2
I/O
TTL/
CMOS
EIGHTKHZSYNC_n/RXHDLC_CLK_n:
The function of this input pin depends upon (1) whether or not the
XRT94L31 has been configured to operate in the ATM UNI/PLCP Mode
and (2) whether a given DS3/E3 Framer Block/Channel has been configured to operate in the High-Speed HDLC Controller Mode, as described
below.
EIGHTKHZSYNC_n: Transmit PLCP Processor Block 8kHz Framing
Alignment Input - ATM UNI Mode Only:
This pin only functions in this particular role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
RxHDLC_CLK_n: Receive High-Speed HDLC Controller Output
Interface block - Clock output signal - High-Speed HDLC Controller
over DS3/STS-3 Mode Only:
The Receive High-Speed HDLC Controller Output Interface block outputs data via the RxHDLCDat_n[7:0] output pins upon the rising edge of
this clock signal. The user is advised to configure the terminal equipment to sample the contents of the RxHDLCDat_n[7:0] output pins upon
the falling edge of this clock signal.
NOTE: If the DS3/E3 Framer block has NOT been configured to operate
in the High-Speed HDLC Controller Mode, tie this pin to GND.
D27
TXPERR
I
TTL
For Mapper applications, please connect this pin to GND.
G25
TxPEOP
I
TTL
For Mapper applications, please connect this pin to GND.
34
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
F25
TxMOD_0
I
TTL
For Mapper applications, please connect this pin to GND.
J24
TxUPRTY/TxPPRTY
I
TTL
For Mapper applications, please connect this pin to GND.
H27
TxUDATA_0/
TxPDATA_0
TxUDATA_1/
TxPDATA_1
TxUDATA_2/
TxPDATA_2
TxUDATA_3/
TxPDATA_3
TxUDATA_4/
TxPDATA_4
TxUDATA_5/
TxPDATA_5
TxUDATA_6/
TxPDATA_6
TxUDATA_7/
TxPDATA_7
TxUDATA_8/
TxPDATA_8
TxUDATA_9/
TxPDATA_9
TxUDATA_10/
TxPDATA_10
TxUDATA_11/
TxPDATA_11
TxUDATA_12/
TxPDATA_12
TxUDATA_13/
TxPDATA_13
TxUDATA_14/
TxPDATA_14
TxUDATA_15/
TxPDATA_15
I
TTL
For Mapper applications, please connect this pin to GND.
M24
M23J
27K2
6L25
TxUADDR_0TxUADD
R_1TxUADDR_2TxU
ADDR_3TxUADDR_4
I
TTL
For Mapper applications, please connect this pin to GND.
L26
TxUClav/TxPPA
O
CMOS
For Mapper applications, please leave this pin open.
M25
TxUSOC/TXPSOP/
TXPSOC
I
TTL
For Mapper applications, please connect this pin to GND.
K27
TxTSX /TXPSOF
I
TTL
For Mapper applications, please connect this pin to GND.
M26
TXUENB_L/
TXPENB_L
I
TTL
For Mapper applications, please connect this pin to VDD.
L27
TXUCLKO/TXPCLKO
O
CMOS
For Mapper applications, please leave this pin open.
G27
L24
J26
L23
K25
F27
H26
G26
K24
J25
E27
K23
F26
H25
E26
TYPE
DESCRIPTION
35
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
M27
TXUCLK/TXPCLK
I
TYPE
TTL
DESCRIPTION
For Mapper applications, please connect this pin to GND.
STS-1 TELECOM BUS INTERFACE - TRANSMIT DIRECTION
C14
STS1TXA_CK_0
TXSENDFCS_0
TXGFCCLK_0
E19
STS1TXA_CK_1
TXSENDFCS_1
TXGFCCLK_1
AC14
STS1TXA_CK_2
TXSENDFCS_2
TXGFCCLK_2
I
I
O
TTL
TTL
CMOS
STS-1 Transmit Telecom Bus Clock Input pin/Transmit High-Speed
HDLC Controller Input Interface Block - Send FCS Command Input
pin - Channel n (n=0,1,2):
The function of this input pin depends upon whether or not the STS-1
Telecom Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled STS1TXA_CLK_[0:3] - Transmit STS-1 Telecom Bus Interface Block
Transmit Clock Input - Channel n:
This input clock signal functions as the clock source for the Transmit
STS-1 Telecom Bus, associated with Channel n. All input signals (e.g.,
STS1TXA_ALARM_n, STS1TXA_D_n[7:0], STS1TXA_DP_n,
STS1TXA_PL_n, STS1TXA_C1J1_n) are sampled upon the falling edge
of this input clock signal.This clock signal should operate at 19.44MHz.
(For STS-3 mode) or 6.48MHz (for STS-1 mode).
If STS-1 Telecom Bus (Channel n) has NOT been enabled:
If STS-1 Telecom Bus (Channel n) has not been enabled, then this particular pin can be configured to function in either of the following roles.
TXSENDFCS_n (Transmit High-Speed HDLC Controller Input Interface block Send FCS Command Input - Channel n - High-Speed
HDLC Controller Mode Only)
The user's terminal equipment is expected to control both this input pin
and the TXSENDMSG_0 input pin during the construction and transmission of each outbound HDLC frame.
This input pin is used to command the Transmit HDLC Controller block
to compute and insert the computed FCS value into the back-end of the
outbound HDLC frame as a trailer.
If the user has configured the Transmit HDLC Controller to compute and
insert a CRC-16 value into the outbound HDLC frame, then the terminal
equipment is expected to pull this input pin "High" for two periods of
TxHDLCClk_n.
Likewise, if the user has configured the Transmit HDLC Controller to
compute and insert a CRC-32 value into the outbound HDLC frame,
then the terminal equipment is expected to pull this input pin "High" for
four periods of TxHDLCClk_n.
TXGFCCLK_n (Transmit GFC Nibble-Field Input Port clock signal
Input) - ATM Applications ONLY.
This pin only functions in this particular role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
NOTE: The user should tie this pin to GND if the DS3/E3 Framer block
has NOT been configured to operate in the High-Speed HDLC
Controller Mode.
36
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
E14
STS1TXA_PL_0
TXSENDMSG_0
I
c22
STS1TXA_PL_n
TXSENDMSG_n
AD14
STS1TXA_PL_n
TXSENDMSG_n
TYPE
TTL
DESCRIPTION
STS-1 Transmit Telecom Bus - Payload Indicator Signal input/
Transmit High-Speed HDLC Controller Input Interface block - Send
Message Command Input pin - Channel n (n=0, 1, 2):
The function of this input depends upon whether or not the STS-1 Telecom Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled STS1TXA_PL_n - Transmit STS-1 Telecom Bus Interface - Payload
Indicator Input Signal - Channel n:
This input pin indicates whether or not Transport Overhead (TOH) bytes
are being input via the TXA_D_n[7:0] input pins.
This input pin should be pulled "Low" for the duration that the Transmit
STS-1 Telecom Bus Interface is accepting a TOH byte, via the
TXA_D_n[7:0] input pins. Conversely, this input pin should be pulled
"High" at all other times.
NOTE:
This input signal is sampled upon the falling edge of
STS1TXA_CK_n.
If STS-1 Telecom Bus (Channel n) has NOT been enabled:
If STS-1 Telecom Bus (Channel n) has not been enabled, then this particular pin can either be configured to function as the TxSENDMSG_n
input pin (if the DS3/E3 Framer block within Channel n has been configured to operate in the High-Speed HDLC Controller Mode), or the user
should simply tie this input pin to GND. The details of this pin's role as
the TxSENDMSG_n input pin is described below.
If STS-1 Telecom Bus (Channel n) is disabled: TXSENDMSG_n
(:Transmit High-Speed HDLC Controller Input Interface block Send Message Command Input - Channel n - High-Speed HDLC
Controller Mode Only)
This input pin is used to command the Transmit High-Speed HDLC Controller Input Interface block (associated with Channel n) to begin sampling and latching the data which is being applied to the
TxHDLCDat_n[7:0] input pins.
If the user pulls this input pin "High", then the Transmit High-Speed
HDLC Controller block samples and latches the data which is applied to
the TxHDLCDat_n[7:0] input pins upon the rising edge of TxHDLCClk_n.
Each byte of this sampled data will ultimately be encapsulated into an
outbound HDLC frame and will be mapped into the payload bits within
the outbound DS3/E3 frames via the DS3/E3 Framer block.
If the user pulls this input pin "Low" then the Transmit High-Speed HDLC
Controller block will NOT sample and latch the contents on the
TxHDLCDat_n[7:0] input pins, and the Transmit High-Speed HDLC Controller block will simply generate a continuous stream of flag sequence
octets (0x7E).
NOTE: If the DS3/E3 Framer block has NOT been configured to operate
in the High-Speed HDLC Controller Mode, tie this pin to GND.
37
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
D14
STS1TXA_C1J1_0RX
DS3LINECLK_0
I
A24
STS1TXA_C1J1_nRX
DS3LINECLK_n
AF14
STS1TXA_C1J1_nRX
DS3LINECLK_n
TYPE
TTL
DESCRIPTION
STS-1 Transmit Telecom Bus C1/J1 Byte Phase Indicator Input Signal/Receive DS3/E3/STS-1 Clock Input from LIU (Channel n) (n=0, 1,
2):
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled - Transmit STS1 Telecom Bus Interface - C1/J1 Byte Phase Indicator Input Signal
(Channel n):
This input pin should be pulsed "High" during both of the following conditions.
Coincident to whenever the C1/J0 byte (within the incoming STS-1/STS3/STM-1 signal) is being input to the Transmit STS-1 Telecom Bus Interface - Data Bus Input pins (TXA_D_n[7:0]).
Coincident to whenever the J1 byte(s) (within the incoming STS-1/STS3/STM-1 signal) is being input to the Transmit STS-1 Telecom Bus Interface - Data Bus Input pins (TXA_D_n[7:0]).
This input pin should be held "Low" at all other times.
If STS-1 Telecom Bus (Channel n) has NOT been enabled RXDS3LINECLK_n (Receive DS3/E3/STS-1 clock input from LIU)
The DS3/E3 Framer block and/or the Receive STS-1 TOH Processor
block (associated with Channel n) use this input pin to sample and latch
the data that is present on the RxDS3POS_n and RxDS3NEG_n (for
Dual-Rail Operation only) inputs. This input clock signal also functions
as the timing source for the Ingress Direction signal and circuitry within
the DS3/E3 Framer block of Channel n.
The user is expected to connect this input to the Recovered Clock Output of an off-chip DS3/E3/STS-1 LIU IC.
38
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
B14
STS1TXA_DP_n
RXDS3POS_n
I
C21
STS1TXA_DP_n
RXDS3POS_n
AG15
STS1TXA_DP_n
RXDS3POS_n
TYPE
TTL
DESCRIPTION
STS-1 Transmit Telecom Bus - Parity Input pin/Receive DS3/E3/
STS-1 Positive-Polarity Data Input from LIU - Channel n:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled STS1TXA_DP_n - Transmit STS-1 Telecom Bus Interface # n - Parity
Input Pin:
This input pin can be configured to function as one of the following.
To refect either the EVEN or ODD parity value of the bits (within the
incoming STS-1/STS-3/STM-1 data-stream) which are currently being
input via the STS1TXA_D_n[7:0] input pins.
To reflect either the EVEN or ODD parity value of the bits (within the
incoming STS-1/STS-3/STM-1 data-stream) which are being input via
the STS1TXA_D_n[7:0] input, and the states of the STS1TXA_PL_n and
STS1TXA_C1J1_n input pins.
NOTE: The user can make any one of these configuration selections by
writing the appropriate value into the Interface Control Register
- Byte 0 register (Address Location = 0x013B).
If STS-1 Telecom Bus (Channel n) has NOT been enabled RXDS3POS_n (Receive DS3/E3/STS-1 Positive-Polarity data input
from LIU)
The DS3/E3 Framer block and the Receive STS-1 TOH Processor block
(associated with Channel n) will sample the data being applied to this
input pin upon the user-selected edge of the RXDS3LINECLK_n input
signal.
If the user has configured Channel n to operate in the STS-1 Mode, or in
the Single-Rail Mode (if also configured to operate in the DS3/E3 Mode),
then all Recovered DS3, E3 or STS-1 data (from the DS3/E3/STS-1 LIU
IC) should be applied to this input pin.
If the user has configured Channel n to operate in both the DS3/E3 and
the Dual-Rail Mode, then only the positive-polarity portion of the Recovered DS3/E3 data output (from the DS3/E3 LIU IC) should be applied to
this input pin.
39
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
A13
STS1TXA_ALARM_n
RXDS3NEG_n
RxLCV_n
I
D19
STS1TXA_ALARM_n
RXDS3NEG_n
RxLCV_n
AF15
STS1TXA_ALARM_n
RXDS3NEG_n
RxLCV_n
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus - Alarm Indicator Input - Channel n/
Receive DS3/E3 Negative-Polarity Data Input from LIU - Channel n/
Receive DS3/E3 Line Code Violation Input from LIU - Channel n:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus Interface (associated with Channel n) has
been enabled - Transmit STS-1 Telecom Bus Interface - Alarm Indicator Input - STS1TxA_ALARM_n:
This input pin should be pulsed "High" for one STS1TxA_CLK_n period
coincident to whenever the Transmit STS-1 Telecom Bus Interface
(associated with Channel n) is accepting a byte from an incoming STS-1/
STS-3/STM-1 signal (via the STS1TxA_D_n[7:0] input pins) that is carrying the AIS-P indicator.This input pin should be held at a logic "Low" at
all other times.
NOTE: If the STS1TXA_ALARM_n input signal pulses "High" for any
given STS-1 signal (within the incoming STS-1), then the
XRT94L31 will automatically declare the AIS-P defect condition
for that particular STS-1 channel.
If STS-1 Telecom Bus (Channel n) has NOT been enabled:
If the STS-1 Telecom Bus (Channel n) has NOT been enabled, then the
role that this particular input pin plays depends upon whether Channel n
is operating in the STS-1 Mode, the DS3/E3 Single-Rail Mode or in the
DS3/E3 Dual-Rail Mode, as described below.
If Channel n is operating in the STS-1 Mode - NO FUNCTION:
If Channel n is operating in the STS-1 Mode, then the user should tie this
pin to GND.
If Channel n is operating in the DS3/E3 Single-Rail Mode - Receive
LCV Input from LIU
If Channel n is operating in both the DS3/E3 and Single-Rail Modes,
then this input pin will function as the LCV (Line Code Violation) input
signal. In this mode, the user is expected to connect the LCV output pin
from the LIU IC to this input pin. The DS3/E3 Framer block will sample
this input pin upon the user-configured edge of the RXDS3LINECLK_n
clock signal, and the Primary Frame Synchronizer block (corresponding
with Channel n) will increment the PMON LCV or EXZ Event Count registers based upon the data sampled at this input pin.
If Channel n is operating in the DS3/E3 Dual-Rail Mode - Receive
DS3/E3 Negative-Polarity Data Input from LIU
If the user has configured Channel n to operate in both the DS3/E3 and
the Dual-Rail Mode, then only the negative-polarity portion of the
Receive DS3/E3 data output (from the DS3/E3 LIU IC) should be applied
to this input pin.
40
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
B13
STS1TXA_0_D0
TXHDLCDAT_0_0
TXGFCMSB_0
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 0/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 0:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel n is enabled.
If STS-1 Telecom Bus (Channel n) has been enabled -Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 0 STS1TxA_0_D0:
This input pin along with STS1TXA_D_0[7:1] function as the Transmit
(Add) STS-1 Telecom Bus Interface - Input Data Bus for Channel 0. This
particular input pin functions as the LSB (Least Significant Bit) input pin
on the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus.
The Transmit STS-1 Telecom Bus interface will sample and latch this pin
upon the falling edge of STS1TXA_CLK_0.
The LSB of any byte (within the incoming STS-1/STS-3 or STM-1 signal), which is being input into the Transmit STS-1 Telecom Bus - Input
Data Bus (for Channel 0) should be input via this pin.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled:
This input pin can function in either of the following roles, depending
upon which mode the XRT94L31 has been configured to operate in, as
described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed HDLC
Controller Input Interface block - Channel 0 - Data Bus Input pin # 0 TxHDLCDAT_0_0:
If the XRT94L31 is configured to operate in the High-Speed HDLC
Controller over DS3/STS-3 Mode, then this input pin will function as
Bit 0 (the LSB) within the Transmit High-Speed HDLC Controller
Input Interface block - Input Data Bus (e.g., the TxHDLCData_0[7:0]
input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCData_0[7:0] input pins) upon the rising edge of the
TxHDLCClk_0 clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode
- TXGFCMSB_0 (Transmit GFC MSB Indicator - Channel 0)
- TXGFC_0 (Transmit GFC data - Channel 0)
- TXCELLTXED_0 (Cell Transmitted - Channel 0)
This input pin will only function in this role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
41
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
C13
STS1TXA_0_D1
TXHDLCDAT_0_1
TXGFC_0
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 1/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 1 STS1TxA_0_D1:
This input pin along with STS1TXA_0_D[7:2] and STS1TXA_0_D0 function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus
for Channel 0. The Transmit STS-1 Telecom Bus interface will sample
and latch this pin upon the falling edge of STS1TXA_CLK_0.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled:
This input pin can function in either of the following roles, depending
upon which mode the XRT94L31 has been configured to operate in, as
described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 0 - Data Bus Input
pin # 1 - TxHDLCDAT_0_1:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 1
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode - TXGFC_0 (Transmit GFC data - Channel 0)
This input pin will only function in this role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
42
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
D13
STS1TXA_0_D2
TXHDLCDAT_0_2
TXCELLTXED_0
I
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 2/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 2 STS1TXA_0_D2:
This input pin along with STS1TXA_0_D[7:3] and STS1TXA_0_D[1:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 0. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_0.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled.
