82P2282PF IDT, Integrated Device Technology Inc, 82P2282PF Datasheet - Page 22

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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IDT82P2282

E1/J1 trunks. Each link of the IDT82P2282 can be independently config-

ured. The configuration is performed through an SPI or parallel micro-

processor interface.

LINE INTERFACE - RECEIVE PATH

the RTIPn and RRINGn pins and pass through an Impedance Termina-

tor. An Adaptive Equalizer is provided to increase the sensitivity for small

signals. Clock and data are recovered from the digital pulses output from

the slicer. After passing through the Receive Jitter Attenuator (can be

enabled or disabled), the recovered data is decoded using B8ZS (for T1/

J1) / HDB3 (for E1) or AMI line code rules and clocked into the Frame

Processor. Loss of signal, line code violations and excessive zero are

detected.

FRAMER - RECEIVE PATH

configured in Super Frame (SF), Extended Super Frame (ESF), T1 Digi-

tal Multiplexer (DM) or Switch Line Carrier - 96 (SLC-96) formats. (The

T1 DM and SLC-96 formats only exist in T1 mode). The framing can also

be bypassed (unframed mode). The Framer detects and indicates the

out of SF/ESF/DM/SLC-96 synchronization event, the Yellow, Red and

AIS alarms. The Framer also detects the presence of inband loopback

codes and bit-oriented messages. Frame Alignment Signal errors, CRC-

6 errors, out of SF/ESF/T1 DM/SLC-96 events and Frame Alignment

position changes are counted. Up to three HDLC links (in ESF and T1

DM format) or two HDLC links (in SF and SLC-96 format) are provided

to extract the HDLC message on the DL bit (in ESF format) / D bit in

CH24 (in T1 DM format) or any arbitrary position. In the T1/J1 receive

path, signaling debounce, signaling freeze, idle code substitution, digital

milliwatt code insertion, idle code insertion, data inversion and pattern

generation or detection are supported on a per-channel basis. An Elastic

Store Buffer that supports controlled slip and adaptation to backplane

timing may be enabled. In the Receive System Interface, various operat-

ing modes can be selected to output signals to the system.

figured to frame to Basic Frame, CRC Multi-Frame and Signaling Multi-

Frame. The framing can be bypassed (unframed mode). The Framer

detects and indicates the following event: out of Basic Frame Sync, out

of CRC Multi-Frame, out of Signaling Multi-Frame, Remote Alarm Indi-

cation signal and Remote Signaling Multi-Frame Alarm Indication signal.

The Framer also monitors Red and AIS alarms. Basic Frame Alignment

Signal errors, Far End Block Errors (FEBE) and CRC errors are

counted. Up to three HDLC links are provided to extract the HDLC mes-

sage on TS16, the Sa National bits or any arbitrary timeslot. In the E1

receive path, signaling debounce, signaling freezing, idle code substitu-

tion, digital milliwatt code insertion, trunk conditioning, data inversion

and pattern generation or detection are also supported on a per-timeslot

basis. An Elastic Store Buffer that supports slip buffering and adaptation

to backplane timing may be enabled. In the Receive System Interface,

Functional Description

The IDT82P2282 is a highly featured single device solution for T1/

In the receive path, the signals from the line side are coupled into

In T1/J1 Mode, the recovered data and clock of each link can be

In E1 Mode, the recovered data and clock of each link can be con-

FUNCTIONAL DESCRIPTION

various operating modes can be selected to output signals to the sys-

tem.

SYSTEM INTERFACE

of 1.544 Mbit/s can be converted to/from the data stream of 2.048 Mbit/s

by software configuration. In addition, the two links can be multiplexed to

or de-multiplexed from a 8.192 Mbit/s bus. If the device is in E1 mode,

the two links can be multiplexed to or de-multiplexed from a 8.192 Mbit/s

bus.

FRAMER - TRANSMIT PATH

nals with various operating modes. In T1/J1 mode, the signals can be

processed by a Transmit Payload Control to execute the signaling inser-

tion, idle code substitution, data insertion, data inversion and test pattern

generation or detection on a per-channel basis. The transmit path of

each transceiver can be configured to generate SF, ESF, T1 DM or SLC-

96. The framer can also be disabled (unframed mode). The Framer can

transmit Yellow alarm and AIS alarm. Inband loopback codes and bit ori-

ented message can be transmitted. Up to three HDLC links (in ESF and

T1 DM format) or two HDLC links (in SF and SLC-96 format) are pro-

vided to insert the HDLC message on the DL bit (in ESF format) / D bit in

CH24 (in T1 DM format) or any arbitrary position. After passing through

a Transmit Buffer, the processed data and clock are input to the

Encoder.

Control to execute the signaling insertion, idle code substitution, data

insertion, data inversion and test pattern generation or detection on a

per-timeslot basis. The transmit path of each transceiver can be config-

ured to generate Basic Frame, CRC Multi-Frame and Signaling Multi-

Frame. The framer can be disabled (unframed mode). The Framer can

transmit Remote Alarm Indication signal, the Remote Signaling Multi-

Frame Alarm Indication signal, AIS alarm and FEBE. Three HDLC links

are provided to insert the HDLC message on TS16, the Sa National bits

or any arbitrary timeslot. The processed data and clock are input to the

Encoder.

LINE INTERFACE - TRANSMIT PATH

E1) line code rules. The Transmit Jitter Attenuator, if enabled, is pro-

vided with a FIFO in the transmit data path. A de-jittered clock is gener-

ated by an integrated digital phase-locked loop and is used to read data

from the FIFO. The shapes of the pulses are user programmable to

ensure that the T1/E1/J1 pulse template is met after the signal passing

through different cable lengths and types. Bipolar violation can be

inserted for diagnostic purposes if AMI line code rule is enabled. The

signal is transmitted on the TTIPn and TRINGn pins through an Imped-

ance Terminator.

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

On the system side, if the device is in T1/J1 mode, the data stream

In the transmit path, the Transmit System Interface inputs the sig-

In E1 mode, the signals can be processed by a Transmit Payload

The data is encoded using AMI or B8ZS (for T1/J1) and HDB3 (for

August 20, 2009

82P2282PF IDT, Integrated Device Technology Inc, 82P2282PF Datasheet - Page 22

82P2282PF

Specifications of 82P2282PF

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