EXAR XRT83D10

XRT83D10
xr
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
JULY 2004
REV. 1.0.3
GENERAL DESCRIPTION
• On-Chip Pulse Shaping for both 75 Ω ,120 Ω and
100 Ω Line Drivers
The XRT83D10 is a fully integrated, single channel,
Line Interface Unit (Transceiver) for 75 Ω or 120 Ω E1
(2.048 Mbps) and 100Ω DS1 (1.544 Mbps)
applications. The LIU consists of a receiver with
adaptive data slicer for accurate data and clock
recovery and a transmitter which accepts dual-rail
digital inputs for signal transmission to the line using
a low- impedance differential line driver. The LIU also
includes a crystal-less jitter attenuator for clock and
data smoothing which, depending on system
requirements, can be selected in either the transmit
or receive path.
• Clock Recovery and Selectable Crystal-less Jitter
attenuator
• Compliant with ETS300166 Return Loss
• Compliant with the ITU-T G.823 Jitter Tolerance
Requirements
• Remote, Local and Digital Loop backs
• Declares and Clears LOS per ITU-T G.775
• -40°C to 85°C Temperature Range
• Low Power Dissipation
• +5V or +3.3V Supply Operation
• Pin Compatible with AGERE T7290A and T5290A
The XRT83D10 uses the transformer coupling on
both the Receiver and Transmitter sides, and
supports both 120Ω balanced,75Ω unbalanced and
100Ω interfaces.
APPLICATIONS
• PDH Multiplexers
• SDH Multiplexers
FEATURES
• Digital Cross-Connect Systems
• Complete E1 (CEPT) and DS1 Line Interface Unit
• DECT (Digital European Cordless Telephone) Base
Stations
• Generates transmit output pulses that are compliant with the ITU-T G.703 Pulse Template for
2.048Mbps (E1) rates
• CSU/DSU Equipment
FIGURE 1. BLOCK DIAGRAM OF THE XRT83D10
R LO S
D LO S
A LO S
R TIP
R eceive
D ata
R R IN G
P ea k
D ete ctor
D a ta
S lice r
D ata &
Tim in g
R e co very
D LO S
Loca l
L oop ba ck
LP1
MODE1
MODE2
2
D igital
Lo opb ack
LP 3
2
Tim in g
G en erato r
E XC LK
2
R PD AT A
RNDATA
R C LK
FOFS
2
Jitter
A tten uato r
S C LK
2
T TIP
T x Line
D river
T ransm it
D ata
P ulse
E qu alizer
+
Loss o f
C lo ck
TA O S
TA O S
TSC
E XC LK
IC T
C LK LO S
JA
C lock
TPDATA
TNDATA
2
R e m o te
Loo back
LP2
2
T R IN G
Transm it
M o nitor
2
2
Local
R em ote
D igital
MODE2
T C LK
E XC LK
TAOS
EC1
EC2
EC3
M O D E1
M O D E2
µP
Inte rface
D ecod e
4
E X C LK
TAOS
EC1
EC2
EC3
M O D E1
M O D E2
LO O P A
LO O P B
CS
V DDA, G N D A
V DDD, G N D D
Exar Corporation 48720 Kato Road, Fremont CA, 94538 • (510) 668-7000 • FAX (510) 668-7017 • www.exar.com
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
PRODUCT ORDERING INFORMATION
PRODUCT NUMBER
PACKAGE TYPE
OPERATING TEMPERATURE RANGE
XRT83D10IW
28 Lead 300 Mil Jedec SOJ
-40°C to +85°C
FIGURE 2. PIN OUT OF THE XRT83D10
EC1
1
28
EC2
ICT
2
27
EC3
AVDD
3
26
DGND
AGND
4
25
TRING
RRING
5
24
DVDD
RTIP
6
23
TTIP
MODE2
7
22
RNDATA
MODE1
8
21
RPDATA
LOOPB
9
20
RCLK
LOOPA
10
19
TNDATA
TAOS
11
18
TPDATA
RLOS
12
17
TCLK
FOFS
13
16
EXCLK
CLKLOS
14
15
CS
2
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
PIN DESCRIPTIONS
MICROPROCESSOR
PIN #
NAME
TYPE
DESCRIPTION
15
CS
I
Microprocessor Interface Select (Active Low)
CS loads the data into the device on its falling edge and latches the data on its
rising edge.
For Hardware mode, CS is left open or connected to GND.
NOTE: Internally pulled down
1
EC1
I
Transmit Equalization Control.
The three inputs, EC1,EC2 and EC3 are used for selecting transmit equalization.
NOTE: Internally Pulled down.
27
EC3
I
Transmit Equalization Control
NOTE: Internally Pulled down.
28
EC2
I
Transmit Equalization Control
NOTE: Internally Pulled down.
7
MODE2
I
Mode Select
Mode 1 and Mode 2 select the clock and data paths through the jitter attenuator.
NOTE: Internally Pulled down.
8
MODE1
I
Mode Select
NOTE: Internally Pulled down.
9
LOOPB
I
Loopback control.
LOOPB along with LOOPA are used for selecting different loopbacks.
LOOPA
LOOPB
Loopback Mode
0
0
Normal Operation
0
1
Digital
1
0
Remote
1
1
Local
NOTE: Internally Pulled down.
10
LOOPA
I
Loopback control.
LOOPB along with LOOPA are used for selecting different loopbacks.
NOTE: Internally Pulled down.
3
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
RECEIVER SECTION
PIN #
NAME
TYPE
DESCRIPTION
6
RTIP
I
Receive positive bipolar data Input
5
RRING
I
Receive negative bipolar data Input
20
RCLK
O
Receive Clock Output
Recovered receive clock for the terminal equipment.
21
RPDATA
O
Receive positive NRZ data:
Recovered positive data DS1 (1.544Mbits/s) or CEPT (2.048 Mbits/s)
22
RNDATA
O
Receive negative data
Recovered negative NRZ data DS1 (1.544Mbits/s) or CEPT (2.048 Mbits/s)
12
RLOS
O
Receive Loss of Signal:
This pin is set "High" if analog loss-of-signal at the receiver input is detected or
if digital loss-of-signal of the recovered data is detected.RLOS will remain
"High" until the loss of signal condition clears.
TRANSMITTER SECTION
PIN #
NAME
TYPE
DESCRIPTION
17
TCLK
I
Transmit Clock
DS1 Clock Signal. (1.544 MHz ± 130 ppm) or CEPT clock signal (2.048 MHz ±
80 ppm).
18
TPDATA
I
Transmit Positive Data
DS1 (1.544 Mbits/s) or CEPT (2.048 Mbits/s) positive bipolar data
19
TNDATA
I
Transmit Negative Data
DS1 (1.544 Mbits/s) or CEPT (2.048 Mbits/s) negative bipolar data
23
TTIP
O
Transmit Tip Output
Positive bipolar transmit data
25
TRING
O
Transmit Differential Ring Output
Negative bipolar transmit data
14
CLKLOS
O
Loss of Clock Signal:
This pin is set "High" when either the transmit clock (TCLK) or the clock output
from the jitter attenuator is absent.
4
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
CONTROL FUNCTION
PIN #
NAME
TYPE
2
ICT
I
DESCRIPTION
In Circuit Testing
When this pin is tied "Low" all output pins are forced to high-impedance state
for in-circuit testing.
NOTE: Internally pulled up.
16
ExCLK
I
External Clock Input:
DS1 (1.544 MHz ± 130 ppm) or CEPT E1 (2.048 MHz ± 80 ppm) clock signal is
provided. ExCLK must be an independent clock to guarantee device performance for all specifications. This clock must be continuously active (ungapped
or unswitched) and void of jitter for the device to operate properly.
11
TAOS
I
Transmit All Ones:
With this pin tied "High", an AMI encoded all "1’s" signal sent to the transmit
output using ExCLK as the timing reference. A remote loop back has higher
priority over TAOS request.
NOTE: Internally pulled down.
9
LOOPB
I
Loopback control.
LOOPB along with LOOPA is used for selecting different loopbacks.
LOOPA
LOOPB
Loopback Mode
0
0
Normal Operation
0
1
Digital
1
0
Remote
1
1
Local
NOTE: Internally Pulled down.
10
LOOPA
I
Loopback control.
