HFBR-0410 Avago Technologies US Inc., HFBR-0410 Datasheet - Page 14

KIT EVAL FIBER OPTIC 5MBD

HFBR-0410

Manufacturer Part Number

HFBR-0410

Description

KIT EVAL FIBER OPTIC 5MBD

Manufacturer

Avago Technologies US Inc.

Datasheets

1.HFBR-4401Z.pdf (25 pages)

2.HFBR-4120.pdf (24 pages)

Specifications of HFBR-0410

Main Purpose

Interface, Fiber Optics

Embedded

No

Utilized Ic / Part

HFBR-1412, HFBR-2412

Primary Attributes

DC ~ 5MBd TTL

Secondary Attributes

ST Connectors

Silicon Core Number

HFBR-1412, HFBR-2412

Kit Contents

TX/RX Mods, Cable, Pol Kit, SW, Pwr. Sup

Silicon Family Name

HFBR-0400

Features

Dc To 5 MBd TTL Compatible Fiber Optic Component

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

516-2138
HFBR-0410

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Regulatory Compliance – Targeted Specifications

Feature

Absolute Maximum Ratings

Parameter

Storage Temperature

Operating Temperature

Lead Soldering Cycle

Forward Input Current

Reverse Input Voltage

14

HFBR-14X2/14X4 Low-Cost

High-Speed Transmitters

Description

The HFBR-14XX fiber optic

transmitter contains an 820 nm

AlGaAs emitter capable of

efficiently launching optical

power into four different optical

fiber sizes: 50/125 m, 62.5/125

HCS

flexibility in choosing the fiber

size. The HFBR-14XX is designed

to operate with the Avago

HFBR-24XX fiber optic receivers.

The HFBR-14XX transmitter’s

high coupling efficiency allows

the emitter to be driven at low

current levels resulting in low

power consumption and increased

reliability of the transmitter. The

HFBR-14X4 high power transmit-

ter is optimized for small size

fiber and typically can launch

-15.8 dBm optical power at

Electrostatic Discharge (ESD)

m, 100/140 m, and 200 m

®

. This allows the designer

Temp.

Time

Peak

dc

Test Method

MIL-STD-883 Method 3015

60 mA into 50/125 m fiber and

-12 dBm into 62.5/125 m fiber.

The HFBR-14X2 standard

transmitter typically can launch

-12 dBm of optical power at

60 mA into 100/140 m fiber

cable. It is ideal for large size

fiber such as 100/140 m. The

high launched optical power level

is useful for systems where star

couplers, taps, or inline connec-

tors create large fixed losses.

Consistent coupling efficiency is

assured by the double-lens optical

system (Figure 1). Power coupled

into any of the three fiber types

varies less than 5 dB from part to

part at a given drive current and

temperature. Consistent coupling

efficiency reduces receiver

dynamic range requirements

which allows for longer link

lengths.

Symbol

T

T

I

I

V

FPK

Fdc

BR

S

A

Min.

-55

-40

Performance

Class 1B (>500, <1000 V) – Human Body Model

Max.

+85

+85

+260

10

200

100

1.8

Unhoused Product

Housed Product

Units

sec

mA

mA

V

C

C

C

Reference

Note 1

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