bt8375kpf Conexant Systems, Inc., bt8375kpf Datasheet - Page 88

bt8375kpf

Manufacturer Part Number

bt8375kpf

Description

Single Chip Transceivers For T1/e1 And Integrated Service Digital Network Isdn Primary Rate Interfaces Systems

Manufacturer

Conexant Systems, Inc.

Datasheet

1.BT8375KPF.pdf (323 pages)

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2.0 Circuit Description

2.8 Transmitter

2.8.4 Overhead Pattern Generator

2-60

2.8.4.2 Alarm Generator

2.8.4.1 Framing Pattern

AIS Generation

Generation

The transmit overhead generation circuitry provides the ability to insert all of the

overhead associated with the Primary Rate Channel. The following types of

overhead pattern generation are supported: Framing patterns, Alarm patterns,

Cyclic Redundancy Check (CRC), and Far-End Block Error (FEBE).

The framing pattern generation circuitry inserts the following patterns into the

data stream: the 2-bit terminal framing (Ft) pattern, the 6-bit signaling frame (Fs)

pattern, the 6-bit FPS pattern, the 8-bit FAS/NFAS pattern, and the 6-bit MFAS

pattern.

stream by enabling the INS_FBIT in the Transmit Frame Format register [TFRM;

addr 072]. The Fs pattern in SF is inserted by enabling the INS_MF bit. The FPS

pattern in ESF and the FAS/NFAS pattern in E1 mode are inserted by enabling the

INS_FBIT bit. The MFAS pattern is inserted by enabling the INS_MF bit.

The Transmit Alarm Generation circuitry generates Alarm Indication Signal

(AIS) and Remote Alarm Indication (RAI/Yellow Alarm).

AIS is defined as an unframed all-1s pattern and is normally transmitted when the

data source is lost. AIS transmission can be enabled as follows:

transmit data or clock is not present. In most applications, DTE data and clock are

isolated from the transmitter, requiring manual AIS transmission under software

control. Manual insertion of AIS is controlled by the TAIS bit in the Transmit

Alarm Signal Configuration register [TALM; addr 075]. Setting this bit

overwrites the currently transmitted data with the AIS pattern. If AISCLK

[TLIU_CR; addr 068] is also set, AIS is transmitted using AIS Clock Input

(ACKI); otherwise it uses the clock present at TCKI MUX output [CMUX; addr

01A].

of clock [TLOC; addr 048]. This mode is enabled by setting AISCLK and

providing an alternate transmit line rate clock on the ACKI clock input pin.

can also be controlled by detection of Receiver Loss of Signal [RLOS; addr 047]

or Receiver Loss of Clock [RLOC; addr 047], depending on whether an analog or

digital line interface option [RDIGI; addr 020] is used. This mode is typically

used to transmit AIS (keep-alive) during line loopback if the received signal is

lost. Setting AUTO_AIS simultaneously with setting LLOOP [LOOP; addr 014]

enables this operation.

The Ft pattern in SF, SLC-96, and T1DM is inserted into the transmit data

• Manually

• Automatically upon detection of transmit loss of clock

• Automatically upon loss of received signal or loss of receive clock

Typical applications require transmission of AIS toward the line when DTE

Automatic transmission of AIS can be controlled by detection of transmit loss

By setting AUTO_AIS in the TALM register, automatic transmission of AIS

Conexant

Fully Integrated T1/E1 Framer and Line Interface

Bt8370/8375/8376

N8370DSE

bt8375kpf Conexant Systems, Inc., bt8375kpf Datasheet - Page 88

bt8375kpf

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