LOOPB along with LOOPA is used for selecting different loopbacks.
NOTE: Internally Pulled down.
13
FOFS
O
FIFO Overflow Signal:
This pin is set "High" if the phase jitter of the incoming signal exceeds the tolerance of the jitter attenuator’s buffer. This may result in loss of data and Jitter
Attenuator is no longer attenuating jitter.
DESCRIPTION
POWER AND GROUND
PIN #
NAME
TYPE
3
AVDD
****
Analog Supply: 5V ± 5% or 3.3V ± 5%
4
AGND
****
Analog GND.
24
DVDD
****
Digital Supply: 5V ± 5% or 3.3V ± 5%
26
DGND
****
Digital GND
5
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
TABLE 1: DC ELECTRICAL CHARACTERISTICS
Ta = -40°C to 85°C, Vdd = 5V ± 5% or 3.3V ± 5% unless otherwise specified
PARAMETER
SYMBOL
MIN
TYP
MAX
Input High Voltage
VIH
2.0
5.0
5.5
V
Input Low Voltage
VIL
0.5
0
0.8
V
Output High Voltage @IOH=5mA (See Note)
VDD=5.0v
VDD=3.3v
VOH
2.4
Output Low Voltage @ IOL=5mA (See Note)
VDD=5.0v
VDD=3.3v
VOL
0
Input Leakage Current (except input pins with pull-up
resistors)
IL
-
0
10
uA
Input Capacitance
CI
-
5
20
pF
Output Load Capacitance
CO
-
-
20
pF
TYP
MAX
UNIT
275
275
275
350
350
350
mW
mW
mW
-
UNIT
V
VDD
-
V
0.4
ELECTRICAL CHARACTERISTICS- POWER SPECIFICATIONS
PARAMETER
SYMBOL
Power Dissipation:
With Jitter Attenuator
DS1 (EC1=0,EC2=1,EC3=1)
CEPT (75 Ω)
CEPT (120 Ω)
MIN
PD
NOTE: Power consumption measurement conditions with 50% 1s on the Transmit and Receive, TA = 250 C, VDD = 5V
TABLE 2: RECEIVER CHARACTERISTICS
TA = -40°C to 85°C, VDD = 5V± 5% or 3.3V ± 5% Unless otherwise specified
PARAMETER
MIN.
Receiver Sensitivity
DS11
CEPT2
TYP.
10
9
MAX
UNIT
dB
Recovered Clock Jitter Transfer Corner Frequency
-
20
kHz
Jitter Attenuator Corner Frequency (-3dB curve)
-
3
Hz
Return Loss in E1 (CEPT) Mode
51kHz-102kHz
102kHz-2048kHz
2048kHz-3072kHz
12
18
14
dB
dB
dB
NOTES:
1.
Measured at 772 KHz. 0dB is the Reference to 3.0Vp.
2.
Measured at 1024 KHz (both for 75Ω and 120Ω). 0dB is the Reference to 2.37Vp (75Ω) and 3.0Vp (120Ω)
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
TABLE 3: TRANSMITTER CHARACTERISTICS
TA = -40°C to 85°C, VDD = 5V± 5% or 3.3V ± 5% Unless otherwise specified
PARAMETER
MIN.
TYP.
MAX
UNIT
AMI Output Pulse Amplitude
DS1 (at DSX)
75 Ω Application
120 Ω Application
2.4
2.13
2.70
3.0
2.37
3.00
3.6
2.60
3.30
V
V
V
Output Pulse Width
DS1
CEPT
330
224
350
244
370
264
ns
ns
Output Power Levels:
DS1 (2kHz band at 772 kHz)
DS1 (2 kHz band at 1544 kHz)
12
-29
16.7
-35
17.9
-
dBm
dB
8
8
8
-
Output Return Loss:( CEPT only)
51kHz -102kHz
102kHz-2048kHz
2048kHz-3072kHz
dB
dB
dB
TABLE 4: INTERFACE DATA TIMING (SEE FIGURES 3 AND 4)
TA = -40° to +85 °C, VDD = 5V ± 5% or 3.3V ± 5% Unless otherwise specified
PARAMETER
SYMBOL
MIN.
