VSC8151QV データシートの表示（PDF） - Vitesse Semiconductor

部品番号

コンポーネント説明

メーカー

VSC8151QV

2.488Gb/s SONET/SDH STS-48/STM-16 Section Terminator

Vitesse Semiconductor 

VITESSE

SEMICONDUCTOR CORPORATION

2.488Gb/s SONET/SDH

STS-48/STM-16 Section Terminator

Advance Product Information

VSC8151

(See Figure 7). It is suggested that RXOHCLK be used to clock an external counter with RXFPOUT providing

a counter reset. This allows the counter value to be correlated to a specific output byte and to be used as a write

address for a register file.

Figure 7: Functional Overhead Output Timing

= delay

RXOHOUT[7:0] S1 M0 E2

A1 A2 J0

B1 E1 F1 B1MASK

RXOHCLK

RXFPOUT

The additional two bytes are parity error masks that indicate the number of received B1 and B2 errors.

These bytes contain a parity error-mask of the results of the BIP calculation. Incoming parity errors are desig-

nated by a ‘1’ in the corresponding bit position. A B1 or B2 error mask byte of 00H indicates no received parity

errors for that frame, and a byte of 13H would indicate 3 of 8 bits were errored. The B1 error mask appears

immediately after the F1 user byte is output and the B2 error mask appears immediately after the K2 APS byte

is output.

The RXOHOUT[7:0] output is undefined when SEF is high. RXFPOUT and RXOHCLK are functions of

the received data being properly framed and will also be indeterminate during a SEF or LOS condition.

SONET/SDH Modification Circuitry Overview

The modification circuitry receives frame aligned data from the monitoring circuitry or from an internal

state machine that generates a section AIS signal. The transport overhead of either signal can be modified by the

user, including the insertion of recalculated B1 parity. These features encompass the requirements for perform-

ing section termination, as well as allowing the modification of line overhead bytes such as K1/K2 and the line

DCC bytes.

Overhead Write Interface

The 9 bytes of the section overhead and the 18 bytes of the first channel of the line overhead can be replaced

with user defined bytes or allowed to pass through the part unchanged. The overhead write interface makes use

of an internal 32 byte register file for storing the 27 overhead modifier bytes as well as providing internal con-

figuration registers. TXWRENA, TXADDR[5:0], TXOHWI, and TXOHIN[7:0] are the write interface inputs.

Page 8

© VITESSE SEMICONDUCTOR CORPORATION

741 Calle Plano, Camarillo, CA 93012 • 805/388-3700 • FAX: 805/987-5896

G52225-0, Rev. 2.9

12/1/99

Share Link: