HFBR-5203 Agilent(Hewlett-Packard), HFBR-5203 Datasheet - Page 5

HFBR-5203

Manufacturer Part Number

HFBR-5203

Description

ATM Multimode Fiber Transceivers for SONET OC-3/SDH STM-1 in Low Cost 1x9 Package Style

Manufacturer

Agilent(Hewlett-Packard)

Datasheet

1.HFBR-5203.pdf (19 pages)

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The following information is

provided to answer some of the

most common questions about

the use of these parts.

Transceiver Optical Power

Budget versus Link Length

Optical Power Budget (OPB) is

the available optical power for a

fiber optic link to accommodate

fiber cable losses plus losses due

to in-line connectors, splices,

optical switches, and to provide

margin for link aging and

unplanned losses due to cable

plant reconfiguration or repair.

Figure 4 illustrates the predicted

OPB associated with the three

transceivers series specified in

this data sheet at the Beginning of

Life (BOL). These curves repre-

sent the attenuation and chromatic

plus modal dispersion losses

associated with the 62.5/125 m

and 50/125 m fiber cables only.

The area under the curves

represents the remaining OPB at

any link length, which is available

for overcoming non-fiber cable

losses.

Figure 4. Optical Power Budget vs. Fiber Optic Cable Length.

HFBR-5203,

50/125 µm

0.3

HFBR-5203,

62.5/125 µm

FIBER OPTIC CABLE LENGTH (km)

0.5

HFBR-5205, 62.5/125 µm

HFBR-5204,

50/125 µm

1.0

HFBR-5205,

50/125 µm

HFBR-5204,

62.5/125 µm

1.5

2.0

Hewlett-Packard LED technology

has produced 800 nm LED and

1300 nm LED devices with lower

aging characteristics than

normally associated with these

technologies in the industry. The

industry convention is 3 dB aging

for 800 nm and 1.5 dB aging for

1300 nm LEDs. The 1300 nm HP

LEDs are specified to experience

less than 1 dB of aging over

normal commercial equipment

mission life periods. Contact your

Hewlett-Packard sales represen-

tative for additional details.

Figure 4 was generated for the

1300 nm transceivers with a

Hewlett-Packard fiber optic link

model containing the current

industry conventions for fiber

cable specifications and the draft

ANSI T1E1.2. These optical

parameters are reflected in the

guaranteed performance of the

transceiver specifications in this

data sheet. This same model has

been used extensively in the ANSI

and IEEE committees, including

the ANSI T1E1.2 committee, to

establish the optical performance

requirements for various fiber

2.5

optic interface standards. The

cable parameters used come from

the ISO/IEC JTC1/SC 25/WG3

Generic Cabling for Customer

Premises per DIS 11801 docu-

ment and the EIA/TIA-568-A

Commercial Building

Telecommunications Cabling

Standard per SP-2840.

The HFBR-5203 series 800 nm

transceiver curve in Figure 4 was

generated based on extensive

empirical test data of the 800 nm

transceiver performance. The

curve includes the effect of typical

fiber attenuation, plus receiver

sensitivity loss due to chromatic

and metal dispersion losses

through the fiber.

Transceiver Signaling

Operating Rate Range and BER

Performance

For purposes of definition, the

symbol (Baud) rate, also called

signaling rate, is the reciprocal of

the symbol time. Data rate (bits/

sec) is the symbol rate divided by

the encoding factor used to

encode the data (symbols/bit).

When used in 155 Mbps SONET

OC-3 applications the perform-

ance of the 1300 nm transceivers,

HFBR-5204/5205 is guaranteed

to the full conditions listed in

individual product specification

tables.

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

111

HFBR-5203 Agilent(Hewlett-Packard), HFBR-5203 Datasheet - Page 5

HFBR-5203

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