JGB-10SNAA1 JDS UNIPHASE, JGB-10SNAA1 Datasheet - Page 9

JGB-10SNAA1

Manufacturer Part Number

JGB-10SNAA1

Description

Manufacturer

JDS UNIPHASE

Datasheet

1.JGB-10SNAA1.pdf (30 pages)

Specifications of JGB-10SNAA1

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Operation

Link Acquisition Sequence

The following sequence should be followed to get a GBIC in full synchronization with a companion card

undergoing a similar sequence. It will also work with a single card when using an optical wrap connector. This

sequence assumes the use of an industry standard 10b Ser/Des chip.

As soon as the 10b chip receives the K28.5 character from the other side of the link, the clocks will align to

the byte boundary and all the Receive Data lines will have valid data. This will be indicated by the activation of

the Comma Detect line.

Troubleshooting: What If ...

The laser never comes on (the Tx_Fault signal is either high or low):

The Rx_LOS signal remains high:

GBIC.1063

03/06/02

1. Power up the node. The clock to the 10b chip should be running.

2. Drive the Transmit Data lines to 0101010101. (This speeds up the synchronization process and assures

3. Drive the input control lines as follows:

4. After the laser has come on, bring Lock to Reference low for at least 500 s.

5. Bring the -Lock to Reference high.

6. After 2500 bit times (2.4 s), the link should be in bit synchronization (the internal clocks are aligned to the

7. Drive the Transmit Data lines with a K28.5 (Byte Sync) character.

• Verify 5 volts on the connector to the GBIC and that the module is correctly plugged.

• If the Tx_Fault line is high, try either unplugging and replugging or powering down the module to reset the

• Try another GBIC. If the replacement operates correctly then retry the original. If the original still fails, it is

• If the replacement fails also, verify that Tx_Disable is low and that it toggles correctly on the connector.

• Verify 5 volts on the connector to the GBIC and that the module is correctly plugged.

• Verify the level on pin 1 of the connector. If the level is correct, there might be a discontinuity on the host

• Try using a wrap connector or a simplex jumper to loop the transmitter to the receiver. If the Rx_LOS line

that the Comma Detect line on the 10b chip will not pulse randomly on the companion card during the

remainder of the sequence.)

incoming bit stream), but not yet byte synchronization (the byte is aligned along the same boundary it had

when sent from the companion system to the GBIC prior to serialization). The Receive Byte Clock (10b

chip) frequency should now be running at 0.1 times the bit rate and the Comma Detect line is ready to

indicate reception of the Comma Character.

Tx_Fault line (see “Resetting a Fault (Tx_Fault)” on page 8).

probably defective.

board.

goes low, the source of the optical signal or the link may be defective. Use an optical power meter to

check the optical power level. If the average optical power is within specification (> -17 dBm for short-

wave devices), then the GBIC might be faulty.

a. Enable Wrap (10b chip): low (will not be changed)

b. Enable Comma Detect (10b chip): high (will not be changed)

c. Lock to Reference (10b chip): high

JGB-10SNAA1

JGB-10SYAA1

Fibre Channel GBIC

JGB-10LNAA1

JGB-10LYAA1

Page 9 of 29

JGB-10SNAA1 JDS UNIPHASE, JGB-10SNAA1 Datasheet - Page 9

JGB-10SNAA1

Specifications of JGB-10SNAA1

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