Transmit Clock Period
DS11
CEPT2
TClk
-
TClk Duty Cycle
TCLK
40
50
60
%
Transmit Data Setup Time
tTSU
50
-
-
ns
Transmit Data Hold Time
tTHO
40
-
-
ns
TClk Rise Time (10% /90%)
tr
-
-
40
ns
TClk Fall Time (90% / 10%)
tf
-
-
40
ns
Receive Data Setup Time
tRSU
140
-
ns
Receive Data Hold Time
tRHO
180
-
ns
40
ns
Receive Propagation Delay
NOTE: 1. Tolerance of ± 130 ppm
TYP
MAX
-
647.7
488
tPD
2. Tolerance of ± 80 ppm.
7
UNITS
ns
ns
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
FIGURE 3. INTERFACE TIMING DIAGRAM - TRANSMIT
TCLK
TR
TCLK
TF
TTSU
TTHO
TPDATA
or
TNDATA
.
FIGURE 4. INTERFACE TIMING DIAGRAM - RECEIVE
tPD
RCLK
RPDATA
or
RNDATA
tRSU
tRHO
8
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
FIGURE 5. MICROPROCESSOR INTERFACE TIMING
t1
t2
CS
MODE 1
MODE 2
EC1
EC2
EC3
LOOPA
LLOPB
t3
t4
t5
TABLE 5: MICROPROCESSOR INTERFACE TIMING
SYMBOL
PARAMETER
t1
MIN
MAX
UNIT
Control Signal Rise Time (10% - 90%)
40
ns
t2
Control Signal Rise Time (10% - 90%)
40
ns
t3
Control Signal Pulse Width Time
40
ns
t4
Control SIgnal Setup Time
50
ns
t5
Control Signal Hold Time
40
ns
9
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
SYSTEM DESCRIPTION:
1.0
1.1
RECEIVER:
The XRT83D10, a single channel DS1/CEPT Line Interface Unit is a fully integrated transceiver that provides
an electrical interface for DS1 carrier rate (1.544 Mbits/s) or CEPT rate (2.048 Mbits/s) applications.The bipolar
input signals at RTIP and RRING are applied to the peak detector and slicer.Timing recovery is performed by
the Clock and Data Recovery block. EC1,EC2 and EC3 rate control inputs must be set appropriately for DS1 or
CEPT operation. The digital representation of the AMI signals goes to the clock recovery circuit for timing recovery before being output to the RPDATA and RNDATA pins. Clock timing recovery of the line interface is accomplished by means of a digital PLL scheme which has high input jitter tolerance.
A continuously active (ungapped or unswitched) reference clock must be present at ExCLK to enable the
Timing Generator block. ExCLK must be an independent reference such as an oscillator or system clock for
proper operation. The ExCLK frequency must be 1.544 MHz ± 130 ppm for DS1 operation or 2.048 MHz ± 80
ppm for CEPT operation.
Any data pattern with a minimum long-term 1s density of 12.5% with 15 or fewer consecutive 0s is allowed.
1.1.1
Loss of Signal:
Both digital (DLOS) and analog (ALOS) loss-of-signal detection are used. The analog signal detector uses the
output of the peak detector to determine if a signal is present at RTIP and RRING. If the input amplitude drops
below approximately 0.4 Vp, the analog detector becomes active.Hysteresis is provided in the analog detector
to eliminate ALOS chattering. Either the analog or digital detector sets RLOS "High".
1.2
TRANSMITTER:
The transmitter accepts a clock with positive and negative data (dual-rail NRZ format) and converts the signal
to a balanced bipolar data signal (AMI format). Positive 1s are produced by a positive pulse on device pin TTIP
and negative 1s are produced by a positive pulse on device pin TRING. Binary 0s are converted to null pulses.
All pulse shapes are controlled on-chip according to equalizer control inputs as defined in Table 6 below.
TABLE 6: EQUALIZER/RATE CONTROL
OPERATION
CLOCK RATE
DS1
1.544 MHz
CEPT
2.048 MHz
TRANSMITTER
EQUALIZATION*
MAXIMUM
CABLE LOSS**
EC1
EC2
EC3
0 ft -131 ft
0.6
0
0
1
131 ft - 262 ft
1.2
0
1
0
262 ft - 393 ft
1.8
0
1
1
393 ft - 524 ft
2.4
1
0
0
524 ft - 655 ft
3.0
1
0
1
75 Ω
-
1
1
0
120 Ω
-
1
1
1
NOTES:
1.