This input pin can function in either of the following roles, depending
upon which mode the XRT94L31 has been configured to operate in, as
described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 0 - Data Bus Input
pin # 2 - TXHDLCDAT_0_2:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 1
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode - TXCELLTXED_0 (Cell Transmitted - Channel 0)
This input pin will only function in this role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
43
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
E13
STS1TXA_0_D3
TXHDLCDAT_0_3
SSI_CLK
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 3/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 3/Slow-Speed Interface Clock Input/Output signal:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - Transmit STS-1
Telecom Bus Interface - Input Data Bus pin number 3 - STS1TXA_0_D3:
This input pin along with STS1TXA_0_D[7:4] and STS1TXA_0_D[2:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 0. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_0.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled.
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 0 - Data Bus Input
pin # 3 - TxHDLCDAT_0_3:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 3
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).The Transmit
High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit High-Speed
HDLC Controlller clock output signal (TxHDLCClk_0).
The Transmit High-Speed HDLC Controller Input Interface block will
sample the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 is configured to operate in the DS3/E3/STS-1 to
STS-3/STM-1 Mapper Mode - Slow-Speed Interface for Ingress Path
- Clock Input/Output - SSI_CLK:
This pin along with the SSI_POS and SSI_NEG pins function as the
Slow-Speed Interface for the Ingress Direction signal Path Input/Output
Port.
The Slow-Speed Interface can be configured to function as either an
Input (ADD) or Output (DROP) port, as described below.
44
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
E13
STS1TXA_0_D3
TXHDLCDAT_0_3
SSI_CLK(Continued)
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 3/Transmit High-Speed HDLC Controller Input Interface
block - Input Data Bus - Channel 0 - Pin 3/Slow-Speed Interface Clock Input/Output signal (Continued):
If the XRT94L31 is configured to operate in the DS3/E3/STS-1 to
STS-3/STM-1 Mapper Mode - Slow-Speed Interface for Ingress Path
- Clock Input/Output - SSI_CLK - Continued:
If configured to operate as an Input Port
If the Slow-Speed Interface is configured to operate as an Input Port,
then this port can be configured to accept a DS3, E3 or STS-1 signal
(from external circuitry) and it will ADD this DS3/E3/STS-1 signal into the
Selected Ingress Direction Channel within the XRT94L31. In this mode,
the SSI_CLK will function as a Clock Input signal that can accept either a
34.368MHz, 44.736MHz or 51.84MHz clock signal (depending upon
which type of signal is being ADDed.
If configured to operate as an Output Port:
If the Slow-Speed Interface is configured to operate as an Output Port,
then this port can be configured to output (or DROP out) the Selected
Ingress Direction Channel within the XRT94L31.In this mode, the
SSI_CLK will function as a Clock Output signal which will be at either the
34.368MHz, 44.736MHz or 51.84MHz clock frequency (depending upon
which type of signal is being DROPed)
45
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A12
STS1TXA_0_D4
TXHDLCDAT_0_4
TXDS3OHIND_0
IO
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 4/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 4/Transmit DS3/E3 Overhead Indicator Output - Channel 0:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 4 STS1TXA_0_D4:
This input pin along with STS1TXA_0_D[7:5] and STS1TXA_0_D[3:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input
Data Bus for Channel 0. The Transmit STS-1 Telecom Bus interface will
sample and latch this pin upon the falling edge of STS1TXA_CLK_0.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 0 - Data Bus Input
pin # 4 - TxHDLCDATA_0_4:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 4
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit DS3/E3 Overhead Indicator Output - Channel 0 - TxDS3OHInd_0:
If the XRT94L31 has been configured to operate in the Clear-Channel
Framer over STS-3/STM-1 Mapper Mode, then this output pin can be
configured to functions as the transmit overhead data indicator for the
System-Side terminal equipment, or as a Gapped-Clock output for the
Transmit Payload Data Input Interface. This output pin is pulsed "High"
for one DS3 or E3 bit period in order to indicate (to the System-Side terminal equipment) that the Transmit Section of the Framer is going to be
processing an overhead bit, upon the next rising edge of TxInClk_0, and
will NOT latch the data that is applied to the TxDS3DATA_0 input pin.
46
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A12
STS1TXA_0_D4
TXHDLCDAT_0_4
TXDS3OHIND_0(Con
tinued)
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus - Channel 0 - Input Data Bus pin number 4/Transmit High-Speed HDLC Controller Input Interface block Input Data Bus - Pin 4/Transmit DS3/E3 Overhead Indicator Output Channel 0 - Continued:
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled - Continued:If the XRT94L31 is configured to operate
in the Clear-Channel DS3/E3 Framer over STS-3/STM-1 Mapper
Mode - Transmit DS3 Overhead Indicator - Channel 0 TxDS3OHInd_0 - Continued:
Therefore, whenever the System-Side terminal equipment samples the
TxDS3OHInd_0 output pin "High", then it must not apply the next payload bit to TxDS3DATA_0 input pin.This output pin serves as a warning
that this particular payload bit is going to be ignored by the Transmit Section of the Framer, and will not be inserted into payload bits, within the
outbound DS3 or E3 data stream.
47
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A11
STS1TXA_0_D5TXH
DLCDAT_0_5TXDS3
FP_0
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 0 - Input Data Bus
pin number 5/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 5/Transmit DS3/E3 Frame
Boundary Indicator Output - Channel 0:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 5 STS1TXA_0_D5:
This input pin along with STS1TXA_0_D[7:6] and STS1TXA_0_D[4:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 0. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_0.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed HDLC
Controller Input Interface block - Channel 0 - Data Bus Input pin # 5 TxHDLCDAT_0_5:
If the XRT94L31 is configured to operate in the High-Speed HDLC
Controller over DS3/STS-3 Mode, then this input pin will function as
Bit 5 within the Transmit High-Speed HDLC Controller Input Interface block - Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0).
The Transmit High-Speed HDLC Controller Input Interface block will
sample the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/E3
Framer over STS-3/STM-1 Mapper Mode - Transmit DS3/E3 Frame
Boundary Indicator Output - Channel 0 - TxDS3FP_0:
This output pin is pulse "High" for one DS3 or E3 clock period, when the
Transmit Payload Data Input Interface block of Channel 0 (within the
XRT94L31) is processing the last bit of a given DS3 or E3 frame.
48
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
B12
STS1TXA_0_D6
TXHDLCDAT_0_6
TXDS3DATA_0
TXSBDATA_6_0
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 0 - Data Bus Input
pin number 6/Transmit High-Speed HDLC Controller Input Interface
block - Channel 0 - Input Data Bus - Pin 6/Transmit DS3/E3 Serial
Data Input - Channel 0:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 6:
STS1TXA_0_D6:
This input pin along with STS1TXA_0_D7 and STS1TXA_0_D[5:0] function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus
for Channel 0. The Transmit STS-1 Telecom Bus interface will sample
and latch this pin upon the falling edge of STS1TXA_CLK_0.
If the STS-1 Telecom Bus Interface (associated with Channel 0) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode -Transmit High-Speed HDLC
Controller Input Interface block - Data Bus Input pin # 6 - Channel 0 TxHDLCDAT_0_6:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 6
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit Payload Data
Input Interface -Channel 0 - Transmit DS3/E3 Serial Data Input TxDS3DATA_0:
If the XRT94L31 is configured to operate in the Clear-Channel Framer
over STS-3/STM-1 Mapper mode, then this input pin functions as the
Transmit Payload Data Serial Input pin for Channel 0. In this case, the
System-Side terminal equipment is expected to apply all outbound data
(which is intended to be carried via the DS3 or E3 payload bits) to this
input pin.
The Transmit Payload Data Input Interface will sample the data, residing
at the TxDS3DATA_0 input pin, upon the rising edge of TxInClk.
49
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
A10
STS1TXA_D7_0
TXHDLCDAT_7_0
TXAISEN_0
TXSBDATA_7_0
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 0 - Input Data Bus pin
number 7/Transmit High-Speed HDLC Controller Input Interface block Input Data Bus - Pin 7/Transmit DS3/E3 AIS Input Pin - Channel 0:
The function of this pin depends upon whether or not the STS-1 Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled -Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 7:
STS1TXA_0_D7:
This input pin along with STS1TXA_0_D[6:0] function as the Transmit
(Add) STS-1 Telecom Bus Interface - Input Data Bus for Channel 0. The
Transmit STS-1 Telecom Bus interface will sample and latch this pin
upon the falling edge of STS1TXA_CLK_0.
NOTE: This input pin functions as the MSB (Most Significant Bit) of the
Transmit (Add) Telecom Bus, for Channel 0.
If the STS-1 Telecom Bus (associated with Channel 0) has been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Data Bus Input Pin # 7 Channel 0 - TXHDLCDAT_0_7:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 5
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_0[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_0). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_0[7:0] input pins) upon the rising edge of the TxHDLCClk_0
clock output signal.
If the XRT94L31 is configured to operate in any other mode that
involves the DS3/E3 Framer block - Transmit DS3/E3 AIS Enable
Input - Channel 0 - TXAISEN_0:
This input pin is used to command the Frame Generator block (within
Channel 0) to generate and transmit the DS3/E3 AIS pattern, as
described below.
• "Low" - Configures the Frame Generator block to NOT generate and
transmit the DS3/E3 AIS Pattern
• "High" - Configures the Frame Generator block to generate and
transmit the DS3/E3 AIS Pattern
NOTE: If the user intends to control the transmission of DS3/E3 AIS via
Software, then this input pin mudt be tied to GND.
50
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
B23
STS1TXA_1_D0
TXHDLCDAT_1_0
TXGFCMSB_1
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 1 - Input Data Bus
pin number 0/Transmit High-Speed HDLC Controller Input Interface
block - Channel 1 - Input Data Bus - Pin 0:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 0 STS1TXA_1_D0:
This input pin along with STS1TXA_1_D[7:1] functions as the Transmit
(Add) STS-1 Telecom Bus Interface - Input Data Bus for Channel 1. This
particular input pin functions as the LSB (Least Significant Bit) input pin
on the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus.
The Transmit STS-1 Telecom Bus Interface will sample and latch this pin
upon the falling edge of STS1TXA_CLK_1.
The LSB of any byte, which is being input into the STS-1 Transmit Telecom Bus Interface - Data Bus (for Channel 1) should be input via this
pin.
If the STS-1 Telecom Bus (associated with Channel 1) has been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - - Transmit High-Speed
HDLC Controller Input Interface block - Data Bus Input Pin # 0 Channel 1 - TxHDLCDAT_1_0:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 0 (the
LSB) within the Transmit High-Speed HDLC Controller Input Interface
block - Input Data Bus (e.g., the TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
TXGFCMSB_1 (Transmit GFC MSB Indicator - Channel 1)
This input pin will only function in this role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
51
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
C20
STS1TXA_1_D1
TXHDLCDAT_1_1
TXGFC_1
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 1 - Data Bus Input
pin number 1/Transmit High-Speed HDLC Controller Input Interface
block - Input Data Bus - Pin 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 1 STS1TxA_1_D1:
This input pin along with STS1TXA_1_D[7:2] and STS1TXA_1_D0 function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus
for Channel 1. The Transmit STS-1 Telecom Bus interface will sample
and latch this pin upon the falling edge of STS1TXA_CLK_1.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input pin can function in either of the following roles, depending
upon which mode the XRT94L31 has been configured to operate in, as
described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 1 - Data Bus Input
pin # 1 - TXHDLCDAT_1_1:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 1
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode
- TXGFC_1 (Transmit GFC data - Channel 1)
If the XRT94L31 has been configured to operate in the 3-Channel
DS3/E3/STS-1 to STS-3/STM-1 Mapper Mode
- NO FUNCTION:
The user should tie this input pin to GND.
52
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
B22
STS1TXA_1_D2
TXHDLCDAT_1_2
TXCELLTXED_1
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 1 - Data Bus Input
pin number 2/Transmit High-Speed HDLC Controller Input Interface
block - Channel 1 - Input Data Bus - Pin 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 2 STS1TXA_1_D2:
This input pin along with STS1TXA_1_D[7:3] and STS1TXA_1_D[1:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 1. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_1.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled.
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Transmit High-Speed HDLC
Controller Input Interface block - Channel 1 - Data Bus Input pin # 2
- TxHDLCDAT_1_2:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 1
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode
- TXCELLTXED_1 (Cell Transmitted - Channel 1)
53
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
E18
STS1TXA_1_D3
TXHDLCDAT_1_3
SSI_POS
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 1 - Data Bus Input
pin number 3/Transmit High-Speed HDLC Controller Input Interface
block - Channel 1 - Input Data Bus - Pin 3/Slow-Speed Interface Positive Polarity Data Input/Output signal:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled -Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 3:
STS1TXA_1_D3:
This input pin along with STS1TXA_1_D[7:4] and STS1TXA_1_D[2:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 1. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_1.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 1 - Data Bus Input
pin # 3 - TXHDLCDAT_1_3:
In this mode this input pin will function as Bit 3 within the Transmit HighSpeed HDLC Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 is configured to operate in the DS3/E3/STS-1 to
STS-3/STM-1 Mapper Mode - Slow Speed Interface for Ingress Path
- Positive-Polarity Data Input/Output - SSI_POS:
This pin along with the SSI_NEG and SSI_CLK pins function as the
Slow-Speed Interface for the Ingress Direction Signal Path Input/Output
Port and can be configured to function as either an Input (ADD) or Output (DROP) port.
If the SSI Port is configured to operate as an Input (ADD) Port:
Then this port can be configured to accept a DS3, E3 or STS-1 signal
(from external circuitry) and it will ADD this DS3/E3/STS-1 signal into the
Selected Ingress Direction Channel within the XRT94L31. In this mode,
the SSI_POS will function as the Positive-Polarity Portion of the DS3/E3/
STS-1 signal that is being ADDed. In this mode, the SSI Port will sample
the data (being applied to this pin) upon the rising edge of SSI_CLK.
If the SSI Interface is configured to operate as an Output (DROP)
Port:
Then this port can be configured to output (or DROP out) the Selected
Ingress Direction Channel within the XRT94L31.In this mode the
SSI_POS will output the Positive Polarity portion of this selected Ingress
Direction signal. This output pin will be updated upon the falling edge of
the SSI_CLK output pin.
54
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A23
STS1TXA_1_D4
TXHDLCDAT_1_4
TXDS3OHIND_1
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 1 - Input Data Bus
Input pin number 4/Transmit High-Speed HDLC Controller Input
Interface block -Channel 1 - Input Data Bus - Pin 4/Transmit DS3/E3
Overhead Indicator Output - Channel 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 4:
STS1TXA_1_D4:
This input pin along with STS1TXA_1_D[7:5] and STS1TXA_1_D[3:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 1. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_1.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 1 - Data Bus Input
pin # 4 - TxHDLCDAT_1_4:
Then this input pin will function as Bit 4 within the Transmit High-Speed
HDLC Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1).
The Transmit High-Speed HDLC Controller Input Interface block will
sample the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit DS3/E3 Overhead Indicator Output - Channel 1 - TXDS3OHIND_1:
This output pin will pulse "High" one bit-period prior to the time that the
DS3/E3 Frame Generator block (within Channel 1) will be processing an
Overhead bit. The purpose of this outpout pin is to warn the Terminal
Equipment that, during the very next bit-period, the DS3/E3 Frame Generator block is going to be processing an Overhead Bit and will be ignoring any data that is applied to to the TxDS3DATA_1 input pin.
NOTE: This output pin can be ignored providing that either the Primary
or Secondary Frame Synchronizer block is always up-stream
from the DS3/E3 Frame Generator block.
55
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
C19
STS1TXA_1_D5
TXHDLCDAT_1_5
TXDS3FP_1
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 1 - Input Data Bus
pin number 5/Transmit High-Speed HDLC Controller Input Interface
block - Channel 1 - Input Data Bus - Pin 5/Transmit DS3/E3 Frame
Boundary Indicator Output - Channel 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled -Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 5:
STS1TXA_1_D5:
This input pin along with STS1TXA_1_D[7:6] and STS1TXA_1_D[4:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 1. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_1.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 1 - Data Bus Input
pin # 5 -TXHDLCDAT_1_5:
If the XRT94L31 is configured to operate in the High-Speed HDLC Controller over DS3/STS-3 Mode, then this input pin will function as Bit 5
within the Transmit High-Speed HDLC Controller Input Interface block Input Data Bus (e.g., the TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit DS3/E3
Frame Boundary Indicator Output - Channel 1 - TXDS3FP_1:
This output pin is pulse "High" for one DS3 or E3 clock period, when the
Transmit Payload Data Input Interface block of Channel 1 (within the
XRT94L31) is processing the last bit of a given DS3 or E3 frame.
