HFBR-59L1AL Datasheet, PDF(11/16 Page) Agilent(Hewlett-Packard) – Agilent HFBR-59L1AL 1.25 GBd Ethernet and 1.0625 GBd Fibre Channel 850 nm SFF Low Voltage (3.3 V) Optical Transceiver

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HFBR-59L1AL Datasheet, PDF (11/16 Pages) Agilent(Hewlett-Packard) – Agilent HFBR-59L1AL 1.25 GBd Ethernet and 1.0625 GBd Fibre Channel 850 nm SFF Low Voltage (3.3 V) Optical Transceiver

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Transmitter Optical Characteristics

(TC = -10 Â°C to +85 Â°C, VCCT, R = 3.3 V Â±10%)

Parameter

Symbol

Minimum Typical

Maximum

Unit Notes

Output Optical Power (Average) POUT

-10

dBm

50/125 Âµm

NA = 0.2

Note 1

POUT

-10

dBm

62.5/125 Âµm

NA = 0.275

Note 1

Optical Extinction Ratio

Optical Modulation Amplitude OMA

156

(Peak-to-Peak) 1.0625 Gb/s

ÂµW

FC-PI Std

Note 3

Center Wavelength

830

Spectral Width - rms

860

FC-PI Std

0.85

FC-PI Std

Optical Rise/Fall Time

Trise/fall

150

20%-80%,

FC-PI Std

RIN12 (OMA), maximum

RIN

Contributed Deterministic Jitter DJ

(Transmitter) 1.25 Gb/s

-117

dB/Hz FC-PI Std

0.1

Notes 3, 4

Contributed Deterministic Jitter DJ

(Transmitter) 1.0625 Gb/s

.009

Notes 3, 4

Contributed Random Jitter

(Transmitter) 1.25 Gb/s

.184

Notes 4, 5

147

Contributed Random Jitter

(Transmitter) 1.0625 Gb/s

.177

Notes 4, 5

167

POUT TX_DISABLE Asserted

POFF

-35

dBm

Notes:

1. Max Pout is the lesser of 0 dBm or Maximum allowable per Eye Safety Standard.

2. An OMA of 156 is approximately equal to an average power of â10 dBm assuming an Extinction Ratio of 9 dB.

3. Contributed DJ is measured on an oscilloscope in average mode with 50% threshold and K28.5 pattern.

4. Contributed RJ is calculated for 1x10-12 BER by multiplying the RMS jitter (measured on a single rise or fall edge) from the oscilloscope by 14. Per

the FC-PI standard (Table 13 - MM jitter output, note 1), the actual contributed RJ is allowed to increase above its limit if the actual contributed DJ

decreases below its limits, as long as the component output DJ and TJ remain within their specified FC-PI maximum limits with the worst case

specified component jitter input.

5. In a network link, each componentâs output jitter equals each componentâs input jitter combined with each componentâs contributed jitter.

Contributed DJ adds in a linear fashion and contributed RJ adds in a RMS fashion. In the Fibre Channel specification, there is a table specifying the

input and output DJ and TJ for the transmitter at each data rate. In that table, RJ is found from TJ â DJ, where the TX input jitter is noted as Delta T,

and the TX output jitter is noted as Gamma T. The HFBR-59L1AL contributed jitter is such that, if the maximum specified input jitter is present, and is

combined with our maximum contributed jitter, then we meet the specified maximum output jitter limits listed in the FC-PI MM jitter specification

table.

6. Please refer to the HFBR-59L1AL characterization report for typical values.

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