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PDF XRT5894 Data sheet ( Hoja de datos )
| Número de pieza | XRT5894 | |
| Descripción | Four-Channel E1 Line Interface | |
| Fabricantes | Exar Corporation | |
| Logotipo |  |
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XRT5894
Four-Channel E1
Line Interface (3.3V or 5.0V)
March 2000-3
FEATURES
D Compliant with ITU G.703 Pulse Mask Template for
2.048Mbps (E1) Rates
D Four Independent CEPT Transceivers
D Supports Differential Transformer Coupled
Receivers and Transmitters
D On Chip Pulse Shaping for Both 75W and 120W Line
Drivers
D Compliant with ITU G.775 LOS Declaration/Clearing
Recommendation
D Optional User Selectable LOS Declaration/Clearing
Delay
D Logical Inputs Accept either 3.3V or 5.0V Levels
D Ultra-Low Power Dissipation
D +3.3V or 5.0V Supply Operations
D Individual Transmit Channel Over Temperature
Protection
APPLICATIONS
D SDH Multiplexer
D Digital Cross Connects
GENERAL DESCRIPTION
The XRT5894 is an optimized four channel 3.3V line
interface unit fabricated using low power CMOS
technology. The device contains four independent E1
channels. Each channel performs the driver and receiver
functions necessary to convert bipolar signals to logical
levels and vice versa. The device requires transformers
on both receiver and transmitter sides, and supports both
balanced and unbalanced interfaces.
The device offers two distinct modes of LOS detection.
The first method, which does not require an external
clock, provides an LOS output indication signal with
thresholds and delay that comply with the ITU G.775
requirements. In the second mode, the user provides an
external clock that increases the delay for LOS
declaration and clearing. This feature provides the user
with the flexibility to implement LOS specifications that
require a delay greater than the G.775 requirements.
ORDERING INFORMATION
Part No.
XRT5894IV
Package
64 Lead TQFP (10 x 10 x 1.4mm)
Operating
Temperature Range
-40°C to +85°C
Rev. 1.10
E2000
EXAR Corporation, 48720 Kato Road, Fremont, CA 94538 z (510) 668-7000 z FAX (510) 668-7017
1 page  
XRT5894
PIN DESCRIPTION (CONT’D)
Pin #
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
Symbol
GND
TTIP3
VCC
TRING3
GND
VCC
GND
RRING4
RTIP4
GND
LOSCNT
RXNEG4
RXPOS4
LOS4
TXPOS4
TXNEG4
TXCLK4
GND
TTIP4
VCC
TRING4
GND
GND
TRING1
VCC
TTIP1
GND
TXCLK1
TXNEG1
TXPOS1
Type
O
O
I
I
I
O
O
O
I
I
I
O
O
O
O
I
I
I
Description
Analog Ground.
Transmitter 3 Positive Bipolar Output.
Positive Supply (+3.3V or +5.0V + 5%). Transmitter channel 3.
Transmitter 3 Negative Bipolar Output.
Analog Ground. Transmitter channel 3.
Positive Supply (+3.3V or +5.0V + 5%). Analog circuitry.
Analog Ground.
Receiver 4 Negative Bipolar Input.
Receiver 4 Positive Bipolar Input.
Analog Ground.
Loss of Signal Timing Clock Input. For user--programmable LOS delay.1
Receiver 4 Negative Data Out. Negative RZ data output for channel 4.
Receiver 4 Positive Data Out. Positive RZ data output for channel 4.
Receiver 4 Loss of Signal. Asserted during LOS condition.
Transmitter 4 Positive Data Input. Positive NRZ or RZ data input.1
Transmitter 4 Negative Data Input. Negative NRZ or RZ data input.1
Transmitter 4 Clock Input. Use for clocked mode with NRZ data.1
Analog Ground. Transmitter channel 4.
Transmitter 4 Positive Bipolar Output.
Positive Supply (+3.3V or +5.0V + 5%). Transmitter channel 4.
Transmitter 4 Negative Bipolar Output.
Digital Ground.
Analog Ground.
Transmitter 1 Negative Bipolar Output.
Positive Supply (+3.3V or +5.0V + 5%). Transmitter channel 1.
Transmitter 1 Positive Bipolar Output.
Analog Ground. Transmitter channel 1.
