AFCT-5943AGZ Avago Technologies US Inc., AFCT-5943AGZ Datasheet - Page 8

AFCT-5943AGZ

Manufacturer Part Number

AFCT-5943AGZ

Description

Fiber Optic Transceiver,MODULE

Manufacturer

Avago Technologies US Inc.

Series

METRAKr

Datasheet

1.AFCT-5943GZ.pdf (15 pages)

Specifications of AFCT-5943AGZ

Data Rate

2.7Gbps

Wavelength

1300nm

Applications

General Purpose

Voltage - Supply

3.1 V ~ 3.5 V

Connector Type

LC Duplex

Mounting Type

Through Hole

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Data Line Interconnections

Avago Technologies’ AFCT-5943xxZ fiber-optic trans-

ceivers are designed to couple to +3.3 V PECL signals.

The transmitter driver circuit regulates the output

optical power. The regulated light output will maintain

a constant output optical power provided the data

pattern is balanced in duty cycle. If the data duty cycle

has long, continuous state times (low or high data duty

cycle), then the output optical power will gradually

change its average output optical power level to its pre-

set value.

The AFCT-5943xxZ has a transmit disable function

which is a single-ended +3.3 V TTL input which is dc-

coupled to pin 8.

The receiver section is internally ac-coupled between

the preamplifier and the post-amplifier stages. The Data

and Data-bar outputs of the post-amplifier are inter-

nally biased and ac-coupled to their respective output

pins (pins 4, 5).

Signal Detect is a single-ended, +3.3 V TTL compatible

output signal that is dc-coupled to pin 3 of the module.

Signal Detect should not be ac-coupled externally to

the follow-on circuits because of its infrequent state

changes.

Caution should be taken to account for the proper in-

tercon-nection between the supporting Physical Layer

integrated circuits and these transceivers. Figure 6 il-

lustrates a recommended interface circuit for intercon-

necting to a +3.3 V dc PECL fiber-optic transceiver.

Power Supply Filtering and Ground Planes

It is important to exercise care in circuit board layout to

achieve optimum performance from these transceivers.

Figure 6 shows the power supply circuit which complies

with the small form factor multisource agreement. It is

further recommended that a continuous ground plane

be provided in the circuit board directly under the

transceiver to provide a low inductance ground for sig-

nal return current. This recommendation is in keeping

with good high frequency board layout practices.

Package footprint and front panel considerations

The Avago Technologies transceivers comply with the

circuit board “Common Transceiver Footprint” hole

pattern defined in the current multisource agreement

which defined the 2 x 5 package style. This drawing

is reproduced in Figure 7 with the addition of ANSI

Y14.5M compliant dimensioning to be used as a guide

in the mechanical layout of your circuit board. Figure 8

shows the front panel dimensions associated with such

a layout.

Eye Safety Circuit

For an optical transmitter device to be eye-safe in the

event of a single fault failure, the transmit-ter must ei-

ther maintain eye-safe operation or be disabled.

The AFCT-5943xxZ is intrinsically eye safe and does not

require shut down circuitry.

Signal Detect

The Signal Detect circuit provides a deasserted output

signal when the optical link is broken (or when the

remote transmitter is OFF). The Signal Detect thresh-

old is set to transition from a high to low state be-

tween the minimum receiver input optical power and

-35 dBm avg. input optical power indicating a definite

optical fault (e.g. unplugged connector for the receiver

or transmitter, broken fiber, or failed far-end transmit-

ter or data source). The Signal Detect does not detect

receiver data error or error-rate. Data errors can be

determined by signal processing offered by upstream

PHY ICs.

Electromagnetic Interference (EMI)

One of a circuit board designer’s foremost concerns is

the control of electromagnetic emissions from electronic

equipment. Success in controlling generated Electro-

magnetic Interference (EMI) enables the designer to pass

a governmental agency’s EMI regulatory standard and

more importantly, it reduces the possibility of interfer-

ence to neighboring equipment. Avago Technologies

has designed the AFCT-5943xxZ to provide good EMI

performance. The EMI performance of a chassis is de-

pendent on physical design and features which help im-

prove EMI suppression. Avago Technologies encourages

using standard RF suppression practices and avoiding

poorly EMI-sealed enclosures.

Avago Technologies’ OC-48 LC transceivers (AFCT-

5943xxZ) have nose shields which provide a convenient

chassis connection to the nose of the transceiver. This

nose shield and the underlying metalization (except

‘G’ options) improve system EMI performance by effec-

tively closing off the LC aperture. The recommended

transceiver position, PCB layout and panel opening for

both devices are the same, making them mechanically

drop-in compatible. Figure 8 shows the recommended

positioning of the transceivers with respect to the PCB

and faceplate.

AFCT-5943AGZ Avago Technologies US Inc., AFCT-5943AGZ Datasheet - Page 8

AFCT-5943AGZ

Specifications of AFCT-5943AGZ

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