56
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
D18
STS1TXA_1_D6
TXHDLCDAT_1_6
TXDS3DATA_1
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 1 - Data Bus Input
pin number 6/Transmit High-Speed HDLC Controller Input Interface
block - Channel 1 - Input Data Bus - Pin 6/Transmit DS3/E3 Serial
Data Input - Channel 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 6 STS1TXA_1_D6:
This input pin along with STS1TXA_1_D7 and STS1TXA_1_D[5:0] function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus
for Channel 1. The Transmit STS-1 Telecom Bus interface will sample
and latch this pin upon the falling edge of STS1TXA_CLK_1.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Data Bus Input pin # 6 Channel 1 - TxHDLCDAT_1_6:
This input pin will function as Bit 6 within the Transmit High-Speed HDLC
Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 is configured to operate in the the Clear-Channel
DS3/E3 Framer over STS-3/STM-1 Mapper Mode - Transmit Payload
Data Input Interface - Channel 1 - Transmit DS3/E3 Serial Data Input
- TXDS3DATA_1:
This input pin functions as the Transmit Payload Data Serial Input pin for
Channel 1. In this case, the System-Side terminal equipment is
expected to apply all outbound data (which is intended to be carried via
the DS3 or E3 payload bits) to this input pin.
The Transmit Payload Data Input Interface will sample the data, residing
at the TxDS3DATA_1 input pin, upon the rising edge of TxInClk.
57
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
B21
STS1TXA_1_D7TXH
DLCDAT_1_7TXAISE
N_1
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 1 - Input Data Bus
pin number 7/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 7/Transmit DS3/E3 AIS
Input Pin - Channel 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled -Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 7:
STS1TXA_1_D7:
This input pin along with STS1TXA_1_D[6:0] function as the Transmit
(Add) STS-1 Telecom Bus Interface - Input Data Bus for Channel 1. The
Transmit STS-1 Telecom Bus interface will sample and latch this pin
upon the falling edge of STS1TXA_CLK_1.
NOTE: This input pin functions as the MSB (Most Significant Bit) of the
Transmit (Add) Telecom Bus, for Channel 1.
If the STS-1 Telecom Bus (associated with Channel 1) has been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Data Bus Input Pin # 7 Channel 1 -TXHDLCDAT_1_7:
This input pin will function as Bit 5 within the Transmit High-Speed HDLC
Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_1[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_1).
The Transmit High-Speed HDLC Controller Input Interface block will
sample the data residing on this input pin (along with the rest of the
TxHDLCDat_1[7:0] input pins) upon the rising edge of the TxHDLCClk_1
clock output signal.
If the XRT94L31 is configured to operate in any other mode that
involves the DS3/E3 Framer block - Transmit DS3/E3 AIS Enable
Input - Channel 1 - TXAISEN_1:T
his input pin is used to command the Frame Generator block (within
Channel 1) to generate and transmit the DS3/E3 AIS pattern, as
described below.
• "Low" - Configures the Frame Generator block to NOT generate and
transmit the DS3/E3 AIS Pattern
• "High" - Configures the Frame Generator block to generate and
transmit the DS3/E3 AIS Pattern
NOTE: If the transmission of DS3/E3 AIS is controlled via Software, then
this input pin MUST be tied to GND
58
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AE15
STS1TXA_2_D0
TXHDLCDAT_2_0
TXGFCMSB_2
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 2 - Input Data Bus
pin number 0/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 0:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 0 STS1TXA_2_D0:
This input pin along with STS1TXA_D_2[7:1] functions as the Transmit
(Add) STS-1 Telecom Bus Interface - Input Data Bus for Channel 2. This
particular input pin functions as the LSB (Least Significant Bit) input pin
on the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus.
The Transmit STS-1 Telecom Bus interface will sample and latch this pin
upon the falling edge of STS1TXA_CLK_2.
The LSB of any byte, which is being input into the STS-1 Transmit Telecom Bus Interface - Data Bus (for Channel 2) should be input via this
pin.
If the STS-1 Telecom Bus (associated with Channel 2) has been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface Block - Data Bus Input pin # 0 Channel 2 - TXHDLCDAT_2_0:
In this mode, this input pin will function as Bit 0 (the LSB) within the
Transmit High-Speed HDLC Controller Input Interface block - Input Data
Bus (e.g., the TxHDLCDat_2[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_2). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
TXGFCMSB_2 (Transmit GFC MSB Indicator - Channel 2)
This input pin will only function in this role if the XRT94L31 has been
configured to operate in the ATM UNI Mode.
59
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
AD15
STS1TXA_2_D1
TXHDLCDAT_2_1
TXGFC_2
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 2 - Data Bus Input pin
number 1/Transmit High-Speed HDLC Controller Input Interface block Input Data Bus - Pin 1:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 1 STS1TxA_2_D1:
This input pin along with STS1TXA_2_D[7:2] and STS1TXA_2_D0 functions as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 2. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_2.
If the STS-1 Telecom Bus Interface (associated with Channel 2) has
been disabled:
This input pin can function in either of the following roles, depending
upon which mode the XRT94L31 has been configured to operate in.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 2 - Data Bus Input
pin # 2 - TXHDLCDAT_2_1:
In this mode this input pin will function as Bit 1 within the Transmit HighSpeed HDLC Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_2[7:0] input pins).The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit High-Speed HDLC Controlller clock
output signal (TxHDLCClk_2). The Transmit High-Speed HDLC Controller Input Interface block will sample the data residing on this input pin
(along with the rest of the TxHDLCDat_2[7:0] input pins) upon the rising
edge of the TxHDLCClk_2 clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode
- TXGFC_2 (Transmit GFC data - Channel 2)
If the XRT94L31 has been configured to operate in the 3-Channel
DS3/E3/STS-1 to STS-3/STM-1 Mapper Mode
- NO FUNCTION:
Tie this input pin to GND.
60
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AC15
STS1TXA_2_D2
TXHDLCDAT_2_2
TXCELLTXED_2
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 2 - Data Bus Input
pin number 2/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 2 STS1TXA_2_D2:
This input pin along with STS1TXA_2_D[7:3] and STS1TXA_2_D[1:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 2. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_2.
If the STS-1 Telecom Bus Interface (associated with Channel 2) has
been disabled.
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed HDLC
Controller Input Interface block - Transmit High-Speed HDLC Controller
Input Interface block - Channel 2- Data Bus Input pin # 2
TXHDLCDAT_2_2:
In this mode, this input pin will function as Bit 1 within the Transmit HighSpeed HDLC Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_2[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_2). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
If the XRT94L31 has been configured to operate in the ATM UNI
Mode
- TXCELLTXED_2 (Cell Transmitted - Channel 2)
61
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AG16
STS1TXA_2_D3
TXHDLCDAT_2_3
SSI_NEG
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 2 - Data Bus Input
pin number 3/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 3/Slow-Speed Interface Negative Polarity Data Input/Output signal:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 3 STS1TXA_2_D3:
This input pin along with STS1TXA_2_D[7:4] and STS1TXA_2_D[2:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 2. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_2.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 2 - Data Bus Input
Pin # 3 TXHDLCDAT_2_3:
In this mode, this input pin will function as Bit 3 within the Transmit HighSpeed HDLC Controller Input Interface block - Input Data Bus (e.g., the
TxHDLCDat_2[7:0] input pins).The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit High-Speed HDLC Controlller clock
output signal (TxHDLCClk_2).
The Transmit High-Speed HDLC Controller Input Interface block will
sample the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
If the XRT94L31 is configured to operate in the DS3/E3/STS-1 to
STS-3/STM-1 Mapper Mode - Slow-Speed Interface for Ingress Path
- Negative-Polarity Data Input/Output - SSI_NEG:
This pin along with the SSI_POS and SSI_CLK pins function as the
Slow-Speed Interface for the Ingress Direction Signal Path Input/Output
Port. which can be configured to function as either an Input (ADD) or
Output (DROP) port.
If the SSI Port is configured to operate as an Input (ADD) Port:
In this configuration this port can be configured to accept a DS3, E3 or
STS-1 signal (from external circuitry) and it will ADD this DS3/E3/STS-1
signal into the Selected Ingress Direction Channel within the XRT94L31.
In this mode, the SSI_NEG will function as the Negative-Polarity Portion
of the DS3/E3/STS-1 signal that is being ADDed. In this mode, the SSI
Port will sample the data (being applied to this pin) upon the rising edge
of SSI_CLK.
If the SSI Port is configured to operate as an Output (DROP) Port:
If the Slow-Speed Interface is configured to operate as an Output Port,
then this port can be configured to output (or DROP out) the Selected
Ingress Direction Channel within the XRT94L31.
In this mode, the SSI_NEG will output the Negative Polarity portion of
this selected Ingress Direction signal. This output pin will be updated
upon the falling edge of the SSI_CLK output pin.
62
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AG17
STS1TXA_2_D4
TXHDLCDAT_2_4
TXDS3OHIND_2
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 2 - Data Bus Input
pin number 4/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 4/Transmit DS3/E3 Overhead Indicator Output - Channel 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 4 STS1TXA_2_D4:
This input pin along with STS1TXA_2_D[7:5] and STS1TXA_2_D[3:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 2. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_2.
If the STS-1 Telecom Bus Interface (associated with Channel 2) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 2 - Data Bus Input
Pin # 4 -TXHDLCDAT_2_4:
in this configuration, this input pin will function as Bit 4 within the Transmit High-Speed HDLC Controller Input Interface block - Input Data Bus
(e.g., the TxHDLCDat_2[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_2). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit DS3/E3 Overhead Indicator Output - Channel 2 - TXDS3OHIND_2:
This output pin will pulse "High" one bit-period prior to the time that the
DS3/E3 Frame Generator block (within Channel 2) will be processing an
Overhead bit. The purpose of this outpout pin is to warn the Terminal
Equipment that, during the very next bit-period, the DS3/E3 Frame Generator block is going to be processing an Overhead Bit and will be ignoring any data that is applied to to the TxDS3DATA_2 input pin.
NOTE: This output pin can be ignored provide that either the Primary or
Secondary Frame Synchronizer block is always up-stream from
the DS3/E3 Frame Generator block.
63
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AF16
STS1TXA_2_D5
TXHDLCDAT_2_5
TXDS3FP_2
I/O
TTL/
CMOS
Transmit STS-1 Telecom Bus Interface - Channel 2 - Input Data Bus pin
number 5/Transmit High-Speed HDLC Controller Input Interface block Channel 2 - Input Data Bus - Pin 5/Transmit DS3/E3 Frame Boundary
Indicator Output - Channel 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS-1
Telecom Bus Interface - Input Data Bus pin number 5 - STS1TXA_2_D5:
This input pin along with STS1TXA_2_D[7:6] and STS1TXA_2_D[4:0]
function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data
Bus for Channel 2. The Transmit STS-1 Telecom Bus interface will sample and latch this pin upon the falling edge of STS1TXA_CLK_2.
If the STS-1 Telecom Bus Interface (associated with Channel 1) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Channel 2 - Data Bus Input
Pin # 5 - TXHDLCDAT_2_5:
In this configuration, this input pin will function as Bit 5 within the Transmit High-Speed HDLC Controller Input Interface block - Input Data Bus
(e.g., the TxHDLCDat_2[7:0] input pins).
The Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_2). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit DS3/E3
Frame Boundary Indicator Output - Channel 1 - TXDS3FP_2:
This output pin is pulse "High" for one DS3 or E3 clock period, when the
Transmit Payload Data Input Interface block of Channel 2 (within the
XRT94L31) is processing the last bit of a given DS3 or E3 frame.
64
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
AG18
STS1TXA_2_D6TXH
DLCDAT_2_6TXDS3
DATA_2
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 2 - Data Input Bus
pin number 6/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 6/Transmit DS3/E3 Serial
Data Input - Channel 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 6 STS1TXA_2_D6:
This input pin along with STS1TXA_2_D7 and STS1TXA_2_D[5:0] function as the Transmit (Add) STS-1 Telecom Bus Interface - Input Data Bus
for Channel 2. The Transmit STS-1 Telecom Bus interface will sample
and latch this pin upon the falling edge of STS1TXA_CLK_2.
If the STS-1 Telecom Bus Interface (associated with Channel 2) has
been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Data Bus Input pin # 6 Channel 2 - TXHDLCDAT_2_6:
In this configuration, this input pin will function as Bit 6 within the Transmit High-Speed HDLC Controller Input Interface block - Input Data Bus
(e.g., the TxHDLCDat_2[7:0] input pins).The Transmit High-Speed
HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit High-Speed HDLC Controlller clock output signal (TxHDLCClk_2).
The Transmit High-Speed HDLC Controller Input Interface block will
sample the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
If the XRT94L31 is configured to operate in the Clear-Channel DS3/
E3 Framer over STS-3/STM-1 Mapper Mode - Transmit Payload Data
Input Interface - Channel 2 - Transmit DS3/E3 Serial Data Input TXDS3DATA_2:
In this configuration, this input pin functions as the Transmit Payload
Data Serial Input pin for Channel 2. In this case, the System-Side terminal equipment is expected to apply all outbound data (which is intended
to be carried via the DS3 or E3 payload bits) to this input pin.
The Transmit Payload Data Input Interface will sample the data, residing
at the TxDS3DATA_2 input pin, upon the rising edge of TxInClk.
65
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
AE16
STS1TXA_2_D7
TXHDLCDAT_2_7
TXAISEN_2
I
TYPE
TTL
DESCRIPTION
Transmit STS-1 Telecom Bus Interface - Channel 2 - Input Data Bus
pin number 7/Transmit High-Speed HDLC Controller Input Interface
block - Channel 2 - Input Data Bus - Pin 7/Transmit DS3/E3 AIS
Input Pin - Channel 2:
The function of this pin depends upon whether or not the STS-1 Telecom
Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled - Transmit STS1 Telecom Bus Interface - Input Data Bus pin number 7 STS1TXA_2_D7:
This input pin along with STS1TXA_2_D[6:0] function as the Transmit
(Add) STS-1 Telecom Bus Interface - Input Data Bus for Channel 2. The
Transmit STS-1 Telecom Bus interface will sample and latch this pin
upon the falling edge of STS1TXA_CLK_2.
NOTE: This input pin functions as the MSB (Most Significant Bit) of the
Transmit (Add) Telecom Bus, for Channel 2.
If the STS-1 Telecom Bus (associated with Channel 2) has been disabled:
This input/output pin can function in either of the following roles, depending upon which mode the XRT94L31 has been configured to operate in,
as described below.
If the XRT94L31 has been configured to operate in the High-Speed
HDLC Controller over DS3/STS-3 Mode - Transmit High-Speed
HDLC Controller Input Interface block - Data Bus Input Pin # 7 Channel 2 -TXHDLCDAT_2_7:
In this configuration, this input pin will function as Bit 5 within the Transmit High-Speed HDLC Controller Input Interface block - Input Data Bus
(e.g., the TxHDLCDat_2[7:0] input pins).T
he Transmit High-Speed HDLC Controller Input Interface block will provide the System-Side Terminal equipment with a byte-wide Transmit
High-Speed HDLC Controlller clock output signal (TxHDLCClk_2). The
Transmit High-Speed HDLC Controller Input Interface block will sample
the data residing on this input pin (along with the rest of the
TxHDLCDat_2[7:0] input pins) upon the rising edge of the TxHDLCClk_2
clock output signal.
If the XRT94L31 is configured to operate in any other mode that
involves the DS3/E3 Framer block
- Transmit DS3/E3 AIS Enable Input - Channel 2 - TXAISEN_2:
This input pin is used to command the Frame Generator block (within
Channel 1) to generate and transmit the DS3/E3 AIS pattern, as
described below.
• "Low" - Configures the Frame Generator block to NOT generate and
transmit the DS3/E3 AIS Pattern
• "High" - Configures the Frame Generator block to generate and
transmit the DS3/E3 AIS Pattern
If the XRT94L31 is configured to operate in any other mode that
involves the DS3/E3 Framer block - Transmit DS3/E3 AIS Enable
Input - Channel 2 - TXAISEN_2:
NOTE: To control the transmission of DS3/E3 AIS via Software, this input
pin must be tied to GND.
RECEIVE SYSTEM SIDE INTERFACE PINS
66
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
B15
C23
AG13
RxOH_0
RxOH_1
RxOH_2
O
CMOS
Receive Overhead Data Output Interface - output
This output pin functions as the Receive Overhead Data output for the
receive system side interface when the XRT94L31 is configured to operate in DS3/E3 mode, however, it functions as the Receive STS-1 Overhead Data output when the device is configured to operate in the STS-1
mode.
When configured to operate in DS3/E3 mode:
All overhead bits, which are received via the Receive Section of the
channel, will be output via this output pin, upon the rising edge of
RxOHClk_n.
When configured to operate in STS-1 mode:
These output pins, along with RxOHEnable_n, RxOHClk_n and
RxOHFrame_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 RxOHClk_n. As a consequence, external circuitry receiving this data, should sample this data
upon the rising edge of RxOHClk_n.
NOTES:
C15
D21
AF13
RxOHENABLE_0
RxOHENABLE_1
RxOHENABLE_2
O
CMOS
1.
