82P2282PF IDT, Integrated Device Technology Inc, 82P2282PF Datasheet - Page 79

82P2282PF

Manufacturer Part Number

82P2282PF

Description

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.82P2282PF.pdf (381 pages)

Specifications of 82P2282PF

Screening Level

Industrial

Pin Count

100

Mounting

Surface Mount

Package Type

TQFP

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Lead Free Status / RoHS Status

Not Compliant

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3.18.2

plexed Mode or Multiplexed Mode. In the Non-multiplexed Mode, the

TSDn pin is used to input the data to each link at the bit rate of 2.048

Mb/s. While in the Multiplexed Mode, the data is byte interleaved from

one high speed data stream and inputs on the MTSD pin at the bit rate

of 8.192 Mb/s.

transmit system interface is in Transmit Clock Slave mode, otherwise if

the device outputs clock to TSCK itself, the transmit system interface is

in Transmit Clock Master mode.

Table 43: Operating Modes Selection In E1 Transmit Path

3.18.2.1

signal on the TSCKn pin and framing pulse on the TSFSn pin to input

the data on each TSDn pin. The signaling bits on the TSIGn pin are per-

timeslot aligned with the data on the TSDn pin.

face is clocked by the TSCKn. The active edge of the TSCKn used to

update the pulse on the TSFSn is determined by the FE bit. The active

edge of the TSCKn used to sample the data on the TSDn and TSIGn is

determined by the DE bit. If the FE bit and the DE bit are not equal, the

pulse on the TSFSn is ahead.

Basic frame, CRC Multi-frame and/or Signaling Multi-frame. The indica-

tions are selected by the FSTYP bit. The active polarity of the TSFSn is

selected by the FSINV bit.

mit Clock Master Full E1 mode and Transmit Clock Master Fractional E1

mode.

3.18.2.1.1

Master mode, the special feature in this mode is that the TSCKn is a

standard 2.048 MHz clock, and the data in all 32 timeslots in a standard

E1 frame are clocked in by the TSCKn.

3.18.2.1.2

Master mode, the special feature in this mode is that the TSCKn is a

gapped 2.048 MHz clock (no clock signal during the selected timeslot).

IDT82P2282

NOTE:

1. When the G56K, GAP bits in TPLC indirect registers are set, the PCCE bit must be set to ‘1’.

TMUX

In E1 mode, the Transmit System Interface can be set in Non-multi-

In the Non-multiplexed mode, if the TSCK is from outside, the

In the Transmit Clock Master mode, each link uses its own timing

In the Transmit Clock Master mode, the data on the system inter-

In the Transmit Clock Master mode, the TSFSn can indicate the

The Transmit Clock Master mode includes two sub-modes: Trans-

Besides all the common functions described in the Transmit Clock

E1 MODE

TMODE

Transmit Clock Master Mode

Transmit Clock Master Full E1 Mode

Transmit Clock Master Fractional E1 Mode

not both 0s

G56K, GAP

Transmit Clock Master Full E1

Transmit Clock Master Fractional E1

Transmit Clock Slave

Transmit Multiplexed

Operating Mode

the entire E1 frame, the Transmit System Interface is in Transmit Clock

Master Full E1 mode. If only the clocks aligned to the selected timeslots

are output on TSCKn, the Transmit System Interface is in Transmit

Clock Master Fractional E1 mode.

each link into various operating modes and the pins’ direction of the

transmit system interface in different operating modes.

selecting the G56K & GAP bits in the Transmit Payload Control. The

data in the corresponding gapped duration is a don't care condition.

3.18.2.2

pin and the framing pulse on the TSFSn pin to input the data on the

TSDn pin are provided by the system side. When the TSLVCK bit is set

to ‘0’, each link uses its own TSCKn and TSFSn; when the TSLVCK bit

is set to ‘1’ and both two links are in the Transmit Clock Slave mode, the

two links use the TSCK[1] and TSFS[1] to input the data. The signaling

bits on the TSIGn pin are per-timeslot aligned with the data on the TSDn

pin.

is clocked by the TSCKn. The active edge of the TSCKn used to sample

the pulse on the TSFSn is determined by the FE bit. The active edge of

the TSCKn used to sample the data on the TSDn and TSIGn is deter-

mined by the DE bit. If the FE bit and the DE bit are not equal, the pulse

on the TSFSn is ahead. The speed of the TSCKn can be selected by the

CMS bit to be the same rate as the data rate on the system side (2.048

Mb/s) or double the data rate (4.096 Mb/s). If both two links use the

TSCK[1] and TSFS[1] to input the data, the CMS bit of the two links

should be set to the same value. If the speed of the TSCKn is double the

data rate, there will be two active edges in one bit duration. In this case,

the EDGE bit determines the active edge to sample the data on the

TSDn and TSIGn pins. The pulse on the TSFSn pin is always sampled

on its first active edge.

Basic frame, CRC Multi-frame and/or Signaling Multi-frame. The indica-

tions are selected by the FSTYP bit. The active polarity of the TSFSn is

DUAL T1/E1/J1 LONG HAUL / SHORT HAUL TRANSCEIVER

In the Transmit Clock Master mode, if TSCKn outputs pulses during

Table 43 summarizes how to set the transmit system interface of

The TSCKn is gapped during the timeslots or the Bit 8 duration by

In the Transmit Clock Slave mode, the timing signal on the TSCKn

In the Transmit Clock Slave mode, the data on the system interface

In the Transmit Clock Slave mode, the TSFSn can indicate the

MTSCK, MTSFS, MTSD, MTSIG

Transmit Clock Slave Mode

TSCKn, TSFSn, TSDn, TSIGn

TSDn, TSIGn

Input

Transmit System Interface Pin

TSCKn, TSFSn

August 20, 2009

Output

82P2282PF IDT, Integrated Device Technology Inc, 82P2282PF Datasheet - Page 79

82P2282PF

Specifications of 82P2282PF

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