HFBR-53D5 Datasheet, PDF(1/16 Page) Agilent(Hewlett-Packard) – 1 x 9 Fiber Optic Transceivers for Gigabit Ethernet

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HFBR-53D5 Datasheet, PDF (1/16 Pages) Agilent(Hewlett-Packard) – 1 x 9 Fiber Optic Transceivers for Gigabit Ethernet

1 x 9 Fiber Optic Transceivers

for Gigabit Ethernet

Technical Data

HFBR-53D5 Family,

850 nm VCSEL

HFCT-53D5 Family,

1300 nm FP Laser

Features

â¢ Compliant with

Specifications for

IEEE- 802.3z Gigabit

Ethernet

â¢ Industry Standard

Mezzanine Height 1 x 9

Package Style with Integral

Duplex SC Connector

â¢ Performance

HFBR-53D5:

220 m with 62.5/125 Âµm MMF

500 m with 50/125 Âµm MMF

HFCT-53D5:

550 m with 62.5/125 Âµm MMF

550 m with 50/125 Âµm MMF

10 km with 9/125 SMF

â¢ IEC 60825-1 Class 1/CDRH

Class I Laser Eye Safe

â¢ Single +5 V Power Supply

Operation with PECL Logic

Interfaces

â¢ Wave Solder and Aqueous

Wash Process Compatible

Applications

â¢ Switch to Switch Interface

â¢ Switched Backbone

Applications

â¢ High Speed Interface for

File Servers

â¢ High Performance Desktops

Related Products

â¢ Physical Layer ICs Available

for Optical or Copper

Interface (HDMP-1636A/

1646A)

â¢ Versions of this Transceiver

Module Also Available for

Fibre Channel

(HFBR/HFCT-53D3)

â¢ Gigabit Interface Converters

(GBIC) for Gigabit Ethernet

(CX, SX, LX)

Description

The HFBR/HFCT-53D5

transceiver from Agilent

Technologies allows the system

designer to implement a range of

solutions for multimode and

single mode Gigabit Ethernet

applications.

The overall Agilent transceiver

product consists of three

sections: the transmitter and

receiver optical subassemblies,

an electrical subassembly, and

the package housing which

incorporates a duplex SC

connector receptacle.

Transmitter Section

The transmitter section of the

HFBR-53D5 consists of an

850 nm Vertical Cavity Surface

Emitting Laser (VCSEL) in an

optical subassembly (OSA),

which mates to the fiber cable.

The HFCT-53D5 incorporates a

1300 nm Fabry-Perot (FP) Laser

designed to meet the Gigabit

Ethernet LX specification. The

OSA is driven by a custom,

silicon bipolar IC which converts

differential PECL logic signals

(ECL referenced to a +5 Volt

supply) into an analog laser diode

drive current.

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