The external circuitry can determine whether or not it is
receiving POH or TOH data via this output pin.
The
RxOHEnable_n output pin will be "High" anytime POH data is
being output via these output pins.
Conversely, the
RxOHEnable_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
RxOH_0, and so on.
Receive Overhead Data Output Interface - Enable Output
This output pin functions as the Receive Overhead Enable output for the
receive system side interface when the XRT94L31 is configured to operate in DS3/E3 mode, however, it functions as the Receive STS-1 Overhead Data output when the device is configured to operate in the STS-1
mode.
When configured to operate in DS3/E3 mode:
The channel will assert this output signal for one RxOHClk_n period
when it is safe for the local terminal equipment to sample the data on the
RxOH_n output pin.
When configured to operate in STS-1 mode:
These output pins, along with RxOHClk_n, RxOHFrame_n and RxOH_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 RxOH_n output pins.
These output pins will toggle "High" coincident with when POH data is
being output via the RxOH_n output pins. Conversely, these output pins
will toggle "Low" coincident with when TOH data is being output via the
RxOH_n output pins.
These output pins are updated upon the falling edge of RxOHClk_n. As
a consequence, external circuitry, receiving this data, should sample this
data upon the rising edge of RxOHClk_n.
67
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
D15
E20
AE13
RxOHCLK_0
RxOHCLK_1
RxOHCLK_2
O
CMOS
Receive Overhead Data Output Interface - clock
This output pin functions as the Receive Overhead Clock output for the
receive system side interface when the XRT94L31 is configured to operate in DS3/E3 mode, however, it functions as the Receive STS-1 Overhead Clock output when the device is configured to operate in the STS-1
mode.
When configured to operate in DS3/E3 mode:
The channel will output the overhead bits (within the incoming DS3 or E3
frames) via the RxOH_n output pin, upon the falling edge of this clock
signal.
As a consequence, the user's local terminal equipment should use the
rising edge of this clock signal to sample the data on both the RxOH and
RxOHFrame output pins.
NOTE: This clock signal is always active.
When configured to operate in STS-1 mode:
These output pins, along with RxOH_n, RxOHFrame_n, and
RxOHEnable_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 RxOH_n,
RxSTS1Frame_n and RxOHEnable_n output pins are updated upon the
falling edge of this clock signal.
E15
D22
AD13
RxOHFRAME_0
RxOHFRAME_1
RxOHFRAME_2
O
CMOS
Receive Overhead Data Interface - Framing Pulse indicator
This output pin functions as the Receive Overhead Clock output for the
receive system side interface when the XRT94L31 is configured to operate in DS3/E3 mode, however, it functions as the Receive STS-1 Overhead Clock output when the device is configured to operate in the STS-1
mode.
When configured to operate in DS3/E3 mode:
This output pin pulses "High" whenever the Receive Overhead Data
Output Interface block outputs the first overhead bit of a new DS3 or E3
frame.
When configured to operate in STS-1 mode:
These output pins, along with RxOH_n, RxOHEnable_n and RxOHClk_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.
When the very first TOH byte (A1), of a given STS-1 frame, is being output via the corresponding RxOH_n output pin.
When the very first POH byte (J1), of a given STS-1 frame, is being output via the corresponding RxOH_n output pin.
The external circuitry can determine whether or not these output pins are
pulsing "High" for the first TOH or POH byte by checking the state of the
corresponding RxOHEnable_n output pin.
Y26
RxPERR
O
CMOS
For mapper applications, Please let this pin float.
AB27
RxPEOP
O
CMOS
For mapper applications, Please let this pin float.
AA26
RxPDVAL
O
CMOS
For mapper applications, Please let this pin float.
V24
RxMOD_0
O
CMOS
For mapper applications, Please let this pin float.
V25
RxUPRTY/RxPPRTY
O
CMOS
For mapper applications, Please let this pin float.
68
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
U23
RxUDATA_0
RxPDATA_0
RxUDATA_1
RxPDATA_1
RxUDATA_2
RxPDATA_2
RxUDATA_3
RxPDATA_3
RxUDATA_4
RxPDATA_4
RxUDATA_5
RxPDATA_5
RxUDATA_6
RxPDATA_6
RxUDATA_7
RxPDATA_7
RxUDATA_8
RxPDATA_8
RxUDATA_9
RxPDATA_9
RxUDATA_10
RxPDATA_10
RxUDATA_11
RxPDATA_11
RxUDATA_12
RxPDATA_12
RxUDATA_13
RxPDATA_13
RxUDATA_14
RxPDATA_14
RxUDATA_15
RxPDATA_15
O
CMOS
For mapper applications, Please let these pins float.
R23
R24
R25
R26
R27
RxUADDR_0
RxUADDR_1
RxUADDR_2
RxUADDR_3
RxUADDR_4
I
TTL
For mapper applications, Please connect these pins to GND
P27
RxUClav/RxPPA
O
CMOS
For mapper applications, Please let this pin float.
P25
RxUSOC/RxPSOP/
RxPSOC
O
CMOS
For mapper applications, Please let this pin float.
P23
RxTSX/RXPSOF
O
CMOS
For mapper applications, Please let this pin float.
P24
RXUENB_L/
RXPENB_L
I
TTL
For mapper applications, Please connect this pin to VDD
P26
RXUCLKO/
RXPCLKO
O
CMOS
For mapper applications, Please let this pin float.
W26
U24
AA27
Y27
U25
V26
W27
T23
T24
U26
T25
V27
T26
U27
T27
DESCRIPTION
69
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
N27
RXUCLK/RXPCLK
I
TTL
For mapper applications, Please connect this pin to GND
A16
J23
AC13
EXTLOS_0
EXTLOS_1
EXTLOS_2
I
TTL
Receive LOS (Loss of Signal) Indicator Input (from an off-chip DS3/
E3/STS-1 LIU IC):
These input pins are intended to be connected to a corresponding RLOS
(Receive Loss of Signal) output pin of an off-chip DS3/E3/STS-1 LIU IC.
Through this connection, if a given LIU Channel declares the LOS defect
condition, it will (in-turn) drive the corresponding EXTLOS_n input pin (to
the XRT94L31) to the logic "High" level.
If the a given channel (within the XRT94L31) is configured to operate in
either the DS3 or E3 Mode, and if the off-chip LIU IC asserts the corresponding EXTLOS_n input pin (by driving it to the logic "High" level),
then the DS3/E3 Framer block (within this particular channel) will automatically declare the LOS defect condition (for the duration that this
input pin is driven to a logic "High".
If the LIU Channel toggles this input pin "Low", then the corresponding
DS3/E3 Framer block (within the XRT94L31) will MOST LIKELY clear
the LOS defect condition.
NOTES:
1.
The DS3/E3 Framer block can be configured to declare and
clear the LOS defect condition based upon both the state of this
input pin and the content within the incoming DS3/E3 datastream. However, the DS3/E3 Framer block will
UNCONDITIONALLY declare the LOS defect condition, if its
corresponding EXTLOS_n input pin is driven to the logic "High"
level.
2.
These input pins are ignored if their corresponding Channel
has been configured to operate in the STS-1 Mode. The
Receive STS-1 TOH Processor block will only declare and
clear the LOS defect condition based the number of
consecutive All Zero bytes that are detected within the
incoming STS-1 data-stream.
A14D
20AE
14
RxOOF_0RxOOF_1R
xOOF_2
O
CMOS
Receive STS-1/DS3/E3 Out of Frame IndicatorThe STS-1/DS3/E3
Receive DS3 Framer will assert this output signal whenever it has
declared an Out of Frame (OOF) condition with the incoming DS3
frames. This signal is negated when the framer correctly locates the Fand M-bits and regains synchronization with the DS3 frame.
A15B
24AG
14
RxLOS_0RxLOS_1R
xLOS_2
O
CMOS
STS-1/DS3/E3 Framer - Loss of Signal Output Indicator:
This pin is asserted when the Receive Section of the channel encounters 180 consecutive 0's (for DS3 applications) or 32 consecutive 0's (for
E3 applications) via the RxPOS_n and RxNEG pins. For STS-1 applications, users can set the LOS threshold value in the Receive LOS Threshold register. (RxSTOH_LOS_TH, Address Location: 0xN02E - 0xN02F)
This pin will be negated once the Receive DS3/E3 Framer has detected
at least 60 1s out of 180 consecutive bits (for DS3 applications) or has
detected at least four consecutive 32 bit strings of data that contain at
least 8 1s in the receive path.
70
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
STS-1 TELECOM BUS INTERFACE - RECEIVE DIRECTION
A21
STS1RXD_CK_0
RXVALIDFCS_0
RXGFCCLK_0
O
CMOS
Receive STS-1/STS-3 Telecom Bus Clock Output - Channel 0;
The function of this input pin depends upon whether or not the STS-1
Telecom Bus Interface associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled STS-1 Receive Telecom Bus Clock Output - Channel
0;STS1RXD_CK_0:
All signals, which are output via the Receive Telecom Bus - Channel 0
are clocked out upon the rising edge of this clock signal. This includes
the following signals.
• STS1RXD_D_0[7:0]
• STS1RXD_ALARM_0
• STS1RXD_DP_0
• STS1RXD_PL_0
• STS1RXD_C1J1_0
This clock signal will operate at 19.44MHz (For STS-3 mode) or
6.48MHz (Fro STS-1 mode)
RXVALIDFCS_0 (Receive HDLC block valid FCS Indicator - Channel
0)
RXGFCCLK_0 (Receive ATM GFC clock signal - Channel 0)
H24
STS1RXD_CK_1
RXVALIDFCS_1
RXGFCCLK_1
TxP_STPA
O
CMOS
Receive STS-1 Telecom Bus Clock Output - Channel 1;
The function of this input pin depends upon whether or not the STS-1
Telecom Bus Interface associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus Clock Output - Channel 1;
STS1RXD_CK_1:
All signals, which are output via the Receive Telecom Bus - Channel 1
are clocked out upon the rising edge of this clock signal. This includes
the following signals.
• STS1RXD_D_1[7:0]
• STS1RXD_ALARM_1
• STS1RXD_DP_1
• STS1RXD_PL_1
• STS1RXD_C1J1_1
This clock signal will operate at 19.44MHz. (For STS-3 mode) or
6.48MHz (Fro STS-1 mode)
RXVALIDFCS_1 (Receive HDLC block valid FCS Indicator - Channel
1)
RXGFCCLK_1 (Receive ATM GFC clock signal - Channel 1)
TxP_STPA (Transmit PPP Level 2 Selected Channel Packet Available)
71
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
AG8
STS1RXD_CK_2
RXVALIDFCS_2
RXGFCCLK_2
O
CMOS
DESCRIPTION
Receive STS-1 Telecom Bus Clock Output - Channel 2;
The function of this input pin depends upon whether or not the STS-1
Telecom Bus Interface associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus Clock Output - Channel 2;
STS1RXD_CK_2:
All signals, which are output via the Receive Telecom Bus - Channel 2
are clocked out upon the rising edge of this clock signal. This includes
the following signals.
• STS1RXD_D_2[7:0]
• STS1RXD_ALARM_2
• STS1RXD_DP_2
• STS1RXD_PL_2
• STS1RXD_C1J1_2
This clock signal will operate at 19.44MHz. (For STS-3 mode) or
6.48MHz (Fro STS-1 mode)
RXVALIDFCS_2 (Receive HDLC block valid FCS Indicator - Channel
2)
RXGFCCLK_2 (Receive ATM GFC clock signal - Channel 2)
A20
D26
AE11
STS1RXD_PL_0
RXIDLE_0
RXLCD_0
STS1RXD_PL_1
RXIDLE_1
RXLCD_1
STS1RXD_PL_2
RXIDLE_2
RXLCD_2
O
CMOS
STS-1 Receive (Drop) Telecom Bus - Payload Indicator Output Signal - Channel n:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface block associated with Channel n has been
enabled or disabled.
If the STS-1 Telecom Bus Interface (associated with Channel n) is
enabled
- STS-1/STS-1 Receive (Drop) Telecom Bus - Payload Indicator Output STS1RXD_PL_0:
This output pin indicates whether or not Transport Overhead bytes are
being output via the STS1RXD_D_0[7:0] output pins.
This output pin is pulled "Low" for the duration that the STS-1 Receive
Telecom Bus is transmitting a Transport Overhead byte via the
STS1RXD_D_0[7:0] output pins.
Conversely, this output pin is pulled "High" for the duration that the STS1 Receive Telecom Bus is transmitting something other than a Transport
Overhead byte via the STS1RXD_D_0[7:0] output pins.
RXIDLE_0 (Receive HDLC block idle indicator - Channel n)
RXLCD_0 (Receive Cell Processor Loss of Cell Delineation - Channel n)
72
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
C17
STS1RXD_C1J1_0
TXDS3LINECLK_0
O
CMOS
E25
STS1RXD_C1J1_1
TXDS3LINECLK_1
AF10
STS1RXD_C1J1_2
TXDS3LINECLK_2
STS-1 Receive Telecom Bus - C1/J1 Byte Phase Indicator Output
Signal - Channel n:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled - STS-1
Receive Telecom Bus - C1/J1 Byte Phase Indicator Output Signal:
This output pin pulses "High" under the following two conditions.Whenever the C1 byte is being output via the STS1RXD_D_0[7:0] output, and
Whenever the J1 byte is being output via the STS1RXD_D_0[7:0] output.
NOTES:
1.
The STS-1 Receive (Drop) Telecom Bus (associated with
Channel n) will indicate that it is transmitting the C1 byte (via
the STS1RXD_D_0[7:0] output pins), by pulsing this output pin
"High" (for one period of STS1RXD_CK_0) and keeping the
STS1RXD_PL_0 output pin pulled "Low".
2.
The STS-1 Receive (Drop) Telecom Bus (associated with
Channel n) will indicate that it is transmitting the J1 byte (via the
STS1RXD_D_0[7:0] output pins), by pulsing this output pin
"High" (for one period of STS1RXD_CK_0) while the
STS1TXD_PL_0 output pin is pulled "High".
TXDS3LINECLK_0 (Transmit DS3/E3/STS-1 line clock to LIU - Channel n)
B18
STS1RXD_DP_0
TXDS3POS_0
G24
STS1RXD_DP_1
TXDS3POS_1
AG9
STS1RXD_DP_2
TXDS3POS_2
O
CMOS
STS-1 Receive (Drop) Telecom Bus - Parity Output pin - Channel n:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled
- STS-1 Receive Telecom Bus - Parity Output pin:
This output pin can be configured to function as one of the following.
The EVEN or ODD parity value of the bits which are output via the
STS1RXD_D_0[7:0] output pins.
The EVEN or ODD parity value of the bits which are being output via the
STS1RXD_D_0[7:0] output pins and the states of the STS1RXD_PL_0
and STS1RXD_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-1 Telecom Bus Interface
associated with Channel n.
NOTE: The user can make any one of these configuration selections by
writing the appropriate value into the Telecom Bus Control
Register (Address Location = 0x013B).TXDS3POS_0 (Transmit
DS3/E3/STS-1 line data positive to LIU- Channel n)
73
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A19
STS1RXD_ALARM_0
TXDS3NEG_0
O
CMOS
H23
STS1RXD_ALARM_1
TXDS3NEG_1/
AB12
STS1RXD_ALARM_2
TXDS3NEG_2
STS-1 Receive (Drop) Telecom Bus - Alarm Indicator Output signal Channel n:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface for Channel n has been enabled.
If STS-1 Telecom Bus (Channel n) has been enabled
- STS-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 STS1RXD_D_n[7:0] output pins) that is carrying an
AIS-P indicator.
This output pin is "Low" for all other conditions.
TXDS3NEG_n (Transmit DS3/E3 line data negative to LIU - Channel
n)
F16
STS1RXD_D0_0
RXHDLCDAT_0_0
RXGFCMSB_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 0:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - STS-1
Receive Telecom Bus
- Output Data bus pin number 0: STS1RXD_D0_0
This output pin along with STS1RXD_D_0[7:1] function as the STS-1
Receive (Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-1 Telecom Bus Interface will update the data via this output upon
the rising edge of STS1RXD_CK_0:.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 0.
RXHDLCDAT_0_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 0)
RXGFCMSB_0 (Receive GFC MSB Indicator - Channel 0)
E16
STS1RXD_D1_0
RXHDLCDAT_1_0
RXGFC_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 1:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled - STS-1
Receive Telecom Bus
- Output Data bus pin number 1: STS1RXD_D1_0
This output pin along with STS1RXD_D_0[7:2] and STS1RXD_D0_0
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_0.
RXHDLCDAT_1_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 1):
RXGFC_0 (Receive GFC output data - Channel 0)
74
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
D16
STS1RXD_D2_0
RXHDLCDAT_2_0
RXCELLRXED_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 2:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 2:
STS1RXD_D2_0
This output pin along with STS1RxD_D_0[7:3] and STS1RxD_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 STS1RxD_CK_0.
RXHDLCDAT_2_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 2)
RXCELLRXED_0 (Receive cell received indicator - Channel 0)
B17
STS1RXD_D3_0
RXHDLCDAT_3_0
SSE_CLK
OO
IO
O
CMOS
CMOS
TTL/
CMOS
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 3:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 3:
STS1RXD_D3_0
This output pin along with STS1RXD_D_0[7:4] and STS1RXD_D_0[2:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_0.
