AFBR-5803Z Avago Technologies US Inc., AFBR-5803Z Datasheet - Page 5

AFBR-5803Z

Manufacturer Part Number

AFBR-5803Z

Description

TXRX OPT 1X9 100MBPS DUPLEX SC

Manufacturer

Avago Technologies US Inc.

Datasheet

1.AFBR-5803ATZ.pdf (16 pages)

Specifications of AFBR-5803Z

Data Rate

100Mbps

Wavelength

1300nm

Applications

General Purpose

Voltage - Supply

3.3V, 5V

Connector Type

Mounting Type

Through Hole

Function

Implement FDDI and ATM at the 100 Mbps/125 MBd rate

Product

Transceiver

Pulse Width Distortion

0.69 ns (Max)/2.14 ns (Max)

Maximum Output Current

50 mA

Operating Supply Voltage

4.75 V to 5.25 V

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

Multimode Glass

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-1991

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Application Information

The Applications Engineering group in the Avago

Technologies Fiber Optics Communication Division is

available to assist you with the technical understanding

and design trade-offs associated with these transceivers.

You can contact them through your Avago Technologies

sales representative.

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 transceiver series specified in this data sheet at the

Beginning of Life (BOL). These curves represent the at-

tenuation and chromatic plus modal dispersion losses

associated with the 62.5/125 µm and 50/125 µm fiber

cables only. The area under the curves represents the

remaining OPB at any link length, which is available for

overcoming non-fiber cable related losses.

Avago Technologies LED technology has produced

1300 nm LED devices with lower aging characteristics

than normally associated with these technologies in the

industry. The industry convention is 1.5 dB aging for 1300

nm LEDs. The Avago Technologies 1300 nm LEDs will

experience less than 1 dB of aging over normal commer-

cial equipment mission life periods. Contact your Avago

Technologies sales representative for additional details.

Figure 4 was generated with a Avago Technologies fiber

optic link model containing the current industry conven-

tions for fiber cable specifications and the FDDI PMD

and LCF-PMD optical parameters. These parameters are

reflected in the guaranteed performance of the trans-

ceiver specifications in this data sheet. This same model

has been used extensively in the ANSI and IEEE commit-

tees, including the ANSI X3T9.5 committee, to establish

the optical performance requirements for various fiber

optic interface standards. The cable parameters used

come from the ISO/IEC JTC1/SC 25/WG3 Generic Cabling

for Customer Premises per DIS 11801 document and the

EIA/TIA-568-A Commercial Building Telecommunications

Cabling Standard per SP-2840.

Figure 5. Transceiver Relative Optical Power Budget at Constant BER vs.

Signaling Rate.

The transceivers may be used for other applications at

signaling rates outside of the 10 MBd to 125 MBd range

with some penalty in the link optical power budget

primarily caused by a reduction of receiver sensitivity.

Figure 5 gives an indication of the typical performance

of these 1300 nm 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.

Figure 4. Optical Power Budget at BOL versus Fiber Optic Cable Length.

Transceiver Signaling Operating Rate Range and BER Perfor-

mance

For purposes of definition, the symbol (Baud) rate, also

called signaling rate, is the reciprocal of the shortest

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 Fast Ethernet, FDDI and ATM 100 Mb/s

applications the performance of the 1300 nm transceiv-

ers is guaranteed over the signaling rate of 10 MBd to

125 MBd to the full conditions listed in individual product

specification tables.

2.5

2.0

1.5

1.0

0.5

0.3

FIBER OPTIC CABLE LENGTH (km)

0.5

SIGNAL RATE (MBd)

AFBR-5803, 62.5/125 µm

50/125 µm

AFBR-5803

100

1.5

125

2.0

150

175

2.5

200

CONDITIONS:

1. PRBS 2

2. DATA SAMPLED AT

3. BER = 10

4. T

5. V

6. INPUT OPTICAL RISE/

CENTER OF DATA SYMBOL.

FALL TIMES = 1.0/2.1 ns.

= +25˚ C

= 3.3 V to 5 V dc

-1

-6

AFBR-5803Z Avago Technologies US Inc., AFBR-5803Z Datasheet - Page 5

AFBR-5803Z

Specifications of AFBR-5803Z

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