AFBR-5710LZ Avago Technologies US Inc., AFBR-5710LZ Datasheet - Page 3

AFBR-5710LZ

Manufacturer Part Number

AFBR-5710LZ

Description

TXRX OPTICAL SFP STD LATCH

Manufacturer

Avago Technologies US Inc.

Series

-r

Datasheet

1.AFBR-5710LZ.pdf (20 pages)

Specifications of AFBR-5710LZ

Connector Type

LC Duplex

Mounting Type

SFP

Voltage - Supply

3.135 V ~ 3.465 V

Applications

Ethernet

Wavelength

850nm

Data Rate

1.25Gbps

Peak Reflow Compatible (260 C)

Yes

Leaded Process Compatible

Yes

Optical Fiber Type

TX/RX

Data Transfer Rate

1250MBd

Optical Rise Time

0.26/0.22ns

Optical Fall Time

0.26/0.22ns

Jitter

0.227/0.266ns

Operating Temperature Classification

Commercial

Peak Wavelength

850nm

Package Type

SFP

Operating Supply Voltage (min)

3.135V

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.465V

Operating Temp Range

-10C to 85C

Mounting

Snap Fit To Panel

Pin Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AFBR-5710LZ

Manufacturer:

Avago Technologies US Inc.

Quantity:

135

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Installation

The AFBR-571 Z can be installed in or removed from any

MSA-compliant Pluggable Small Form Factor port

regardless of whether the host equipment is operating or

not. The module is simply inserted, electrical-interface first,

under finger-pressure. Controlled hot-plugging is ensured

by 3-stage pin sequencing at the electrical interface. This

printed circuit board card-edge connector is depicted in

Figure 2.

As the module is inserted, first contact is made by the

housing ground shield, discharging any potentially

component-damaging static electricity. Ground pins

engage next and are followed by Tx and Rx power supplies.

Finally, signal lines are connected. Pin functions and

sequencing are listed in Table 2.

Transmitter Section

The transmitter section includes the Transmitter Optical

Subassembly (TOSA) and laser driver circuitry. The TOSA,

containing an 850 nm VCSEL (Vertical Cavity Surface

Emitting Laser) light source, is located at the optical

interface and mates with the LC optical connector. The

TOSA is driven by a custom IC, which converts differential

logic signals into an analog laser diode drive current. This

Tx driver circuit regulates the optical power at a constant

level provided the data pattern is DC balanced (8B10B

code for example).

Transmit Disable (Tx_Disable)

The AFBR-571 Z accepts a TTL and CMOS compatible

transmit disable control signal input (pin 3) which shuts

down the transmitter optical output. A high signal

implements this function while a low signal allows normal

transceiver operation. In the event of a fault (e.g. eye safety

circuit activated), cycling this control signal resets the

module as depicted in Figure 6. An internal pull-up resistor

disables the transceiver transmitter until the host pulls

the input low. Host systems should allow a 10ms interval

between successive assertions of this control signal.

Tx_Disable can also be asserted via the 2-wire serial

interface (address A2h, byte 110, bit 6) and monitored

(address A2h, byte 110, bit 7).

The contents of A2h, byte 110, bit 6 are logic OR’d with

hardware Tx_Disable (pin 3) to control transmitter

operation.

Transmit Fault (Tx_Fault)

A catastrophic laser fault will activate the transmitter signal,

TX_FAULT, and disable the laser. This signal is an open

collector output (pull-up required on the host board). A

low signal indicates normal laser operation and a high

signal indicates a fault. The TX_FAULT will be latched high

when a laser fault occurs and is cleared by toggling the

TX_DISABLE input or power cycling the transceiver. The

transmitter fault condition can also be monitored via the

2-wire serial interface (address A2, byte 110, bit 2).

Eye Safety Circuit

The AFBR-571 Z provides Class 1 eye safety by design

and has been tested for compliance with the requirements

listed in Table 1. The eye safety circuit continuously

monitors optical output power levels and will disable the

transmitter and assert a TX_FAULT signal upon detecting

an unsafe condition. Such unsafe conditions can be created

by inputs from the host board (Vcc fluxuation, unbalanced

code) or faults within the module.

Receiver Section

The receiver section includes the Receiver Optical

Subassembly (ROSA) and amplification/quantization

circuitry. The ROSA, containing a PIN photodiode and

custom trans-impedance preamplifier, is located at the

optical interface and mates with the LC optical connector.

The ROSA is mated to a custom IC that provides post-

amplification and quantization. Also included is a Loss Of

Signal (LOS) detection circuit.

Receiver Loss of Signal (Rx_LOS)

The Loss Of Signal (LOS) output indicates an unusable

optical input power level. The Loss Of Signal thresholds

are set to indicate a definite optical fault has occurred

(e.g., disconnected or broken fiber connection to

receiver, failed transmitter, etc.).

The post-amplification IC includes transition detection

circuitry which monitors the ac level of incoming optical

signals and provides a TTL/CMOS compatible status

signal to the host (pin 8). An adequate optical input

results in a low Rx_LOS output while a high Rx_LOS

output indicates an unusable optical input. The Rx_LOS

thresholds are factory-set so that a high output indicates

a definite optical fault has occurred. For the AFBR-5715Z

family, Rx_LOS can also be monitored via the 2-wire

serial interface (address A2h, byte 110, bit 1).

AFBR-5710LZ Avago Technologies US Inc., AFBR-5710LZ Datasheet - Page 3

AFBR-5710LZ

Specifications of AFBR-5710LZ

Available stocks

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