RXHDLCDAT_3_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 3)
SSE_CLK (Slow Speed Clock Interface for Egress Path)
C16
STS1RXD_D4_0
RXHDLCDAT_4_0
RXOHIND_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 4:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 4:
STS1RXD_D4_0
This output pin along with STS1RXD_D_0[7:5] and STS1RXD_D_0[3:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_0.
RXHDLCDAT_4_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 4)
RXOHIND_0 (Receive Overhead Indicator - Channel 0)
75
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
A18
STS1RXD_D5_0
RXHDLCDAT_5_0
RXDS3FP_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number
5:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 5:
STS1RXD_D5_0
This output pin along with STS1RXD_D_0[7:6] and STS1RXD_D_0[4:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_0.
RXHDLCDAT_5_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 5)
RXDS3FP_0 (Receive DS3 frame pulse - Channel 0)
B16
STS1RXD_D6_0
RXHDLCDAT_6_0
RXDS3DATA_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 6:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 6:
STS1RXD_D6_0
This output pin along with STS1RXD_D7_0 and STS1RXD_D_0[5:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 0. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_0.
RXHDLCDAT_6_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 6)
RXDS3DATA_0 (Receive DS3 data - Channel 0)
A17
STS1RXD_D7_0
RXHDLCDAT_7_0
RXDS3CLK_0
O
CMOS
Receive STS-1 Telecom Bus - Channel 0 - Output Data Bus pin number 7:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 0 is enabled.
If STS-1 Telecom Bus (Channel 0) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 7:
STS1RXD_D7_0
This output pin along with STS1RXD_D_0[6:0] function as the STS-1
Receive (Drop) Telecom Bus - Output Data Bus for Channel 0. The
STS-1 Telecom Bus Interface will update the data via this output upon
the rising edge of STS1RXD_CK_0:.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-1 Receive (Drop) Telecom Bus Interface - Output Data Bus
(Channel 0).
RXHDLCDAT_7_0 (Receive HDLC block data output - Channel 0 Output Data Bus pin 7)
RXDS3CLK_0 (Receive DS3 clock - Channel 0)
76
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
F24
STS1RXD_D0_1
RXHDLCDAT_0_1
RXGFCMSB_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number 0:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 0:
STS1RXD_D0_1
This output pin along with STS1RXD_D_1[7:1] function as the STS-1
Receive (Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-1 Telecom Bus Interface will update the data via this output upon
the rising edge of STS1RXD_CK_1.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 1.
RXHDLCDAT_0_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 0)RXGFCMSB_1 (Receive GFC MSB Indicator Channel 1)
H22
STS1RXD_D1_1
RXHDLCDAT_1_1
RXGFC_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number 1:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 1:
STS1RXD_D1_1
This output pin along with STS1RXD_D_1[7:2] and STS1RXD_D0_1
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_1.
RXHDLCDAT_1_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 1)
RXGFC_1 (Receive GFC output data - Channel 1)
D25
STS1RXD_D2_1
RXHDLCDAT_2_1
RXCELLRXED_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number
2:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 2:
STS1RXD_D2_1This output pin along with STS1RXD_D_1[7:3] and
STS1RXD_D_1[1:0] function as the STS-1 Receive (Drop) Telecom Bus
- Output Data Bus for Channel 1. The STS-1 Telecom Bus Interface will
update the data via this output upon the rising edge of STS1RXD_CK_1.
RXHDLCDAT_2_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 2)
RXCELLRXED_1 (Receive cell received indicator - Channel 1)
77
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
G23
STS1RXD_D3_1
RXHDLCDAT_3_1
SSE_POS
OO
IO
O
CMOS
CMOS
TTL/
CMOS
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number
3:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 3:
STS1RXD_D3_1
This output pin along with STS1RXD_D_1[7:4] and STS1RXD_D_1[2:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_1.
RXHDLCDAT_3_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 3)
SSE_POS (Slow Speed Interface Data Positive for Egress Path)
D23
STS1RXD_D4_1RXH
DLCDAT_4_1RXOHI
ND_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number 4:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 4:
STS1RXD_D4_1
This output pin along with STS1RXD_D_1[7:5] and STS1RXD_D_1[3:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_1.
RXHDLCDAT_4_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 4)
RXOHIND_1 (Receive Overhead Indicator - Channel 1)
E21
STS1RXD_D5_1RXH
DLCDAT_5_1RXDS3
FP_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number
5:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 5:
STS1RXD_D5_1
This output pin along with STS1RXD_D_1[7:6] and STS1RXD_D_1[4:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_1.
RXHDLCDAT_5_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 5)
RXDS3FP_1 (Receive DS3 frame pulse - Channel 1)
78
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
C24
STS1RXD_D6_1RXH
DLCDAT_6_1RXDS3
DATA_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number 6:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 6:
STS1RXD_D6_1
This output pin along with STS1RXD_D7_1 and STS1RXD_D_1[5:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 1. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_1.
RXHDLCDAT_6_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 6):
RXDS3DATA_1 (Receive DS3 data - Channel 1):
F20
STS1RXD_D7_1
RXHDLCDAT_7_1
RXDS3CLK_1
O
CMOS
Receive STS-1 Telecom Bus - Channel 1 - Output Data Bus pin number 7:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 1 is enabled.
If STS-1 Telecom Bus (Channel 1) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 7:
STS1RXD_D7_1
This output pin along with STS1RXD_D_1[6:0] function as the STS-1
Receive (Drop) Telecom Bus - Output Data Bus for Channel 1. The
STS-1 Telecom Bus Interface will update the data via this output upon
the rising edge of STS1RXD_CK_1.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-1 Receive (Drop) Telecom Bus Interface - Output Data Bus
(Channel 1).
RXHDLCDAT_7_1 (Receive HDLC block data output - Channel 1 Output Data Bus pin 7)
RXDS3CLK_1 (Receive DS3 clock - Channel 1)
AC12
STS1RXD_D0_2
RXHDLCDAT_0_2
RXGFCMSB_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 0:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 0:
STS1RXD_D0_2
This output pin along with STS1RXD_D_2[7:1] function as the STS-1
Receive (Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-1 Telecom Bus Interface will update the data via this output upon
the rising edge of STS1RXD_CK_2.
NOTE: This input pin functions as the LSB (Least Significant Bit) of the
Receive (Drop) Telecom Bus for Channel 2.
RXHDLCDAT_0_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin 0)
RXGFCMSB_2 (Receive GFC MSB Indicator - Channel 2)
79
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AD12
STS1RXD_D1_2
RXHDLCDAT_1_2
RXGFC_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 1:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 1:
STS1RXD_D1_2
This output pin along with STS1RXD_D_2[7:2] and STS1RXD_D0_2
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_2.
RXHDLCDAT_1_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin 1)
RXGFC_2 (Receive GFC output data - Channel 2)
AF11
STS1RXD_D2_2RXH
DLCDAT_2_2
RXCELLRXED_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 2:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 2:
STS1RXD_D2_2
This output pin along with STS1RXD_D_2[7:3] and STS1RXD_D_2[1:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_2.
RXHDLCDAT_2_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin 2)
RXCELLRXED_2 (Receive cell received indicator - Channel 2)
AE12
STS1RXD_D3_2
RXHDLCDAT_3_2
SSE_NEG
OO
IO
O
CMOS
CMOS
TTL/
CMOS
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 3:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 3:
STS1RXD_D3_2
This output pin along with STS1RXD_D_2[7:4] and STS1RXD_D_2[2:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_2.
RXHDLCDAT_3_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin 3)
SSE_NEG (Slow Speed Interface Data Negative for Egress Path)
80
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AG10
STS1RXD_D4_2RXH
DLCDAT_4_2RXOHI
ND_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 4:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 4:
STS1RXD_D4_2
This output pin along with STS1RXD_D_2[7:5] and STS1RXD_D_2[3:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_2.
RXHDLCDAT_4_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin 4)
RXOHIND_2 (Receive Overhead Indicator - Channel 2)
AF12
STS1RXD_D5_2RXH
DLCDAT_5_2RXDS3
FP_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 5:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 5:
STS1RXD_D5_2
This output pin along with STS1RXD_D_2[7:6] and STS1RXD_D_2[4:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_2.
RXHDLCDAT_5_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin5)
RXDS3FP_2 (Receive DS3 frame pulse - Channel 2)
AG11
STS1RXD_D6_2RXH
DLCDAT_6_2RXDS3
DATA_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 6:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 6:
STS1RXD_D6_2
This output pin along with STS1RXD_D7_2 and STS1RXD_D_2[5:0]
function as the STS-1 Receive (Drop) Telecom Bus - Output Data Bus
for Channel 2. The STS-1 Telecom Bus Interface will update the data via
this output upon the rising edge of STS1RXD_CK_2.
RXHDLCDAT_6_2 (Receive HDLC block data output - Channel 2 Output Data Bus pin 6)
RXDS3DATA_2 (Receive DS3 data - Channel 2)
81
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AG12
STS1RXD_D7_2
RXHDLCDAT_7_2
RXDS3CLK_2
O
CMOS
Receive STS-1 Telecom Bus - Channel 2 - Output Data Bus pin number 7:
The function of this output pin depends upon whether or not the STS-1
Telecom Bus Interface, associated with Channel 2 is enabled.
If STS-1 Telecom Bus (Channel 2) has been enabled
- STS-1 Receive Telecom Bus - Output Data bus pin number 7:
STS1RXD_D7_2
This output pin along with STS1RXD_D_2[6:0] function as the STS-1
Receive (Drop) Telecom Bus - Output Data Bus for Channel 2. The
STS-1 Telecom Bus Interface will update the data via this output upon
the rising edge of STS1RXD_CK_2.
NOTE: This output pin functions as the MSB (Most Significant Bit) for the
STS-1 Receive (Drop) Telecom Bus Interface - Output Data Bus
(Channel 2).RXHDLCDAT_7_2 (Receive HDLC block data
output - Channel 2 - Output Data Bus pin 7)RXDS3CLK_2
(Receive DS3 clock - Channel 2)
RECEIVE TRANSPORT OVERHEAD INTERFACE
AD5
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 permits is used to obtain the value of the
TOH Bytes, within the incoming STS-3/STM-1 signal.
This output pin provides the user with a clock signal. If the RxTOHValid
output pin is "High", then the contents of the TOH bytes, within the
incoming STS-3 data-stream will be serially output via the RxTOH output.
This data will be updated upon the falling edge of this clock signal.
Therefore, the user is advised to sample the data (at the RxTOH output
pin) upon the rising edge of this clock output signal.
AC7
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.
AE4
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-3 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-3 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.
82
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AB8
RxTOHFrame
O
CMOS
Receive TOH Output Port - STS-3/STM-1 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-3 frame) being
output via the RxTOH output pin.
AD7
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 XRT94L31.
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.
It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
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.
AE5
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 XRT94L31.
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-3 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.
It should continuously sample and monitor the state of the RxLDCCVAL
output pin upon the rising edge of RxTOHClk.
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.
AD8
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
XRT94L31.
This output pin pulses "High" (for one period of RxTOHClk) coincident to
when the very first bit (of the E1 byte) is being output vi the RxE1F1E2
output pin.
83
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AC9
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
XRT94L31.
This pin outputs the contents of the Order-Wire bytes (e.g., the E1, F1
and E2 bytes) within the incoming STS-3 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 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.
It should continuously sample and monitor the state of the RxE1F1E2Val
and RxE1F1E2FP output pins upon the rising edge of RxTOHClk.
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.
The Order-Wire circuitry should continue to sample and latch the contents of the output pin until the RxE1F2E2Val output pin is sampled
"Low".
AC8
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 XRT94L31.
This pin outputs the contents of the Section DCC (e.g., the D1, D2 and
D3 bytes), within the incoming STS-3 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.
It should continuously sample and monitor the state of the RxSDCCVAL
output pin upon the rising edge of RxTOHClk.
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.
84
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AD6
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 XRT94L31.
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.
It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
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.
AF4
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 XRT94L31.
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.
It should continuously sample and monitor the state of this output pin
upon the rising edge of RxTOHClk.
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.
AE6
RXPOH
O
CMOS
Receive AU-4/VC-4/STS-3c Mapper POH Processor Block - Path
Overhead Output Port - Output Pin:
This output pin, along with the RxPOHClk, RxPOHFrame and RxPOHValid function as the AU-4/VC-4 Mapper POH Processor block - POH
Output port.
These pins serially output the POH data that have been received by the
Receive AU-4/VC-4 Mapper POH Processor block (via the incoming
STS-3 data-stream). Each bit, within the POH bytes is updated (via
these output pins) upon the falling edge of RxPOHClk. As a consequence, external circuitry receiving this data, should sample this data
upon the rising edge of RxPOHClk.
85
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AG4
RXPOHCLK
O
CMOS
Receive AU-4/VC-4/STS-3c Mapper POH Processor Block - Path
Overhead Output Port - Clock Output Signal:
This output pin, along with RxPOH, RxPOHFrame and RxPOHValid
function as the AU-4/VC-4 Mapper POH Processor block - POH Output
Port.
These output pins function as the Clock Output signals for the AU-4/VC4 Mapper POH Processor Block- POH Output Port. The RxPOH, RxPOHFrame and RxPOHValid 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.
AE7
RXPOHFRAME
O
CMOS
Receive AU-4/VC-4/STS-3c Mapper POH Processor Block - Path
Overhead Output Port - Frame Boundary Indicator:
This output pin, along with the RxPOH, RxPOHClk and RxPOHValid output pins function as the AU-4/VC-4 Mapper 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 output pin.
AD9
RXPOHVALID
O
CMOS
Receive AU-4/VC-4/STS-3c Mapper POH Processor Block - Path
Overhead Output Port - Valid POH Data Indicator:
This output pin, along with RxPOH, RxPOHClk and RxPOHFrame function as the AU-4/VC-4 Mapper 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 output pins. This output is updated upon
the falling edge of RxPOHClk. Hence, external circuitry should sample
these signals upon rising edge of RxPOHClk.
AF5
AG5
AF8
RxPOH_0
RxPOH_1
RxPOH_2
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-3 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.
AE8
AE9
AG6
RxPOHClk_0
RxPOHClk_1
RxPOHClk_2
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.
86
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
DESCRIPTION
AF6A
D10A
E10
RxPOHFrame_0
RxPOHFrame_1
RxPOHFrame_2
O
CMOS
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.
AC10
AF7A
C11
RxPOHValid_0
RxPOHValid_1
RxPOHValid_2
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.
AD11
LOF
O
CMOS
Receive STS-3 LOF (Loss of Frame) Indicator:
This output pin indicates whether or not the Receive STS-3 TOH Processor block (within the device) is currently declaring the LOF defect condition as described below.
"Low" - Indicates that the Receive STS-3 TOH Processor block is NOT
currently declaring the LOF defect condition.
"High" - Indicates that the Receive STS-3 TOH Processor block is currently declaring the LOF defect condition.
AF9
SEF
O
CMOS
Receive STS-3 SEF (Severed Errored Frame) Indicator:
This output pin indicates whether or not the Receive STS-3 TOH Processor block (within the device) is currently declaring the SEF defect condition as described below.
"Low" - Indicates that the Receive STS-3 TOH Processor block is NOT
currently declaring the SEF defect condition.
"High" - Indicates that the Receive STS-3 TOH Processor block is currently declaring the SEF defect condition.
AG7
LOS
O
CMOS
Receive STS-3 LOS (Loss of Signal) Defect Declared Indicator:
This output pin indicates whether or not the Receive STS-3 TOH Processor block (within the device) is currently declaring the LOS defect condition as described below.
"Low" - Indicates that the Receive STS-3 TOH Processor block is NOT
currently declaring the LOS defect condition.
"High" - Indicates that the Receive STS-3 TOH Processor block is currently declaring the LOS defect condition.
GENERAL PURPOSE INPUT/OUTPUT
87
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
TYPE
W25
AC27
V23
AB26
Y25
AC26
W24
AA25
GPI0_0
GPI0_1
GPI0_2
GPI0_3
GPI0_4
GPI0_5
GPI0_6
GPI0_7
I/O
TTL/
CMOS
DESCRIPTION
General Purpose Input/Output pin:
NOTE: x = 0:7
This input pin can be configured to function as either an input or output
pin by writing the appropriate value into Bit x (GPIO_DIR_x), within the
Operation General Purpose Input/Output Direction Register - 0 (Address
Location = 0x014B).
If this pin is configured to be an input pin the state of this pin can be monitored by reading the state of Bit x (GPIO_x) within the Operation General Purpose Input/Output Register - Byte 0 (Address Location =
0x0147).
If this pin is configured to be an output pin the state of this pin can be
controlled by writing the appropriate value into Bit x (GPIO_x) within the
Operation General Purpose Input/Output Register - Byte 0 (Address
Location = 0x0147).
CLOCK INPUTS
E7
REFCLK34
I
TTL
E3 Reference Clock Input for the Jitter Attenuator within the DS3/E3
Mapper Block:
To operate any of the channels (within the XRT94L31) in the E3 Mode,
apply a clock 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.