* Distance to DSX in feet for 22-Ga. Use maximum loss figures for other cable types.
2.
** dB at 772 kHz.
Transmitter specifications are shown in Figure 6. The DS1 pulse shape template is specified at the DSX and is
illustrated in Figure 6.CEPT transmit waveforms at the device output conform to the template shown in
Figure 7.
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
FIGURE 6. DSX-1 PULSE TEMPLATE (NORMALIZED AMPLITUDE)
TABLE 7: DSX1 INTERFACE ISOLATED PULSE MASK PER ANSI T1.102-1993 AND CORNER POINT SPECIFICATIONS
MINIMUM CURVE
MAXIMUM CURVE
TIME (UI)
NORMALIZED AMPLITUDE (V)
TIME (UI)
NORMALIZED AMPLITUDE (V)
-0.77
-0.05
-0.77
0.05
-0.23
-0.05
-0.39
0.05
-0.23
0.5
-0.27
0.8
-0.15
0.95
-0.27
1.15
0.0
0.95
-0.12
1.15
0.15
0.9
0.0
1.05
0.23
0.5
0.27
1.05
0.23
-0.45
0.35
-0.07
0.46
-0.45
0.93
0.05
0.66
-0.2
1.16
0.05
0.93
-0.05
1.16
-0.05
11
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
FIGURE 7. ITU G.703 PULSE TEMPLATE
194 ns
(244 – 50)
20%
V = 100%
10%
10%
20%
269 ns
(244 + 25)
Nominal pulse
50%
244 ns
10%
20%
10%
10%
10%
0%
219 ns
(244 – 25)
488 ns
(244 + 244)
Note – V corresponds to the nominal peak value.
1.3 JITTER ATTENUATOR
To reduce frequency jitter in the transmit clock or receive clock, a crystal-less jitter attenuator is provided. The
jitter attenuator can be selected either in the transmit or receive path or it can be disabled as shown in Table 8.
TABLE 8: JITTER ATTENUATOR SELECTION
1.3.1
JITTER ATTENUATOR CONNECTIVITY
MODE 1
MODE 2
Bypass (Disabled)
0
0
Transmit Path
0
1
Receive Path
1
0
Test Mode
1
1
FIFO Overflow Signal (FOFS):
A FIFO overflow Signal (FOFS = 1) is indicated if the phase jitter exceeds the tolerance of the jitter attenuator.
When FOFS is "High", jitter attenuator bandwidth is increased to track the short term jitter and no data error will
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
occur.Jitter attenuator is no longer attenuating input jitter.(This signal is asserted until normal operation
resumes.)
1.4
1.4.1
ALARMS AND MAINTENANCE:
Loss of Signal:
A digital loss of signal (DLOS =1) is indicated if 175±75 or more consecutive 0s occur in the receive data
stream during DS1 operation.During CEPT operation, a DLOS is indicated when 32 or more consecutive 0s
occur in the receive data stream.DLOS is the deactivated when the ones density exceeds 12.5% and there are
no more than 100 consecutive 0s for DS1 and 16 consecutive 0s for CEPT, signifying the return of good
signal.DLOS deactivation monitors the data in a fixed 32-bit window.Each window must have at least four 1s
with no more than 15 consecutive 0s. Upon DLOS detection, RCLK is phase-locked to the external clock
(ExCLK) so that other system devices slaved to the line clock continue to operate without instantaneous phase
hits or discontinuities. Either an analog loss of signal (ALOS) or a digital loss of signal (DLOS) activates the
RLOS output pin.
1.4.2
Loss of Clock Signal (CLKLOS):
A loss of clock signal (CLKLOS =1) is indicated if either the transmit clock (TCLK) or the smoothing clock
(SCLK) output of the jitter attenuator is absent.If the jitter attenuator is placed in the transmit path, the SCLK is
monitored.If the jitter attenuator is not placed in the transmit path, TCLK or Remote Loopback Clock is
monitored.For every ten clock periods of the ExCLK oscillator clock, a strobe is generated.If a single transmit
clock period occurs between strobes, then CLKLOS = 0. If no transmit clock period occurs between strobes,
then CLKLOS = 1 and the output drivers ((TTIP and TRING) are placed into a high-impedance state and no
data is transmitted.
