cx28394 Conexant Systems, Inc., cx28394 Datasheet - Page 94

cx28394

Manufacturer Part Number

cx28394

Description

Quad/x16/octal-t1/e1/j1 Framers

Manufacturer

Conexant Systems, Inc.

Datasheet

1.CX28394.pdf (305 pages)

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2.0 Circuit Description

2.3 System Bus

2-36

2.3.5.3 Signaling Buffer

Transmit Frame Alignment

2.3.5.4 Transmit

Two-Frame Short

64-Bit Elastic

Framing

Bypass

throughput delay is 32 bits, or one-half of the total depth. Similar to Normal

mode, Elastic mode allows the system bus to operate at any of the programmable

bus rates, independent of the line rate. The advantage of this mode over the

two-frame mode is that throughput delay is reduced from one frame to an average

of 32 bits, and the transmit multiframe can retain its alignment with respect to the

transmit data. The disadvantage of this mode is handling the full and empty buffer

conditions. In 64-bit Elastic mode, an empty or full buffer condition causes an

Uncontrolled Slip (USLIP). Unlike an FSLIP, a USLIP is of unknown size,

ranging from 1 to 256 bits of data. The USLIP status is reported in SSTAT.

throughput delay of the Elastic mode. This mode begins in Elastic mode with a

32-bit initial throughput delay, and switches to Normal modes when the buffer is

empty or full; thereafter, the Two-Frame Short and Normal modes perform

identically. If the slip buffer is full (two frames) in the Two-Frame Short and

normal modes, an FSLIP is reported; thereafter, the slip buffer performs exactly

like Normal mode.

using TXCLK as selected by the TXCLK input clock mux.

The 32-byte Transmit Signaling Buffer [TSIG; addr 120–13F] stores a single

multiframe of signaling data input from TSIGI pin and is updated as each time

slot is received in every TSB frame. Each byte offset into TSIG is a different time

slot’s signaling data: offset 0 stores TS0 signaling data, offset 1 stores TS1

signaling data, etc. The signaling data is stored in the least significant 4 bits of the

signaling buffer. Similar to TSLIP, TSIG has read/write processor access for

accessing or overwriting signaling information. TFSYNC is used by the signaling

buffer to identify the frame boundaries in the TSIGI data stream.

A transmit framing option is provided to allow the transmitter to automatically

align to the transmit PCM data on TPCMI. In this mode, the Transmit Framer

searches transmit data for a valid E1 or T1 framing pattern. The transmit data

stream has two framing functions: offline framer and an online framer. The offline

framer recovers the transmit frame alignment (TFSYNC). The online framer

monitors the frame alignment found by the offline framer and recovers

multiframe alignment (TMSYNC).

Of Frame (TLOF) status bit in the Alarm 2 status [ALM2; addr 048] register by

the online framer. The TLOF criteria is set in the TLOFA, TLOFB, and TLOFC

bits of the Transmitter Configuration register [TCR1; addr 071]. The online

framer supports the following LOF criteria for T1: 2 frame bit errors out of 4, 2

out of 5, or 2 out of 6; for E1, it supports 3 out of 3.

transmit framing and timebase alignment options.

In 64-bit Elastic mode, the slip buffer total depth is 64 bits and the initial

The Two-Frame Short mode combines the depth of the Normal mode with the

In Bypass mode, data is clocked through TSLIP from the TSB to the XMTR

Transmit frame resynchronization is initiated by activating the Transmit Loss

Conexant

Quad/x16/Octal—T1/E1/J1 Framers

Figure 2-19

CX28394/28395/28398

illustrates

100054E

cx28394 Conexant Systems, Inc., cx28394 Datasheet - Page 94

cx28394

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