82V2044EPFG8 IDT, Integrated Device Technology Inc, 82V2044EPFG8 Datasheet - Page 14
82V2044EPFG8
Manufacturer Part Number
82V2044EPFG8
Description
Manufacturer
IDT, Integrated Device Technology Inc
Datasheet
1.82V2044EPFG8.pdf
(73 pages)
Specifications of 82V2044EPFG8
Screening Level
Industrial
Mounting
Surface Mount
Package Type
TQFP
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Lead Free Status / RoHS Status
Compliant
QUAD CHANNEL T1/E1/J1 SHORT HAUL LINE INTERFACE UNIT
3
3.1
nel T1/J1 LIU. In E1 application, the T1E1 bit (GCF0, 40H) should be set
to ‘0’. In T1/J1 application, the T1E1 bit should be set to ‘1’.
3.2
Encoder, an optional Jitter Attenuator, a Waveform Shaper, a Line Driver
and a Programmable Transmit Termination.
3.2.1
pin and TDNn pin. In E1 mode, the TCLKn is a 2.048 MHz clock. In T1/J1
mode, the TCLKn is a 1.544 MHz clock. If the TCLKn is missing for more
than 70 MCLK cycles, an interrupt will be generated if it is not masked.
edge of TCLKn. The active edge of TCLKn can be selected by the
TCLK_SEL bit (TCF0, 02H...). And the active level of the data on TDn/TDPn
and TDNn can be selected by the TD_INV bit (TCF0, 02H...).
ways: Single Rail and Dual Rail. In Single Rail mode, only TDn pin is used
for transmitting data and the T_MD[1] bit (TCF0, 02H...) should be set to
‘0’. In Dual Rail Mode, both TDPn and TDNn pins are used for transmitting
data, the T_MD[1] bit (TCF0, 02H...) should be set to ‘1’.
3.2.2
selected to be a B8ZS encoder or an AMI encoder by setting T_MD[0] bit
(TCF0, 02H...).
figured to be a HDB3 encoder or an AMI encoder by setting T_MD[0] bit
(TCF0, 02H...).
T_MD[1] is ‘1’), the Encoder is by-passed. In the Dual Rail mode, a logic ‘1’
on the TDPn pin and a logic ‘0’ on the TDNn pin results in a negative pulse
on the TTIPn/TRINGn; a logic ‘0’ on TDPn pin and a logic ‘1’ on TDNn pin
results in a positive pulse on the TTIPn/TRINGn. If both TDPn and TDNn
are logic ‘1’ or logic ‘0’, the TTIPn/TRINGn outputs a space (Refer to
TDPn, TDNn Pin
3.2.3
before sending it. One is to use preset pulse templates; the other is to use
user-programmable arbitrary waveform template.
3.2.3.1 Preset Pulse Templates
the G.703 and the measuring diagram is shown in Figure-4. In internal
impedance matching mode, if the cable impedance is 75 Ω, the PULS[3:0]
bits (TCF1, 03H...) should be set to ‘0000’; if the cable impedance is 120
The IDT82V2044E can be used as a four-channel E1 LIU or a four-chan-
The transmit path of each channel of the IDT82V2044E consists of an
The transmit path system interface consists of TCLKn pin, TDn/TDPn
Transmit data is sampled on the TDn/TDPn and TDNn pins by the active
The transmit data from the system side can be provided in two different
When T1/J1 mode is selected, in Single Rail mode, the Encoder can be
When E1 mode is selected, in Single Rail mode, the Encoder can be con-
In both T1/J1 mode and E1 mode, when Dual Rail mode is selected (bit
The IDT82V2044E provides two ways of manipulating the pulse shape
For E1 applications, the pulse shape is shown in
FUNCTIONAL DESCRIPTION
T1/E1/J1 MODE SELECTION
TRANSMIT PATH
TRANSMIT PATH SYSTEM INTERFACE
ENCODER
PULSE SHAPER
Description).
Figure-3
according to
TDn/
14
Ω, the PULS[3:0] bits (TCF1, 03H...) should be set to ‘0001’. In external
impedance matching mode, for both E1/75 Ω and E1/120 Ω cable imped-
ance, PULS[3:0] should be set to ‘0001’.
the T1.102 and the measuring diagram is shown in
meets the requirement of G.703, 2001. The cable length is divided into five
grades, and there are five pulse templates used for each of the cable length.
The pulse template is selected by PULS[3:0] bits (TCF1, 03H...).
Note: 1. For R
For T1 applications, the pulse shape is shown in
-0.2
-0.4
-0.6
1.2
0.8
0.6
0.4
0.2
2. For R
1
0
IDT82V2044E
Figure-3 E1 Waveform Template Diagram
0
Figure-4 E1 Pulse Template Test Circuit
1 .2 0
1 .0 0
0 .6 0
0 .4 0
-0 .2 0
0 .8 0
0 .2 0
0 .0 0
Figure-5 DSX-1 Waveform Template
LOAD
LOAD
-0 .6
= 75 Ω (nom), V
=120 Ω (nom), V
250
- 0 .4
TTIPn
TRINGn
- 0 .2
500
out
out
T im e in U n it In te rv a ls
(Peak)=2.37V (nom)
(Peak)=3.00V (nom)
Time (ns)
0
TEMPERATURE RANGES
750
0 .2
Figure-5
R
LOAD
Figure-6.
1000
0 .4
INDUSTRIAL
according to
This also
0 .6
V
OUT
1250
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