For E3 Applications, the DS3/E3 Framer block will use this input clock
signal, as a timing source in order to transmit the E3 AIS pattern, in the
Egress Direction (e.g., from the XRT94L31 to the DS3/E3/STS-1 LIU
IC).
NOTE: Connect this pin to GND if none of the channels of the XRT94L31
are to be operated in the E3 or if the XRT94L31 is to be
operated in the SFM mode.
D5
REFCLK51
I
TTL
STS-1 Reference Clock Input for the Jitter Attenuator within the
DS3/E3 Mapper Block.
To operate any of the channels (within the XRT94L31) in the STS-1/
STM-0 Mode, apply a clock 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.
NOTES:
1.
If the XRT94L31 is to be operated in the SFM Mode, apply a
12.288MHz±20ppm clock signal to this input pin.
2.
If the user does not intend to operate any of the channels in the
STS-1/STM-0 Mode, connect this input pin to GND.
88
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
F7
REFCLK45
I
TYPE
TTL
DESCRIPTION
DS3 Reference Clock Input for the Jitter Attenuator within the DS3/
E3 Mapper Block:
To operate any of the channels of the XRT94L31 in the DS3 Mode, apply
a clock 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.
For DS3 Applications, the DS3/E3 Framer block will use this input clock
signal, as a timing source in order to transmit the DS3 AIS Pattern, in the
Egress Direction (e.g., from the XRT94L31 to the DS3/E3/STS-1 LIU
IC).
If the user does not intend to operate any of the three (3) channels in the
DS3 Mode, or if the user intends to configure the XRT94L31 to operate
in the SFM Mode, connect this input pin to GND.
BOUNDARY SCAN
F5
TDO
O
CMOS
Test Data Out: Boundary Scan Test data output
F4
TDI
I
TTL
TEST Data In: Boundary Scan Test data input:
NOTE: This input pin should be pulled "Low" for normal operation.
D3
TRST
I
TTL
JTAG Test Reset Input
E4
TCK
I
TTL
Test clock: Boundary Scan clock inputNote:
NOTE: This input pin should be pulled "Low" for normal operation.
E5
TMS
I
TTL
Test Mode Select: Boundary Scan Mode Select inputNote:
NOTE: This input pin should be pulled "Low" for normal operation.
FILTERING CAPACITORS
U6
RXCAPP
I
ANALOG
External Loop Capacitor for Receive PLL:
This pin connects to the positive side of the external capacitor, which is
used to minimize jitter peaking.
U5
RXCAPN
I
ANALOG
External Loop Capacitor for Receive PLL:
This pin connects to the negative side of the external capacitor, which is
used to minimize jitter peaking.
W6
RXCAPP_R
I
ANAL0 External Redundant Loop Capacitor for Receive PLL:
OG
This pin connects to the positive side of the external capacitor, which is
used to minimize jitter peaking.
W5
RXCAPN_R
I
ANALOG
External Redundant Loop Capacitor for Receive PLL:
This pin connects to the negative side of the external capacitor, which is
used to minimize jitter peaking.
MISCELLANEOUS PINS
89
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
H5
REFSEL_L
I
TYPE
TTL
DESCRIPTION
Clock Synthesizer Block Select:
This input pin is used to configure the Transmit SONET circuitry (within
the XRT94L31) to use either of the following clock signals as its timing
source.a.
a. The Directly-Applied 19.44MHz clock signal, which is applied to
the REFTTL input pin (P1) or,b.
b. The output of the Clock Synthesizer block (within the chip).
Setting this input pin "High" configures the Transmit SONET circuitry
within the XRT94L31 to use the Clock Synthesizer block as its timing
source. In this mode, the user can supply either a 19.44MHz,
38.88MHz, 51.84MHz or 77.76MHz clock signal to the REFTTL input
pin.
Setting this input pin "Low" by-passes the Clock Synthesizer block. In
this case, the user MUST supply a 19.44MHz clock signal to the
REFTTL input pin in order to insure proper performance.
K4
SFM
I
TTL
Single Frequency Mode (SFM) Select:
This input pin is used to configure the three Jitter Attenuator (SONET/
SDH De-Sync) blocks of the XRT94L31 to operate in the Single-Frequency Mode (SFM). If the XRT94L31 has been configured to operate
in the SFM Mode, then the user only needs to supply a 12.288MHz clock
signal to the REFCLK51 input pin. In this case, the user does not need
to supply a 44.736MHz clock signal to the REFCLK45 input pin, nor a
34.368MHz clock signal to the REFCLK34 input pin. The SFM PLL
(within the XRT94L31) will internally synthesize the appropriate
44.736MHz, 34.368MHz or 51.84MHz clock signals, and will route these
signals to the appropriate channels (within the chip) depending upon the
data rate that they are configured to operate in.
Setting this input pin to a logic "Low" disables the Single-Frequency
Mode. In this mode, the user must supply all of the appropriate frequencies to the REFCLK34, REFCLK45 and REFCLK51 input pins.
Setting this input pin to a logic "High" configures the XRT94L31 to operate in the Single-Frequency Mode.
J3
Test Mode
I
TTL
Test Mode Input Pin:
Connect this input pin "Low" for normal operation.
G2
FL_TSTCLK
O
CMOS
JA Testing Clock:
This pin is used for JA testing purposes.
J2
ANALOG
O
ANALOG
Analog Output Pin:
This output analog pin is used for testing purposes.
N1
VDCTST1
O
ANALOG
DC Test Pin:
This pin is used for internal DC test, for example, it can be used to test
for DC current, DC voltage.
N2
VDCTST2
O
ANALOG
DC Test Pin:
This pin is used for internal DC test, for example, it can be used to test
for DC current, DC voltage.
NO-CONNECT PINS
K1
N/C
AA1
N/C
90
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
V3
N/C
AB1
N/C
AA2
N/C
AC1
N/C
R1
N/C
AB2
N/C
AC2
N/C
T1
N/C
AC4
N/C
AB5
N/C
AD4
N/C
AC5
N/C
AB7
N/C
AC6
N/C
AC22
N/C
AD24
N/C
AB21
N/C
AC23
N/C
AB23
N/C
AC24
N/C
AA23
N/C
E24
N/C
F23
N/C
D24
N/C
E23
N/C
F21
N/C
E22
N/C
I/O
TYPE
DESCRIPTION
VDD (3.3V)
91
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
I/O
N23
N2
5V5
H
2L2
K3
H1
L5
U4
N3
T5
M5
Analog VDD Pins
_
TYPE
DESCRIPTION
92
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
U3
R2
R6
C2
C1
J6
K6
W3
Y3
AE1
AE2
AF3
AB9
AB10
AB11
AB17
AB18
AB19
AF25
AE26
W22
V22
U22
L22
K22
J22
C27
C26
B25
A25
F19
F18
F17
F11
F10
F9
A3
B3
D4
C4
Digital VDD
I/O
TYPE
DESCRIPTION
GROUND
93
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
G6
C3
A1
B1
AF1
AF2
AA6
AB6
AE3
AG1
AG2
AB13
AB14
AB15
AG26
AF26
AB22
AA22
AE25
AG27
AF27
T22
R22
P22
N22
M22
B27
B26
G22
F22
C25
A27
A26
F15
F14
F13
A2B
2F6
V2
W4
Y6
Y5
Y4
E6
V4
R5
R3
P4
Digital Ground
I/O
TYPE
DESCRIPTION
94
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PIN DESCRIPTION OF THE XRT94L31 (REV. B)
PIN #
SIGNAL NAME
V6
L6
T4
N24
N26
R4
F1
K2
G1
L1
M6
N4
T6
J1
Analog Ground
I/O
TYPE
DESCRIPTION
95
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
1.0 ELECTRICAL CHARACTERISTIC INFORMATION FOR THE XRT94L31 DEVICE
1.1
DC ELECTRICAL CHARACTERISTIC INFORMATION
TABLE 1: DC CHARACTERISTIC (APPLIES TO ALL TTL-LEVEL INPUT AND CMOS LEVEL OUTPUT PINS - AMBIENT
TEMPERATURE = 25°C)
SYMBOL
PARAMETER
TEST CONDITION
MIN
MAX
UNITS
VDDQ
I/O Supply Voltage
3.135
3.465
V
VIH
High-Level Input Voltage
VOUT ³ VOH(min)
2.0
VDD + 0.3
V
VIL
Low-Level Input Voltage
VOUT < VOL (max)
-0.3
0.3*VDD
V
VOH
High-Level Output Voltage
VDD = MINVIN = VIH
IOH = -2mA
VOL
Low-Level Output Voltage
VDD = MINVIN = VIL
IOL = 2mA
II
Input Current
VDD = MAX
VIN = VDD or GND
1.9
V
0.6
V
±15
mA
TABLE 2: DC CHARACTERISTICS (APPLIES TO ALL LVPECL INPUT AND OUTPUT PINS)
SYMBOL
PARAMETER
VIH
High-Level Input Voltage
VIL
Low-Level Input Voltage
-0.4
VICM
Input Common Mode Voltage
1.0
VINDIFF
Differential Input Voltage
0.2
VOH
High Level Output Voltage
VDD - 1.08
VDD - 0.88
V
VOL
Low-Level Output Voltage
VDD - 1.88
VDD - 1.62
V
VOUTDIFF
Differential Output Voltage
1.18
2.12
V
1.2
1.2.1
TEST CONDITION
MIN
MAX
UNITS
VDD + 0.4
V
V
VDD
V
AC ELECTRICAL CHARACTERISTIC INFORMATION - Microprocessor Interface Timing
MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS INTEL MODE
96
V
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 2. 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 3.
FIGURE 3. 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 3.
97
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
TABLE 3: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
INTEL ASYNCHRONOUS MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX.
UNITS
t0
Address setup time to pALE low
4
-
-
ns
t1
Address hold time from pALE low
4
-
-
ns
t2
pRD_L, pWR_L pulse width
320
-
-
ns
t3
Data setup time to pWR_L low
0
-
-
ns
t4
Data hold time from pWR_L high
0
-
-
ns
t5
pALE low to pRD_L, pWR_L low
5
-
-
ns
t6
Data invalid from pRD_L high
4
-
-
ns
t7
Data valid from pRDY_L low
-
-
0
ns
t8
pRDY inactive from pRD_L inactive
3
9
ns
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
1.2.2
MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS MOTOROLA (68K) MODE
FIGURE 4. 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 4.
98
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 5. 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 4.
TABLE 4: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE WHEN CONFIGURED TO OPERATE IN THE
MOTOROLA (68K) ASYNCHRONOUS MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX
UNITS
t0
Address setup time to pALE low
6
-
-
ns
t1
Address hold time to pALE high
6
-
-
ns
t2
Data setup time to pDS_L low
0
-
-
ns
t3
Data hold time to pDS_L low
160
-
-
ns
t4
pDS_L high to pRDY_L high (Write Cycle)
-
-
16
ns
t5
pRDY_L low to Data valid
-
-
15
ns
t6
pDS_L high to pRDY_L high (Read Cycle)
-
-
16
ns
t7
pRDY_L high to Data invalid
3
-
-
ns
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
99
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
1.2.3
REV. 1.0.1
MICROPROCESSOR INTERFACE TIMING - POWER PC 403 SYNCHRONOUS MODE
FIGURE 6. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (WRITE CYCLE)
pCLK
pCS_L
t0
pRW_L
t1
t2
pA[7:0]
pD[7:0]
Address
t3
t4
Data
t5
t6
pWE_L
t7
pOE_L
pRdy
t8
NOTE: The value for t0 through t12 can be found in Table 5.
100
t9
XRT94L31
REV. 1.0.1
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
FIGURE 7. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (WRITE CYCLE)
pCLK
pCS_L
pRW_L
pA[7:0]
Address
t10
Data
pD[7:0]
pWE_L
t11
pOE_L
pRdy
NOTE: The value for t0 through t12 can be found in Table 5.
101
t12
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
TABLE 5: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
IBM POWER PC403 MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX.
UNITS
t0
pCS_L low to PCLK high
4
-
-
ns
t1
pRW_L low to PCLK high
9
-
-
ns
t2
Address setup time to PCLK high
4
-
-
ns
t3
Address hold time from PCLK high
2
-
-
ns
t4
Data setup time (WRITE cycle)
4
-
-
ns
t5
Data hold time (WRITE cycle) from PCLK High
0
-
-
ns
t6
pWE_L low to Clock high
4
-
-
ns
t7
Clock high to pWE_L high from PCLK high
0
-
-
ns
t8
Clock high to pRDY high
4.4
-
10.5
ns
t9
Clock high to pRDY low
4.2
-
10.4
ns
t10
Clock high to Data valid (READ cycle)
-
-
11
ns
t11
Clock high to pOE_L low
11
-
-
ns
t12
Clock high to pOE_L high
1.5
-
4.1
ns
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
102
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
1.2.4
MICROPROCESSOR INTERFACE TIMING - IDT3051/52 MODE
FIGURE 8. SYCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (WRITE CYCLE)
pCLK
pCS_L
t0
t1
pALE
pA[7:0]
t2
Address
t3
Data
pD[7:0]
t4
t5
pRdy_L
pRD_L
t6
pWR_L
pDBEN_L
NOTE: The values for t0 through t11 can be found in Table 6.
103
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 9. SYCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (READ CYCLE)
pCLK
pCS_L
pALE
Address
pA[7:0]
t7
Data
pD[7:0]
t5
t8
pRdy_L
t9
t10
pRD_L
pWR_L
t11
pDBEN_L
NOTE: The values for t0 through t11 can be found in Table 6.
TABLE 6: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
IBM POWER PC403 MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX
UNITS
t0
pCS_L low to Clock high
6
-
-
ns
t1
pALE high to Clock high
1
-
-
ns
t2
Clock high to pALE low
6
-
-
ns
t3
Data setup time (WRITE cycle)
-
-
N/N
ns
t4
Data hold time (WRITE cycle)
-
-
N/N
ns
t5
Clock high to pRDY_L low
-
-
11
ns
t6
Clock high to pWR_L high
6
-
-
ns
t7
Clock high to Data valid (READ cycle)
-
-
N/N
ns
t8
Clock high to pRDY_L high
-
-
11
ns
t9
pRDY_L high to Data invalid
0
-
-
ns
104
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
TABLE 6: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
IBM POWER PC403 MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX
UNITS
t10
Clock high to pRD_L high
11
-
-
ns
t11
Clock high to pDBEN_L high
10
-
-
ns
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
1.2.5
MICROPROCESSOR INTERFACE TIMING - MPC860 MODE
FIGURE 10. MPC860 MODE - TIMING (WRITE CYCLE)
T0
PCLK
T6
CS*
R/W*
T3
Target Address
A[14:0]
D[7:0]
Data to be Written
WE*
T7
T4
OE*
T5
TA*
T9
T2
T8
105
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 11. MPC860 MODE - TIMING (READ CYCLE)
T0
PCLK
CS*
R/W*
A[14:0]
T3
T2
Target Address
D[7:0]
Valid Data
WE*
T1
OE*
TA*
T8
T9
NOTE: The value for t0 through t9 can be found in Table 7.
TABLE 7: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE
MPC860 MODE
TIMING
DESCRIPTION
MIN.
TYP.
MAX
UNITS
T0
pCS* low to PCLK high set-up time
4
-
-
ns
T1
OE* low to PCLK high set-up time
4
ns
T2
A[14:0] set-up time to rising edge of PCLK
4
ns
T3
A[14:0] hold time from rising edge of PCLK
2
ns
T4
Data setup time to rising edge of PCLK (WRITE cycle)
4
-
N/A
ns
T5
Data hold time from rising edge of PCLK (WRITE cycle)
0
-
N/A
ns
T6
R/W* Active hold-time from rising edge of PCLK
4
ns
T7
WE* Active hold-time from rising edge of PCLK
0
ns
T8
Rising edge of PCLK to TA* Active (LOW) Delay
4.13
-
10.07
ns
T9
Rising edge of PCLK to TA* In-Active (HIGH) Delay
4.31
-
10.09
ns
T10
OE* Inactive to Data Invalid Delay
1.66
4.33
ns
NOTE: Test Conditions: TA = 25°C, VCC = 3.3V±5% and 2.5V±5%, unless otherwise specified.
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1.3
STS-3/STM-1 TELECOM BUS INTERFACE TIMING INFORMATION
1.3.1
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 prsents the following.
1.
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.
2.
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.
3.
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.
4.
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).
5.
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)
1.3.1.1
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 output via this Bus Interface)
are updated upon the rising edge of TxA_CLK (19.44MHz clock signal).
Figures 12 and 13 presents an illustration of the waveforms of the signals that will be output via the Transmit
STS-3/STM-1 Telecom Bus Interface, as well as the timing parameter (t1).
FIGURE 12. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE TRANSMIT STS-3/
STM-1 TELECOM BUS INTERFACE.
t1
TxA_CLK
TxA_PL
TxA_C1J1
TxA_D[7:0]
A2
C1
C1
J1
Data
J1
NOTE: The value for t1 can be found in Table 8.
The TxSBFP input signal is sampled upon the rising edge of TxA_CLK by the Transmit STS-3/STM-1 Telecom
Bus Interface circuitry, as illustrated below in Figure 13.
