HFBR-5205A Avago Technologies US Inc., HFBR-5205A Datasheet - Page 20

HFBR-5205A

Manufacturer Part Number

HFBR-5205A

Description

Manufacturer

Avago Technologies US Inc.

Datasheet

1.HFBR-5205A.pdf (23 pages)

Specifications of HFBR-5205A

Optical Fiber Type

TX/RX

Data Transfer Rate

194MBd

Optical Rise Time

3ns

Optical Fall Time

3ns

Jitter

0.04/1ns

Operating Temperature Classification

Commercial

Peak Wavelength

1380/1360nm

Operating Supply Voltage (min)

4.75V

Operating Supply Voltage (typ)

5V

Operating Supply Voltage (max)

5.25V

Output Current

50mA

Operating Temp Range

0C to 70C

Mounting

Through Hole

Pin Count

9

Lead Free Status / RoHS Status

Compliant

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*Applies to 5205 Series except for HFBR-5205A. T

HFBR-5205/-5205A/-5205AT/-5205P/-5205T/-5205PE

Receiver Optical and Electrical Characteristics

(T

Notes:

1. This is the maximum voltage that

2. The outputs are terminated with

3. The power supply current needed to

4. This value is measured with the

A

Input Optical Power

Minimum at Window Edge

Input Optical Power

Minimum at Eye Center

Input Optical Power Maximum

Operating Wavelength

Systematic Jitter Contributed

by the Receiver

Random Jitter Contributed

by the Receiver

Signal Detect - Asserted

Signal Detect - Deasserted

Signal Detect - Hysteresis

Signal Detect Assert Time

(off to on)

Signal Detect Assert Time

(off to on)

Signal Detect Assert Time

(off to on) for -40 C to 0 C

Signal Detect Deassert Time

(on to off)

can be applied across the Differential

Transmitter Data Inputs to prevent

damage to the input ESD protection

circuit.

50

operate the transmitter is provided

to differential ECL circuitry. This

circuitry maintains a nearly con-

stant current flow from the power

supply. Constant current operation

helps to prevent unwanted electrical

noise from being generated and

conducted or emitted to neighboring

circuitry.

outputs terminated into 50

connected to V

Optical Power level of -14 dBm

average.

= 0 C to 70 C, V

connected to V

Parameter

CC

-2 V and an Input

CC

CC

-2 V.

= 4.75 V to 5.25 V)*

P

P

Symbol

IN Min.

IN Min.

P

P

5. The power dissipation value is the

6. This value is measured with respect

7. The output rise and fall times are

8. These optical power values are

A

Max

Max

IN Max.

SJ

RJ

P

P

- P

power dissipated in the receiver

itself. Power dissipation is calcu-

lated as the sum of the products of

supply voltage and currents, minus

the sum of the products of the

output voltages and currents.

to V

into 50

measured between 20% and 80%

levels with the output connected to

V

measured with the following

conditions:

• The Beginning of Life (BOL) to

A

D

A

CC

(W)

(C)

the End of Life (EOL) optical

power degradation is typically

1.5 dB per the industry conven-

tion for long wavelength LEDs.

D

for HFBR-5205A is -40 C to 85 C.

CC

-2 V through 50 .

with the output terminated

P

D

connected to V

+ 1.5 dB

Min.

1260

-14

-45

1.5

0

0

0

0

Typ.

CC

110

0.2

55

55

55

1

-2 V.

Max.

1360

1.91

100

130

130

350

-30

-31

1.2

-31

20

9. The Extinction Ratio is a measure of

• Over the specified operating

• With 25 MBd (12.5 MHz square-

• At the end of one meter of noted

the modulation depth of the optical

signal. The data “0” output optical

power is compared to the data “1”

The actual degradation observed

in Agilent’s 1300 nm LED

products is <1 dB, as specified in

this datasheet.

voltage and temperature ranges.

wave) input signal.

optical fiber with cladding modes

removed.

The average power value can be

converted to a peak power value

by adding 3 dB. Higher output

optical power transmitters are

available on special request.

dBm avg.

dBm avg.

dBm avg.

dBm avg.

dBm avg.

ns p-p

ns p-p

Unit

nm

dB

s

s

s

s

Reference

Figure 10

Figure 10

Note 15

Note 16

Note 15

Note 17

Note 18

Note 19

Note 20

Note 21

Note 21

Note 21

Note 22

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