Transmitter 1 Clock Input. Use for clocked mode with NRZ data.1
Transmitter 1 Negative Data Input. Negative NRZ or RZ data input.1
Transmitter 1 Positive Data Input. Positive NRZ or RZ data input.1
Note:
1 Has internal pull-up 50KW resistor.
Rev. 1.10
5
5 Page 
XRT5894
SYSTEM DESCRIPTION
This device is a four channel E1 transceiver that provides
an electrical interface for 2.048Mbps applications. Its
unique architecture includes four receiver circuits that
convert ITU G.703 compliant bipolar signals to TTL
compatible logic levels. Each receiver includes a LOS
(Loss of Signal) detection circuit that may be configured
for either a fixed or a user-programmable LOS response
time delay. Similarly, in the transmit direction, four
transmitters convert TTL compatible logic levels to G.703
compatible bipolar signals. Each transmitter may be
operated either with RZ, or NRZ data types. In NRZ mode
a transmit clock is required as well. The following
description applies to any of the four receivers or
transmitters contained in the XRT5894. Therefore, the
suffix numbers for a particular channel are deleted for
simplicity. i.e. “RTIP” applies to RTIP1 through RTIP4.
Receiver Operation
A bipolar signal is transformer-coupled to the receiver
differential inputs (RTIP and RRING). The receiver is able
to tolerate up to 12dB of line loss measured at 1.024MHz.
It contains slicing circuitry that automatically samples the
incoming data at a fixed percentage (50% nominal) of the
peak signal amplitude. A precision peak detector
maintains the slicing level accuracy. The TTL compatible
receiver output data rails appear at the RXPOS and
RXNEG pins. The pulse width of this data; which is in RZ
format, is a function of the amount of the cable loss
present.
Receiver Loss Of Signal Detection (LOS)
Absence of signal at any receiver input is detected by the
loss of signal (LOS) circuit. One LOS detection circuitry is
provisioned for each receiver. The LOS signal is asserted
(LOS=1) when a LOS condition is detected and is cleared
(LOS=0) when a valid input signal is restored.
Two modes of LOS circuit operation are supported.
These distinct modes are called “automatic” and
“user-programmable”. When LOSSEL (pin 25) is set to
logic “1”, the automatic mode is selected. In this mode the
LOS condition will be declared and cleared in full
compliance with ITU G.775 specification. When LOSSEL
is connected to logic “0”, the user-programmable delay
mode is enabled. In this mode the user has the option of
extending the delay of LOS declaration and clearing
specified in the ITU G.775. This is done by providing a
user-supplied clock to LOSCNT (pin 45). The “user
programmable mode” is provisioned to allow systems
designers to comply with older versions of LOS
specifications in legacy systems. It needs to be stressed
that the delay for declaration and clearing of the LOS
condition will never be less than the range specified in the
G.775 specification (10-255 pulse intervals).
The LOS detection/clearing circuitry of the XRT5894 in
“automatic” mode will detect LOS when the incoming
signal has “no transitions” i.e. when the signal level is less
than or equal to a signal level AD dB below nominal signal
level, for N consecutive pulse intervals, where 10<N<255.
The value of AD can vary between 10dB to 32dB
depending on the ones density of the incoming signal
assuming the received data has minimum permissible
ones density. Furthermore LOS detect is cleared when
the incoming signal has “transitions,” i.e. when the signal
level is greater than or equal to a signal level of AC dB
below nominal, for N consecutive pulse intervals, where
10<N<255. The value of AC can vary between 9dB to
31dB depending on the ones density of the incoming
signal assuming the received data has minimum
permissible ones density. Each pulse interval is 488ns at
E1 rates. The absolute value of AC is always smaller than
AD by at least 1dB.
The LOS detection/clearing criteria described above is
fully compliant with G.775 LOS specification. In the “user
programmable” mode the user has the option of
extending the declaration and clearing delay (10<N<255)
by an amount which is equal to 2048 x T. T is the time
period of the clock supplied to LOSCNT (pin 45) by the
user.
Nominal signal level is defined as 2.37V peak measured
between RTIP or RRING and ground. (This voltage will
be present in 75W applications using a 1:2 CT ratio input
transformer terminated in 300W with the center tap
grounded with 0dB of cable and a 2.37V peak amplitude
transmit pulse at the cable input.)
Transmitters
This device contains four identical ITU G.703 compliant
transmitters. The output stage of each transmitter is a
differential voltage driver. External resistors need to be
connected to the primary of output transformer. This is
necessary to maintain an accurate source impedance
Rev. 1.10
11
11 Page | ||
| Páginas | Total 19 Páginas | |
| PDF Descargar | [ Datasheet XRT5894.PDF ] | |
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