HFBR-5111 Agilent(Hewlett-Packard), HFBR-5111 Datasheet - Page 6

HFBR-5111

Manufacturer Part Number

HFBR-5111

Description

Low Cost/ Industry Standard FDDI MIC Transceivers

Manufacturer

Agilent(Hewlett-Packard)

Datasheet

1.HFBR-5111.pdf (15 pages)

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2.5 x 10

1 x 10

Figure 6. Bit Error Rate vs. Relative

Receiver Input Optical Power.

Transceiver Jitter

Performance

The Hewlett-Packard 1300 nm

transceivers are designed to

operate per the system jitter

allocations stated in Table E1 of

Annex E of the FDDI PMD

standard.

The HP 1300 nm transmitters will

tolerate the worst-case input

electrical jitter allowed in the

table without violating the worst-

case output optical jitter

requirement of Sections 8.1

Active Output Interface of the

FDDI PMD standard.

The HP 1300 nm receivers will

tolerate the worst-case input

optical jitter allowed in Section

8.2 Active Input Interface of the

FDDI PMD standard without

violating the worst-case output

electrical jitter allowed in the

Table E1 of the Annex E.

The jitter specifications stated in

the following 1300 nm trans-

ceiver specification table are

derived from the values in Table

CONDITIONS:

1. 125 MBd

2. PRBS 2

3. CENTER OF SYMBOL SAMPLING.

4. T

5. V

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

-10

-11

-12

-2

-3

-4

-5

-6

-7

-8

RELATIVE INPUT OPTICAL POWER – dB

-6

= 25° C

= 5 V dc

-4

-1

CENTER OF

SYMBOL

-2

E1 of Annex E. They represent

the worst-case jitter contribution

that the transceivers are allowed

to make to the overall system

jitter without violating the Annex

E allocation example. In practice,

the typical contribution of the HP

transceiver is well below the

maximum amount.

Recommended Handling

Precautions

It is advised 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-511X Series meets

MIL-STD-883C Method 3015.4

Class 2.

Care should be taken to avoid

shorting the receiver Data or

Signal Detect outputs directly to

ground without proper current-

limiting impedance.

Solder and Wash Process

Compatibility

Each transceiver is delivered with

a protective port plug inserted

into the MIC receptacle. This port

process plug protects the optical

subassembly during wave solder

and aqueous wash processing and

acts as a dust cover during

shipping. The port process plugs

have been tested up to and found

to withstand 110 psi and 190 F.

These transceivers are

compatible with either industry

standard wave- or hand-solder

processes.

Shipping Container

Each transceiver is packaged in a

shipping container designed to

protect it from mechanical and

ESD damage during shipment or

storage.

Board Layout–Decoupling

Circuit and Ground Planes

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

schematics for decoupling

circuits that work well with this

product. It is further recom-

mended that a contiguous ground

plane be provided in the circuit

board directly under the

transceiver to provide a low

inductance ground for signal

return current. This recommenda-

tion is in keeping with good high

frequency board layout practices.

Board Layout–Hole Pattern

The hole pattern shown in Figure

8 for the 2x11 package style

complies with the pin sizes

specified by the multisource

agreement. Hole patterns are also

provided for the Standard and

Narrow 1x13 package styles.

These drawings can be used as a

guide in the mechanical layout of

your circuit board.

Board Layout–Art Work

The Applications Engineering

group has developed Gerber file

artwork for various fiber optic

transceiver layouts. Contact your

local Hewlett-Packard sales

representative for details.

Regulatory Compliance

These transceiver products are

intended to enable commercial

system designers to develop

equipment that complies with the

various international regulations

governing certification of Infor-

mation Technology Equipment.

See Table 1 for details. Additional

information is available from your

Hewlett-Packard sales

representative.

HFBR-5111 Agilent(Hewlett-Packard), HFBR-5111 Datasheet - Page 6

HFBR-5111

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