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FIGURE 13. AN ILLUSTRATION OF THE TIMING RELATIONSHIPS BETWEEN THE TXSBFP INPUT PIN AND THE
TXA_CLK OUTPUT PIN WITHIN THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE
t4
t5
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 8.
TABLE 8: TIMING INFORMATION FOR THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE
SYMBOL
DESCRIPTION
MIN.
t1
Rising edge of TxA_CLK to updates in TxA_D[7:0], TxA_PL,
TxA_C1J1 and TxA_DP
1.7ns
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
1.3.1.2
TYP.
MAX.
7.7ns
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 input via this Bus Interface)
are sampled upon the rising edge of RxD_CLK (19.44MHz clock signal).
Figure 14 presents an illustration of the waveforms and the timing parameters (t2 and t3) of the signals that will
be received by the Receive STS-3/STM-1 Telecom Bus Interface.
108
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FIGURE 14. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-3/
STM-1 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 9.
TABLE 9: TIMING INFORMATION FOR THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE
SYMBOL
DESCRIPTION
MIN.
t2
RxD_D[7:0], RxD_PL, RxD_C1J1, RxD_ALARM and RxD_DP
to falling edge of RxD_CLK set-up time requirements
4 ns
t3
Falling edge of RxD_CLK to RxD_D[7:0], RxD_PL, RxD_C1J1,
RxD_ALARM and RxD_DP hold time requirements
0 ns
1.3.2
1.3.2.1
TYP.
MAX.
STS-3/STM-1 PECL INTERFACE TIMING INFORMATION
The Receive STS-3/STM-1 PECL Interface Timing
The Receive STS-3/STM-1 PECL Interface block samples the incoming STS-3/STM-1 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.
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FIGURE 15. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-3/
STM-1 PECL INTERFACE
t6
t7
RxL_CLKL_p
RxL_CLKL_n
RxL_Data_p
RxL_Data_n
NOTE: Table 10 presents information on the Timing parameters for the Receive STS-3/STM-1 PECL Interface
TABLE 10: TIMING INFORMATION FOR THE RECEIVE STS-3/STM-1 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.
These timing requirements apply to both the Primary and the Redundant Receive STS-3/STM-1 PECL
Interface blocks.
1.3.3
1.3.3.1
DS3/E3/STS-1 LIU INTERFACE TIMING INFORMATION
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.
1.
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.
2.
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.
3.
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 be configured to sample the DS3/E3/STS_1_DATA_IN input signal, upon
either the rising or falling edge of DS3/E3/STS_1_CLOCK_IN.
110
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FIGURE 16. AN ILLUSTRATION OF THE WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE INPUT TO THE DS3/
E3/STS-1 LIU INTERFACE (IN THE INGRESS DIRECTION)
t9
t10
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 Tables 11, 12, 13 and 14.
1.3.4
Ingress Timing for DS3/E3 Applications
Table 11 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 11: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS
(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
4ns
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 12 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.
TABLE 12: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3
APPLICATIONS(FALLING 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 falling edge of
DS3/E3/STS_1_CLOCK_IN set-up time requirements
4ns
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
111
TYP.
MAX.
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
1.3.5
REV. 1.0.1
Ingress Timing for STS-1/STM-0 Applications
Table 13 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 and when the Receive STS-1 TOH Processor block has been
configured to sample the DS3/E3/STS_1_DATA_IN signal upon the rising edge of DS3/E3/
STS_1_CLOCK_IN.
TABLE 13: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0
APPLICATIONS(RISING EDGE OF DS3/E3/STS_1_CLOCK_IN)
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
TYP.
MAX.
Table 14 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 and when the Receive STS-1 TOH Processor block has been
configured to sample the DS3/E3/STS_1_DATA_IN signal upon the falling edge of DS3/E3/
STS_1_CLOCK_IN.
TABLE 14: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0
APPLICATIONS(FALLING EDGE OF DS3/E3/STS_1_CLOCK_IN)
SYMBOL
DESCRIPTION
MIN.
t9
DS3/E3/STS_1_DATA_IN to falling edge of DS3/E3/STS_1_CLOCK_IN
set-up time requirements
4ns
t10
Falling 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
1.3.6
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 be configured to output the outbound STS-1/STM-0 data (via the DS3/E3/
STS_1_DATA_OUT pin) either upon the rising or falling edge of DS3/E3/STS_1_CLOCK_OUT.
The Timing Diagram for the Egress DS3/E3/STS-1 Interface is presented below in Figure 17.
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FIGURE 17. AN ILLUSTRATION OF THE WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE OUTPUT FROM THE
DS3/E3/STS-1 LIU INTERFACE (IN THE RECEIVE/EGRESS DIRECTION)
t11
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 Tables 15, 16, 17.and 18
1.3.7
Egress Timing for DS3/E3 Applications
Table 15 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 15: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3
APPLICATIONS(RISING 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
TYP.
2.1ns
MAX.
7.8ns
Table 16 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 16: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3
APPLICATIONS(FALLING EDGE OF DS3/E3/STS_1_CLOCK_OUT)
SYMBOL
t11
1.3.8
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
1.6ns
TYP.
MAX.
6.5ns
Egress Timing for STS-1/STM-0 Applications
Table 17 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 and when the Transmit STS-1 TOH Processor block has been
configured to output the DS3/E3/STS_1_DATA_OUT signal upon the rising edge of DS3/E3/
STS_1_CLOCK_OUT.
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TABLE 17: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0
APPLICATIONSAPPLICATIONS(RISING 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
output delay
1.3.9
TYP.
0ns
MAX.
4.5ns
Egress Timing for STS-1/STM-0 Applications (Continued)
Table 18 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 and when the Transmit STS-1 TOH Processor block has been
configured to output the DS3/E3/STS_1_DATA_OUT signal upon the falling edge of DS3/E3/
STS_1_CLOCK_OUT.
TABLE 18: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0
APPLICATIONSAPPLICATIONS(FALLING EDGE OF DS3/E3/STS_1_CLOCK_OUT)
SYMBOL
t11
1.4
DESCRIPTION
MIN.
Rising edge of DS3/E3/STS_1_CLK_OUT to DS3/E3/STS_1_DATA_OUT
output delay
0ns
TYP.
MAX.
3.3ns
STS-1/STM-0 TELECOM BUS INTERFACE TIMING INFORMATION
STS-1/STM-0 Telecom Bus Interface Timing Information
This section presents the timing requirements for the STS-1/STM-0 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)
1.4.1
SOME NOTES ABOUT THE STS-1/STM-0 TELECOM BUS INTERFACE
1.
In contrast to the names that are given to the Transmit and Receive STS-3/STM-1 Telecom Bus
Interface, the Transmit STS-1/STM-0 Telecom Bus interface will have the responsibility of receiving (in
lieu of transmitting) STS-1/STM-0 data from some remote entity over a Telecom Bus Interface that is
clocked at 6.48MHz. Likewise, the Receive STS-1/STM-0 Telecom Bus Interface will have the
responsibility of transmitting (in lieu of receiving) STS-1/STM-0 data to some remote entity over a
Telecom Bus Interface that is also clocked at 6.48MHz.
2.
The STS-1/STM-0 Telecom Bus Interface, associated with Channel 0 can be configured to operate as
either an STS-1/STM-0 or an STS-3/STM-1 Telecom Bus Interface. Timing Information for either of
these modes will be presented in this section.
1.4.2
The Receive STS-1/STM-0 Telecom Bus Interface Timing
In the Receive STS-1/STM-0 Telecom Bus Interface, all of the signals (which are output via this Bus Interface)
are updated upon the rising edge of RxD_CLK (6.48MHz clock signal).
114
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REV. 1.0.1
Figure 18 presents an illustration of the waveforms of the signals that will be output via the Receive STS-1/
STM-0 Telecom Bus Interface along with the timing parameter (t12).
FIGURE 18. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE RECEIVE STS-1/
STM-0 TELECOM BUS INTERFACE
t12
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 19.
TABLE 19: TIMING INFORMATION FOR THE RECEIVE STS-1/STM-0 TELECOM BUS INTERFACE
SYMBOL
t12
1.4.3
DESCRIPTION
MIN.
Rising edge of RxD_CLK to updates in RxD_D[7:0], RxD_PL, RxD_C1J1,
RxD_ALARM and RxD_DP
0ns
TYP.
MAX.
9.4ns
The Receive STS-1/STM-0 Telecom Bus Interface Timing (for Channel 0 when configured to
operate in the STS-3/STM-1 Mode)
In the Receive STS-1/STM-0 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).
Figure 19 presents an illustration of the waveforms of the signals that will be output via the Receive STS-1/
STM-0 Telecom Bus Interface, associated with Channel 0, whenever it is configured to operate in the STS-3/
STM-1 Mode.
115
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REV. 1.0.1
FIGURE 19. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE RECEIVE STS-1/
STM-0 TELECOM BUS INTERFACE (FOR CHANNEL 0) WHEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE
t12
RxD_CLK
RxD_PL
RxD_C1J1
RxD_D[7:0]
A2
C1
C1
J1
Data
J1
Table 20 presents information on the Timing Parameters for the Receive STS-1/STM-0 Telecom Bus Interface
(when configured to operate in the STS-3/STM-1 Mode).
TABLE 20: TIMING INFORMATION FOR THE RECEIVE STS-1/STM-0 TELECOM BUS INTERFACE (WHEN CONFIGURED TO
OPERATE IN THE STS-3/STM-1 MODE)
SYMBOL
t12
1.4.4
DESCRIPTION
MIN.
Rising edge of RxD_CLK to updates in RxD_D[7:0], RxD_PL, RxD_C1J1,
RxD_ALARM and RxD_DP
1.7ns
TYP.
MAX.
7.7ns
The Transmit STS-1/STM-0 Telecom Bus Interface Timing
In the Transmit STS-1/STM-0 Telecom Bus Interface, all of the signals (which are input via this Bus Interface)
are sampled upon the rising edge of TxA_CLK (6.48MHz clock signal).
Figure 20 presents an illustration of the waveforms and the timing parameters (t13 and t14) of the signals that
will be received by the Transmit STS-1/STM-0 Telecom Bus Interface.
116
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REV. 1.0.1
FIGURE 20. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE TRANSMIT STS-1/
STM-0 TELECOM BUS INTERFACE
t13
TxA_CLK
TxA_PL
TxA_C1J1
TxA_D[7:0]
A2
C1
C1
J1
Data
Data
t14
NOTE: The value for t13 and t14 can be found in Table 21.
TABLE 21: TIMING INFORMATION FOR THE TRANSMIT STS-1/STM-0 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
4ns
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
1.4.5
TYP.
MAX.
The Transmit STS-1/STM-0 Telecom Bus Interface Timing (for Channel 0 when configured to
operate in the STS-3/STM-1 Mode)
In the Transmit STS-1/STM-0 Telecom Bus Interface (associated with Channel 0) 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-1/STM-0 Telecom Bus Interface.
117
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 21. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE TRANSMIT STS-1/
STM-0 TELECOM BUS INTERFACE ASSOCIATED WITH CHANNEL 0 (WHEN CONFIGURED TO OPERATE IN THE STS-3/
STM-1 MODE)
t13
TxA_CLK
TxA_PL
TxA_C1J1
TxA_D[7:0]
A2
C1
C1
J1
Data
Data
t14
NOTE: The value for t13 and t14 can be found in Table 22.
TABLE 22: TIMING INFORMATION FOR THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE, FOR CHANNEL 0
WHEN IT HAS BEEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE
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
4ns
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
1.5
TYP.
MAX.
TRANSMIT TOH OVERHEAD INPUT PORT
The Transmit TOH Overhead Input Port is used to insert the users own value for the TOH bytes into the
outbound STS-3/STM-1 data-stream.
NOTE: 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 signals (e.g., TxTOHFrame and TxTOHEnable) are updated upon the
falling edge of TxTOHClk.
The timing wave-form and information for the Transmit TOH Overhead Input Port is presented below.
118
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 22. ILLUSTRATION OF TIMING WAVE-FORM OF THE TRANSMIT TOH OVERHEAD INPUT PORT
t15
t16
t17
TxTOHClk
TxTOHFrame
TxTOHEnable
TxTOHIns
TxTOH
NOTE: The values for t15, t16 and t17 can be found in Table 23.
TABLE 23: TIMING INFORMATION FOR THE TRANSMIT TOH OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t15
Falling edge of TxTOHClk to rising edge of TxTOHFrame and TxTOHEnable output delay
t16
TxTOHIns to rising edge of TxTOHClk set-up time
4ns
t17
TxTOH Data to rising edge of TxTOHClk set-up time
4ns
1.6
TYP.
-0.5ns
MAX.
0.6ns
TRANSMIT POH OVERHEAD INPUT PORT
The Transmit POH Overhead Input Port is used to insert the users own value for the POH bytes into either the
outbound STS-1 SPE data-stream (which is output via the Transmit STS-3/STM-1 data-stream or via the
outbound STS-1 SPE data-stream (which is output via the Transmit STS-1 data-stream).
NOTE: 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 wave-form and information for the Transmit POH Overhead Input Port is presented below.
119
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 23. ILLUSTRATION OF TIMING WAVE-FORM OF THE TRANSMIT POH OVERHEAD INPUT PORT
t18
t19
t20
TxPOHClk
TxPOHFrame
TxPOHEnable
TxPOHIns
TxPOH
NOTE: The values for t18, t19 and t20 can be found in Table 24.
TABLE 24: TIMING INFORMATION FOR THE TRANSMIT POH OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t18
Falling edge of TxPOHClk to rising edge of TxPOHFrame and TxPOHValid
output delay
-0.3ns
t19
TxPOHIns to rising edge of TxPOHClk set-up time
4ns
t20
TxPOH Data to rising edge of TxPOHClk set-up time
4ns
1.7
TYP.
MAX.
0.2ns
TRANSMIT ORDERWIRE (E1, F1, E2) 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-3/STM-1 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 wave-form and information for the Transmit Order-wire Byte
Overhead Input Port is presented below.
120
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 24. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT
PORT
t22
t21
TxTOHClk
TxE1F1E2Fr
TxE1F1E2Enb
TxE1F1E2
NOTE: The values for t21 and t22 can be found in Table 25.
TABLE 25: 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
t22
TxE1F1F2 Data to rising edge of TxTOHClk set-up time
1.8
-0.5ns
TYP.
MAX.
0ns
4ns
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-3/STM-1 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
TxTOHClk. The TxSDCCEnable output signal is updated upon the falling edge of TxTOHClk. The timing
wave-form and information for the Transmit Section DCC Insertion Input Port is presented below.
121
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 25. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE TRANSMIT SECTION DCC OVERHEAD INSERTION
PORT
t23
t24
TxTOHClk
TxSDCCEnb
TxSDCC
NOTE: The values for t23 and t24 can be found in Table 26.
TABLE 26: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT
SYMBOL
DESCRIPTION
MIN.
t23
Falling edge of TxTOHClk to rising edge of TxSDCCEnable output delay
t24
TxSDCC Data to rising edge of TxTOHClk set-up time
1.9
-0.4ns
TYP.
MAX.
0.1ns
4ns
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-3/STM-1 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 of
TxTOHClk. The TxLDCCEnable output signal is updated upon the falling edge of TxTOHClk. The timing
wave-form and information for the Transmit Line DCC Insertion Input Port is presented below.
122
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 26. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE TRANSMIT LINE DCC INSERTION INPUT PORT
t25
t26
TxTOHClk
TxLDCCEnb
TxLDCC
NOTE: The values for t25 and t26 can be found in Table 27
TABLE 27: 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
1.10
-0.5ns
TYP.
MAX.
0.2ns
4ns
RECEIVE TOH OVERHEAD OUTPUT PORT
The Receive TOH Overhead Output port is used to extract out the values of the TOH bytes within the incoming
STS-3/STM-1 data-stream. All of the Receive TOH Overhead Output port signals are updated upon the falling
edge of RxTOHClk. The timing wave-form and information for the Receive TOH Overhead Output Port is
presented below.
123
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 27. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE TOH OVERHEAD OUTPUT PORT
t27
t28
RxTOHClk
RxTOHFrame
RxTOHValid
RxTOH
NOTE: The values for t27 and t28 can be found in Table 28.
TABLE 28: TIMING INFORMATION FOR THE RECEIVE TOH OVERHEAD OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
t27
Falling edge of RxTOHClk to rising edge of RxTOHFrame and RxTOHValid
-0.5ns
0.4ns
t28
Falling edge of RxTOHClk to RxTOH output delay
-0.5ns
0.5ns
1.11
TYP.
MAX.
RECEIVE POH OVERHEAD OUTPUT PORT
The Receive POH Overhead Output port is used to extract out the values of the POH bytes within the
incoming STS-3/STM-1 data-stream. All of the Receive POH Overhead Output port signals are updated upon
the falling edge of RxPOHClk. The timing wave-form and information for the Receive POH Overhead Output
Port is presented below.
124
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 28. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE POH OVERHEAD OUTPUT PORT
t29
t30
RxPOHClk
RxPOHFrame
RxPOHValid
RxPOH
NOTE: The values for t29 and t30 can be found in Table 29.
TABLE 29: TIMING INFORMATION FOR THE RECEIVE POH OVERHEAD OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
t29
Falling edge of RxPOHClk to rising edge of RxPOHFrame and RxPOHValid
-0.3ns
0ns
t30
Falling edge of RxPOHClk to RxPOH output delay
-0.3ns
0ns
1.12
TYP.
MAX.
RECEIVE ORDERWIRE (E1, F1, E2) BYTES 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-3/STM-1 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 wave-form and information for the Receive Order-wire Byte Overhead output port is presented below.
125
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 29. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT
PORT
t31
t32
RxTOHClk
RxE1F1E2Fr
RxE1F1E2Val
RxE1F1E2
NOTE: The values for t31 and t32 can be found in Table 30.
TABLE 30: 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
-0.6ns
0.4ns
t32
Falling edge of RxTOHClk to RxE1F1E2 output delay
0.1ns
0.3ns
1.13
RECEIVE SECTION DCC EXTRACTION 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-3/STM-1 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.
126
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
FIGURE 30. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE SECTION DCC OUTPUT PORT
t33
t34
RxTOHClk
RxSDCCVal
RxSDCC
NOTE: The values for t34 and t34 can be found in Table 31.
TABLE 31: TIMING INFORMATION FOR THE RECEIVE SECTION DCC OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
TYP.
MAX.
t33
Falling edge of RxTOHClk to rising edge of RxSDCCValid
0ns
0.5ns
t34
Falling edge of RxTOHClk to RxSDCC output delay
0ns
0.4ns
1.14
RECEIVE LINE DCC EXTRACTION 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-3/STM-1 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 wave-form and
information for the Receive Line DCC output port is presented below.
FIGURE 31. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE LINE DCC OUTPUT PORT
t35
t36
RxTOHClk
RxLDCCVal
RxLDCC
127
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
NOTE: The values for t35 and t36 can be found in Table 32.
TABLE 32: TIMING INFORMATION FOR THE RECEIVE LINE DCC OUTPUT PORT
SYMBOL
DESCRIPTION
MIN.
t35
Falling edge of RxTOHClk to rising edge of RxLDCCValid
t36
Falling edge of RxTOHClk to RxLDCC output delay
128
TYP.
MAX.
-0.2ns
0.4ns
0ns
0.04ns
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
PACKAGE OUTLINE DRAWING
504 TAPE BALL GRID ARRAY
(35 MM X 35 MM - TBGA)
FIGURE 32. 94L31 PACKAGE OUTLINE DRAWING BOTTOM VIEW
(A1 corner feature is mfgr
option)
Note: The control dimension is in millimeter.
SYMBOL
A
A1
A2
D
D1
b
e
P
INCHES
MIN
MAX
0.051
0.067
0.020
0.028
0.031
0.039
1.370
1.386
1.300 BSC
0.024
0.035
0.050 BSC
0.006
0.012
129
MILLIMETERS
MIN
MAX
1.30
1.70
0.50
0.70
0.80
1.00
34.80
35.20
33.02 BSC
0.60
0.90
1.27 BSC
0.15
0.30
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
TABLE OF CONTENTS
GENERAL DESCRIPTION ................................................................................................ 1
APPLICATIONS .......................................................................................................................................... 1
FEATURES ................................................................................................................................................. 1
FIGURE 1. BLOCK DIAGRAM OF THE XRT94L31 ............................................................................................................................... 2
ORDERING INFORMATION....................................................................................................................... 2
PIN DESCRIPTION OF THE XRT94L31 (REV. B) ........................................................................................ 3
1.0 ELECTRICAL CHARACTERISTIC INFORMATION FOR THE XRT94L31 DEVICE ............................ 96
1.1 DC ELECTRICAL CHARACTERISTIC INFORMATION ................................................................................... 96
TABLE 1: DC CHARACTERISTIC (APPLIES TO ALL TTL-LEVEL INPUT AND CMOS LEVEL OUTPUT PINS - AMBIENT TEMPERATURE = 25°C)
96
TABLE 2: DC CHARACTERISTICS (APPLIES TO ALL LVPECL INPUT AND OUTPUT PINS) ..................................................................... 96
1.2 AC ELECTRICAL CHARACTERISTIC INFORMATION - MICROPROCESSOR INTERFACE TIMING .......... 96
1.2.1 MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS INTEL MODE........................................................ 96
FIGURE 2. ASYNCHRONOUS MODE 1 - INTEL TYPE PROGRAMMED I/O TIMING (WRITE CYCLE) ......................................................... 97
FIGURE 3. ASYNCHRONOUS MODE 1 - INTEL TYPE PROGRAMMED I/O TIMING (READ CYCLE)........................................................... 97
TABLE 3: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE INTEL ASYNCHRONOUS
MODE ........................................................................................................................................................................... 98
1.2.2 MICROPROCESSOR INTERFACE TIMING - ASYNCHRONOUS MOTOROLA (68K) MODE ................................... 98
FIGURE 4. ASYNCHRONOUS MODE 2 - MOTOROLA (68K) PROGRAMMED I/O TIMING (WRITE CYCLE)................................................ 98
FIGURE 5. ASYNCHRONOUS MODE 2 - MOTOROLA (68K) PROGRAMMED I/O TIMING (READ CYCLE) ................................................. 99
TABLE 4: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE WHEN CONFIGURED TO OPERATE IN THE MOTOROLA (68K) ASYNCHRONOUS MODE .......................................................................................................................................................... 99
1.2.3 MICROPROCESSOR INTERFACE TIMING - POWER PC 403 SYNCHRONOUS MODE ........................................ 100
FIGURE 6. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (WRITE CYCLE)....................................................... 100
FIGURE 7. SYNCHRONOUS MODE 3 - IBM POWERPC 403 INTERFACE TIMING (WRITE CYCLE)....................................................... 101
TABLE 5: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE IBM POWER PC403 MODE
102
1.2.4 MICROPROCESSOR INTERFACE TIMING - IDT3051/52 MODE ............................................................................. 103
FIGURE 8. SYCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (WRITE CYCLE)..................................................................... 103
FIGURE 9. SYCHRONOUS MODE 4 - IDT3051/52 INTERFACE TIMING (READ CYCLE) ...................................................................... 104
TABLE 6: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE IBM POWER PC403 MODE
104
1.2.5 MICROPROCESSOR INTERFACE TIMING - MPC860 MODE .................................................................................. 105
FIGURE 10. MPC860 MODE - TIMING (WRITE CYCLE) .................................................................................................................. 105
FIGURE 11. MPC860 MODE - TIMING (READ CYCLE).................................................................................................................... 106
TABLE 7: TIMING INFORMATION FOR THE MICROPROCESSOR INTERFACE, WHEN CONFIGURED TO OPERATE IN THE MPC860 MODE . 106
1.3 STS-3/STM-1 TELECOM BUS INTERFACE TIMING INFORMATION ........................................................... 107
1.3.1 STS-3/STM-1 TELECOM BUS INTERFACE TIMING INFORMATION ...................................................................... 107
1.3.1.1 THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE TIMING ........................................................................ 107
FIGURE 12. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE TRANSMIT STS-3/STM-1 TELECOM BUS
INTERFACE. ................................................................................................................................................................. 107
FIGURE 13. AN ILLUSTRATION OF THE TIMING RELATIONSHIPS BETWEEN THE TXSBFP INPUT PIN AND THE TXA_CLK OUTPUT PIN WITHIN THE
TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE .................................................................................................... 108
TABLE 8: TIMING INFORMATION FOR THE TRANSMIT STS-3/STM-1 TELECOM BUS INTERFACE ....................................................... 108
1.3.1.2 THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE TIMING .......................................................................... 108
FIGURE 14. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE ..................................................................................................................................................................... 109
TABLE 9: TIMING INFORMATION FOR THE RECEIVE STS-3/STM-1 TELECOM BUS INTERFACE ........................................................ 109
1.3.2 STS-3/STM-1 PECL INTERFACE TIMING INFORMATION ....................................................................................... 109
1.3.2.1 THE RECEIVE STS-3/STM-1 PECL INTERFACE TIMING ....................................................................................... 109
FIGURE 15. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE RECEIVE STS-3/STM-1 PECL INTERFACE
110
TABLE 10: TIMING INFORMATION FOR THE RECEIVE STS-3/STM-1 PECL INTERFACE .................................................................... 110
1.3.3 DS3/E3/STS-1 LIU INTERFACE TIMING INFORMATION ......................................................................................... 110
1.3.3.1 INGRESS DS3/E3/STS-1 INTERFACE TIMING ....................................................................................................... 110
FIGURE 16. AN ILLUSTRATION OF THE WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE INPUT TO THE DS3/E3/STS-1 LIU INTERFACE (IN THE INGRESS DIRECTION) .............................................................................................................................. 111
1.3.4 INGRESS TIMING FOR DS3/E3 APPLICATIONS ..................................................................................................... 111
TABLE 11: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS (RISING EDGE OF DS3/E3/
STS_1_CLOCK_IN) .................................................................................................................................................. 111
TABLE 12: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS(FALLING EDGE OF DS3/E3/
STS_1_CLOCK_IN) .................................................................................................................................................. 111
I
XRT94L31
REV. 1.0.1
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
1.3.5 INGRESS TIMING FOR STS-1/STM-0 APPLICATIONS............................................................................................ 112
TABLE 13: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0 APPLICATIONS(RISING EDGE OF
DS3/E3/STS_1_CLOCK_IN) ..................................................................................................................................... 112
TABLE 14: TIMING INFORMATION FOR THE INGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0 APPLICATIONS(FALLING EDGE OF
DS3/E3/STS_1_CLOCK_IN) ..................................................................................................................................... 112
1.3.6 THE EGRESS DS3/E3/STS-1 INTERFACE TIMING ................................................................................................. 112
FIGURE 17. AN ILLUSTRATION OF THE WAVEFORMS OF THE DS3/E3/STS-1 SIGNALS THAT ARE OUTPUT FROM THE DS3/E3/STS-1 LIU INTERFACE (IN THE RECEIVE/EGRESS DIRECTION) ........................................................................................................... 113
1.3.7 EGRESS TIMING FOR DS3/E3 APPLICATIONS....................................................................................................... 113
TABLE 15: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS(RISING EDGE OF DS3/E3/
STS_1_CLOCK_OUT) .............................................................................................................................................. 113
TABLE 16: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR DS3/E3 APPLICATIONS(FALLING EDGE OF DS3/E3/
STS_1_CLOCK_OUT) .............................................................................................................................................. 113
1.3.8 EGRESS TIMING FOR STS-1/STM-0 APPLICATIONS ............................................................................................. 113
TABLE 17: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0 APPLICATIONSAPPLICATIONS(RISING
EDGE OF DS3/E3/STS_1_CLOCK_OUT) ................................................................................................................... 114
1.3.9 EGRESS TIMING FOR STS-1/STM-0 APPLICATIONS (CONTINUED) .................................................................... 114
TABLE 18: TIMING INFORMATION FOR THE EGRESS DS3/E3/STS-1 LIU INTERFACE FOR STS-1/STM-0 APPLICATIONSAPPLICATIONS(FALLING EDGE OF DS3/E3/STS_1_CLOCK_OUT) ............................................................................................................. 114
1.4 STS-1/STM-0 TELECOM BUS INTERFACE TIMING INFORMATION........................................................... 114
1.4.1 SOME NOTES ABOUT THE STS-1/STM-0 TELECOM BUS INTERFACE ............................................................... 114
1.4.2 THE RECEIVE STS-1/STM-0 TELECOM BUS INTERFACE TIMING........................................................................ 114
FIGURE 18. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE RECEIVE STS-1/STM-0 TELECOM BUS
INTERFACE .................................................................................................................................................................. 115
TABLE 19: TIMING INFORMATION FOR THE RECEIVE STS-1/STM-0 TELECOM BUS INTERFACE ....................................................... 115
1.4.3 THE RECEIVE STS-1/STM-0 TELECOM BUS INTERFACE TIMING (FOR CHANNEL 0 WHEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE)......................................................................................................................... 115
FIGURE 19. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE OUTPUT VIA THE RECEIVE STS-1/STM-0 TELECOM BUS
INTERFACE (FOR CHANNEL 0) WHEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE......................................... 116
TABLE 20: TIMING INFORMATION FOR THE RECEIVE STS-1/STM-0 TELECOM BUS INTERFACE (WHEN CONFIGURED TO OPERATE IN THE STS3/STM-1 MODE) ......................................................................................................................................................... 116
1.4.4 THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE TIMING..................................................................... 116
FIGURE 20. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE ..................................................................................................................................................................... 117
TABLE 21: TIMING INFORMATION FOR THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE ..................................................... 117
1.4.5 THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE TIMING (FOR CHANNEL 0 WHEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE)......................................................................................................................... 117
FIGURE 21. AN ILLUSTRATION OF THE WAVEFORMS OF THE SIGNALS THAT ARE INPUT VIA THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE ASSOCIATED WITH CHANNEL 0 (WHEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE)....................... 118
TABLE 22: TIMING INFORMATION FOR THE TRANSMIT STS-1/STM-0 TELECOM BUS INTERFACE, FOR CHANNEL 0 WHEN IT HAS BEEN CONFIGURED TO OPERATE IN THE STS-3/STM-1 MODE ...................................................................................................... 118
1.5 TRANSMIT TOH OVERHEAD INPUT PORT .................................................................................................. 118
FIGURE 22. ILLUSTRATION OF TIMING WAVE-FORM OF THE TRANSMIT TOH OVERHEAD INPUT PORT .............................................. 119
TABLE 23: TIMING INFORMATION FOR THE TRANSMIT TOH OVERHEAD INPUT PORT ....................................................................... 119
1.6 TRANSMIT POH OVERHEAD INPUT PORT .................................................................................................. 119
FIGURE 23. ILLUSTRATION OF TIMING WAVE-FORM OF THE TRANSMIT POH OVERHEAD INPUT PORT.............................................. 120
TABLE 24: TIMING INFORMATION FOR THE TRANSMIT POH OVERHEAD INPUT PORT ....................................................................... 120
1.7 TRANSMIT ORDERWIRE (E1, F1, E2) BYTE OVERHEAD INPUT PORT .................................................... 120
FIGURE 24. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT ................. 121
TABLE 25: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT ................................................. 121
1.8 TRANSMIT SECTION DCC INSERTION INPUT PORT.................................................................................. 121
FIGURE 25. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE TRANSMIT SECTION DCC OVERHEAD INSERTION PORT.................. 122
TABLE 26: TIMING INFORMATION FOR THE TRANSMIT ORDER-WIRE BYTE OVERHEAD INPUT PORT ................................................. 122
1.9 TRANSMIT LINE DCC INSERTION INPUT PORT.......................................................................................... 122
FIGURE 26. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE TRANSMIT LINE DCC INSERTION INPUT PORT ................................ 123
TABLE 27: TIMING INFORMATION FOR THE TRANSMIT LINE DCC INSERTION INPUT PORT ................................................................ 123
1.10 RECEIVE TOH OVERHEAD OUTPUT PORT ............................................................................................... 123
FIGURE 27. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE TOH OVERHEAD OUTPUT PORT .................................... 124
TABLE 28: TIMING INFORMATION FOR THE RECEIVE TOH OVERHEAD OUTPUT PORT ..................................................................... 124
1.11 RECEIVE POH OVERHEAD OUTPUT PORT............................................................................................... 124
FIGURE 28. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE POH OVERHEAD OUTPUT PORT ..................................... 125
TABLE 29: TIMING INFORMATION FOR THE RECEIVE POH OVERHEAD OUTPUT PORT .................................................................... 125
1.12 RECEIVE ORDERWIRE (E1, F1, E2) BYTES OVERHEAD OUTPUT PORT............................................... 125
FIGURE 29. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT PORT ................ 126
TABLE 30: TIMING INFORMATION FOR THE RECEIVE ORDER-WIRE BYTE OVERHEAD OUTPUT PORT ............................................... 126
II
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
1.13 RECEIVE SECTION DCC EXTRACTION OUTPUT PORT ........................................................................... 126
FIGURE 30. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE SECTION DCC OUTPUT PORT ......................................... 127
TABLE 31: TIMING INFORMATION FOR THE RECEIVE SECTION DCC OUTPUT PORT ......................................................................... 127
1.14 RECEIVE LINE DCC EXTRACTION OUTPUT PORT................................................................................... 127
FIGURE 31. ILLUSTRATION OF THE TIMING WAVE-FORM OF THE RECEIVE LINE DCC OUTPUT PORT ............................................... 127
TABLE 32: TIMING INFORMATION FOR THE RECEIVE LINE DCC OUTPUT PORT ............................................................................... 128
PACKAGE OUTLINE DRAWING .................................................................................................................... 129
FIGURE 32. 94L31 PACKAGE OUTLINE DRAWING BOTTOM VIEW ................................................................................................... 129
TABLE OF CONTENTS......................................................................................................
I
REVISIONS ................................................................................................................................................... IV
III
XRT94L31
3-CHANNEL DS3/E3/STS-1 TO STS-3/STM-1 MAPPER IC
REV. 1.0.1
REVISIONS
REV #
P1.0.0
DATE
DESCRIPTION
06/01/06 Initial issue.
1.0.0
10//26/06 Removed the preliminary designation.
1.0.1
03/14/07 Added package outline Drawing
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 2007 EXAR Corporation
Datasheet March 2007.
Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited.
IV