HFBR-5205A Avago Technologies US Inc., HFBR-5205A Datasheet - Page 8

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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The transceivers may be used for

other applications at signaling

rates different than 155 Mbps

with some variation in the link

optical power budget. Figure 5

gives an indication of the typical

performance of these products at

different rates.

These transceivers can also be

used for applications which

require different Bit Error Rate

(BER) performance. Figure 6

illustrates the typical trade-off

between link BER and the

receivers input optical power

level.

Transceiver Jitter

Performance

The Agilent 1300 nm transceivers

are designed to operate per the

system jitter allocations stated in

Figure 5. Transceiver Relative Optical Power Budget

at Constant BER vs. Signaling Rate.

2.5

2.0

1.5

1.0

0.5

0.5

0

CONDITIONS:

1. PRBS 2

2. DATA SAMPLED AT CENTER OF DATA SYMBOL.

3. BER = 10

4. T

5. V

6. INPUT OPTICAL RISE/FALL TIMES = 1.0/2.1 ns.

0

A

CC

25

= 25° C

= 5 V

7

50

-1

-6

dc

SIGNAL RATE (MBd)

75

100

125

150

175

200

Table B1 of Annex B of the draft

ANSI T1E1.2 Revision 3 standard.

The Agilent 1300 nm transmitters

will tolerate the worst case input

electrical jitter allowed in Annex

B without violating the worst case

output optical jitter requirements.

The Agilent 1300 nm receivers

will tolerate the worst case input

optical jitter allowed in Annex B

without violating the worst case

output electrical jitter allowed.

The jitter specifications stated in

the following 1300 nm transceiver

specification tables are derived

from the values in Table B1 of

Annex B. They represent the

worst case jitter contribution that

the transceivers are allowed to

make to the overall system jitter

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

1 x 10

Figure 6. Bit Error Rate vs. Relative Receiver Input

Optical Power.

-10

-11

-12

-2

-3

-4

-5

-6

-7

-8

-9

-6

CONDITIONS:

1. 155 MBd

2. PRBS 2

3. CENTER OF SYMBOL SAMPLING.

4. T

5. V

6. INPUT OPTICAL RISE/FALL TIMES = 1.0/2.1 ns.

RELATIVE INPUT OPTICAL POWER – dB

A

CC

= 25° C

= 5 V

-4

7

-1

dc

-2

HFBR-5204/5205

CENTER OF SYMBOL

SERIES

8

without violating the Annex B

allocation example. In practice,

the typical contribution of the

Agilent transceivers is well below

these maximum allowed amounts.

Recommended Handling

Precautions

Agilent recommends that normal

static precautions be taken in the

handling and assembly of these

transceivers to prevent damage

which may be induced by

electrostatic discharge (ESD).

The HFBR-5200 series of

transceivers meet MIL-STD-883C

Method 3015.4 Class 2 products.

Care should be used to avoid

shorting the receiver data or

signal detect outputs directly to

ground without proper current

limiting impedance.

0

2

4

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