1.4.3
AIS (TAOS) Generator:
When the transmit all ones (TAOS = 1) signal is set, a continuous stream of bipolar 1s is transmitted onto the
line synchronous with ExCLK. The TPDATA and TNDATA inputs are ignored during this mode. If the RLOS
output is externally connected to the TAOS input, an RLOS error initiates a transmit all 1s signal as long as
RLOS = 1.Also, TAOS input is ignored when a remote loopback is selected. There is no microprocessor input
for the TAOS input, i.e., any change on the TAOS pin is fed directly into the device and is not impeded by the
CS function.
1.5
LOOPBACKS:
The XRT83D10 has three independent loopback paths, which are activated as shown in Figure 9.
TABLE 9: LOOPBACK CONTROL
OPERATION
SYMBOL
LOOPA
LOOPB
Normal
-
0
0
Digital Local loopback
LP3
0
1
Remote Loopback
LP2*
1
0
Local Loopback
LP1
1
1
NOTE: During Remote Loopback, TAOS is ignored.
A local loopback (LP1) connects the jitter attenuator’s output clock and data to the receive clock and data
output pins. MODE1:2 = 01 must be selected for this loopback to operate (jitter attenuator in the transmit path).
Valid transmit output data continues to be sent to the network. However, if the transmit all 1s (TAOS =1) is
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XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
initiated, an all 1s signal is sent to the network and does not corrupt the looped data. The RLOS alarm still
monitors the entire receive function.
A remote loopback (LP2) loops the recovered clock and re-timed data into the transmitter and back onto the
line. The receive front end, receive PLL, jitter attenuator (if enabled), and transmit driver circuitry are all
exercised. The transmit clock, transmit data, and TAOS inputs are ignored. Valid receive output data continues
to be sent to RPDATA and RNDATA. This loop can be used to isolate failures between systems.
A digital local loopback (LP3) directly loops the transmit clock and data to the receive clock and data output
pins. The transmit all 1s signal can be transmitted when in this loopback. LP3 (rather than LP1) must be
selected if MODE2 = 0.
1.6
MICROPROCESSOR INTERFACE:
A chip select input (CS) configures the device in either hardware mode or microprocessor mode. The chipselect function, applies to the following inputs: MODE1, MODE2,EC1,EC2,EC3,LOOPA and LOOPB. In the
hardware mode, any change on these asynchronous input pins fed directly into the device.To maintain
hardware mode, set CS = 0. In the microprocessor mode, new digital control inputs are loaded into the
XRT83D10 on the falling edge of CS and are latched on the rising edge of CS.
1.7
IN-CIRCUIT TESTING:
The XRT83D10 has the ability to allow for in-circuit testing by activating the high-impedance mode (ICT =
0).During this mode, all output buffers (TTIP,TRING,RCLK,RPDATA,RNDATA,RLOS,FOFS and CLKLOS) are
3-stated. During the 3-stated condition, the absolute maximum voltage ratings must not be exceeded on any
pin.
1.8
ABSOLUTE MAXIMUM RATINGS:
Stresses in excess of absolute maximum ratings can cause permanent or latent damage to the device. These
are absolute stress ratings only.Functional operation of the device is not implied at these or any other
conditions in excess of those given in the operational sections of this data sheet.
ELECTRICAL CHARACTERISTICS - ABSOLUTE MAXIMUM RATINGS
PARAMETER
SYMBOL
MIN
MAX
UNIT
DC Supply Voltage Range
VDD
-0.5
6.5
V
Storage Temperature
STO
-65
125
degC
0.5
V
Maximum Voltage (any pin) with respect to VDD
Minimum Voltage (any pin) with respect to GND
-0.5
Maximum voltage allowed (RTIP,RRING) with respect to GND
-5.0
ESD (Human-body model)
2000
V
5.0
V
V
NOTE: Stresses in excess of the Absolute Maximum Ratings can cause permanent damage to the device.The above
values are absolute stress ratings only. Exposure to Absolute Maximum Ratings for extended periods can
adversely affect device reliability.
