vsc870 Vitesse Semiconductor Corp, vsc870 Datasheet - Page 11

vsc870

Manufacturer Part Number

vsc870

Description

High Performance Serial Backplane Transceiver

Manufacturer

Vitesse Semiconductor Corp

Datasheet

1.VSC870.pdf (40 pages)

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Data Sheet

VSC870

G52190-0, Rev 4.1

01/05/01

1.3 Loopback Mode

serial transmit data is looped back to the CRU on the serial receiving side. The transmitted serial data is generated

using the CMU clock. This mode can be used to test the high speed circuitry (except for the serial input/output

buffers) using the low speed parallel interface. The serial data can also be looped back through the I/O of the switch

chip or other connected transceiver if the other device is in FACLPBK mode (see the table below). If FACLPBK is set

HIGH, the receive serial data is recovered using the CRU and looped back to the serial output.

1.4 Redundancy

to redundant switch chips or redundant transceivers. The serial inputs are also connected to a signal detector circuit

which is used to determine if there is an average of one transition for every 34 bits of data. If there is, the signal

ALIVE remains HIGH. Which ever input is not connected to the CRU is connected to the signal detector. An example

system would have the redundant serial output connected to a redundant switch chip. This switch chip has the LPBK

bits in the status and control registers set HIGH such that the transceiver output signal (which is looped through the

switch input/output buffer) comes back to itself at the redundant serial input buffer (see Application Note 35). If the

primary switch chip fails, and the ALIVE signal is HIGH on all transceivers, the redundant switch chip can be

activated in its place after it goes through the link initialization process. The signal RXSEL on the transceiver is used

to select the redundant input buffer.

1.5 Operating Modes

sections. The pin LTIME selects the source of the bit clock for the transmit side. LTIME is normally set HIGH. In this

case, the received bit clock is use for the transmit bit clock. If LTIME is set LOW, the transceivers CMU is used as the

source of the transmit bit clock. This signal must be set LOW to test the transceiver in loopback mode or when used

as a master transceiver in Direct Mode (see section 4.0).

LOOP

BACK

The VSC870 supports two loopback functions at the serial interface. If the LOOPBACK signal is set HIGH, the

There are two serial output buffers and two serial input buffers on the transceiver. These can be used to connect

The following table summarizes the operating modes for the transceiver that have been discussed in the previous

LTIME

Control Signal Name

MODE[1]

Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: prodinfo@vitesse.com

VITESSE

SEMICONDUCTOR CORPORATION

MODE[0]

Internet: www.vitesse.com

PASS

CELL

SYN

Normal Packet Mode operation

Normal Cell Mode operation

Master transceiver in Direct Mode (figure 13)

Slave transceiver in Direct Mode (figure 13)

Master transceiver in Direct Mode (figure 14)

Slave transceiver in Direct Mode (figure 14)

Loopback mode internal to the transceiver

Loopback mode through a VSC880

Loopback mode through an external cable

Mux/Demux Mode - No word alignment

Description of Operation

High Performance Serial

Backplane Transceiver

Page 11

vsc870 Vitesse Semiconductor Corp, vsc870 Datasheet - Page 11

vsc870

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