AFBR-5905Z Avago Technologies US Inc., AFBR-5905Z Datasheet - Page 7

AFBR-5905Z

Manufacturer Part Number

AFBR-5905Z

Description

TXRX OPT OC3 MTRJ SFF 2X5DIP

Manufacturer

Avago Technologies US Inc.

Datasheet

1.AFBR-5905Z.pdf (13 pages)

Specifications of AFBR-5905Z

Applications

General Purpose

Wavelength

1300nm

Voltage - Supply

3.3V

Connector Type

MTRJ

Mounting Type

Through Hole

Data Rate Max

0.1Gbps

Supply Voltage

3.3V

Wavelength Typ

1308nm

Leaded Process Compatible

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Data Rate

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-1994

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Board Layout - Decoupling Circuit, Ground Planes and

Termination Circuits

It is important to take care in the layout of your circuit

board to achieve optimum performance from these trans-

ceivers. Figure 7 provides a good example of a schematic

for a power supply decoupling circuit that works well with

these parts. It is further recommended that a contiguous

ground plane be provided in the circuit board directly un-

der the transceiver to provide a low inductance ground for

signal return current. This recommendation is in keeping

with good high frequency board layout practices. Figures

7 and 8 show two recommended termination schemes.

Board Layout - Decoupling Circuit,

Ground Planes and Termination

Circuits

It is important to take care in

the layout of your circuit

board to achieve optimum

performance from these

transceivers. Figure 7 provides

a good example of a schematic

for a power supply decoupling

circuit that works well with

these parts. It is further

recommended that a

Figure 7. Recommended Decoupling and Termination Circuits

Note: C1 = C2 = C3 = 10 nF or 100 nF

TRANSCEIVER INPUTS

TERMINATE AT

130 Ω

100 Ω

130 Ω

Z = 50 Ω

1 µH

contiguous ground plane be

provided in the circuit board

directly under the transceiver

to provide a low inductance

ground for signal return

current. This recommendation

is in keeping with good high

frequency board layout

practices. Figures 7 and 8

show two recommended

termination schemes.

Z = 50 Ω

(+3.3 V)

10 µF

Board Layout - Hole Pattern

The Avago transceiver complies with the circuit board

“Common Transceiver Footprint” hole pattern defined in

the original multisource announcement which defined

the 2 x 5 package style. This drawing is reproduced in Fig-

ure 9 with the addition of ANSI Y14.5M compliant dimen-

sioning to be used as a guide in the mechanical layout of

your circuit board.

130 Ω

Board Layout - Hole Pattern

The Agilent transceiver

complies with the circuit board

“Common Transceiver

Footprint” hole pattern defined

in the original multisource

announcement which defined

the 2 x 5 package style. This

drawing is reproduced in

Figure 9 with the addition of

ANSI Y14.5M compliant

dimensioning to be used as a

guide in the mechanical layout

of your circuit board.

DEVICE INPUTS

TERMINATE AT

82 Ω

100 Ω

130 Ω

(+3.3 V)

TD-

TD+

RD+

RD-

PHY DEVICE

(+3.3 V)

LVPECL

(+3.3 V)

AFBR-5905Z Avago Technologies US Inc., AFBR-5905Z Datasheet - Page 7

AFBR-5905Z

Specifications of AFBR-5905Z

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