2.0 APPLICATIONS:
2.1
Line Termination:
For the following applications, the tolerance of all transformer turns ratios is a maximum of ± 2%. The tolerance
of all resistors in the transmit path is a maximum of ± 1%.
14
xr
XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
FIGURE 8. CEPT APPLICATION FOR TWISTED-PAIR INTERFACE - 5V OR 3.3V OPERATION.
1 : 2
R T IP
866 Ω
R e c e iv e
In p u t
200 Ω
RPDATA
RNDATA
866 Ω
RC LK
DVDD
+5 V
AVDD
R R IN G
2 .4 2 :1
0 .1 µ F
10 µF
9 .1 Ω
T T IP
DGND
AGND
120 Ω
T ra n s m it
O u tp u t
TPDATA
TNDATA
TC LK
9 .1 Ω
T R IN G
FIGURE 9. DS1 APPLICATION FOR TWISTED-PAIR INTERFACE - 5V OR 3.3V OPERATION.
1 : 2
R T IP
500 Ω
R e c e iv e
In p u t
200 Ω
RPDATA
RNDATA
500 Ω
RC LK
DVDD
R R IN G
+5 V
AVDD
1 µF
10 µF
2 : 1
0 .6 8 µ F
T T IP
DGND
AGND
100 Ω
T ra n s m it
O u tp u t
TPDATA
TNDATA
TC LK
T R IN G
15
xr
XRT83D10
SINGLE CHANNEL DS1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
FIGURE 10. CEPT APPLICATION FOR COAXIAL INTERFACE - 5V OR 3.3V OPERATION.
1 :2
R T IP
270 Ω
R e c e iv e
In p u t
200 Ω
RPDATA
RNDATA
270 Ω
RC LK
DVDD
R R IN G
+5 V
AVDD
0 .1 µF
2 .4 2 :1
1 0 µF
6 .2 Ω
T T IP
DGND
AGND
75 Ω
T ra n s m it
O u tp u t
TPDATA
TNDATA
6 .2 Ω
TC LK
T R IN G
FIGURE 11. DS1 APPLICATION FOR TWISTED-PAIR INTERFACE 5V OR 3.3V OPERATION
1 : 2
R T IP
500 Ω
R e c e iv e
In p u t
200 Ω
RPDATA
RNDATA
500 Ω
RC LK
DVDD
+5 V
AVDD
R R IN G
1 µF
10 µF
2 .4 2 :1
2 Ω
T T IP
DGND
AGND
100 Ω
T ra n s m it
O u tp u t
TPDATA
TNDATA
TC LK
2 Ω
T R IN G
16
xr
XRT83D10
SINGLE CHANNEL DS1/T1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
ORDERING INFORMATION
PRODUCT NUMBER
PACKAGE
OPERATING TEMPERATURE RANGE
XRT83D10IW
28 Lead 300 Mil Jedec SOJ
-400C to +850C
PACKAGE DIMENSIONS
17
xr
XRT83D10
SINGLE CHANNEL DS1/T1/CEPT LINE INTERFACE UNIT
REV. 1.0.3
REVISION HISTORY
REVISION #
DATE
DESCRIPTION
P1.0.0
06/17/03
1st release of the XRT83D10 mkll.0
preliminary data sheet.
P1.0.1
7/28/2003
Modified the block diagram. Added application circuits.Corrected the timinga dn electrical characteristics.
P1.0.2
8/11/2003
For Receiver Sensitivity, added a note stating that DS1 measured at 772 KHz and
CEPT measured at 1024 KHz.
P1.0.3
8/29/2003
Cleaned up the description for the LOS condition.
P1.0.4
12/16/2003
Transformer information and resistor values included.Rearranged and added information in the tables.
1.0.0
2/16/2004
The TBD numbers filled in. "Preliminary" removed.
1.0.1
3/12/2004
Included Table 7
1.0.2
5/3/2004
Included the Power Levels for DS1
1.0.3
7/23/2004
Included the Max Power numbers.Included Figure 11 for DS1 interface
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 2003 EXAR Corporation
Datasheet July 2004.
Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited.
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