AFBR-5103PEZ Avago Technologies US Inc., AFBR-5103PEZ Datasheet - Page 18

AFBR-5103PEZ

Manufacturer Part Number

AFBR-5103PEZ

Description

TXRX 127MBD DUPLEX SC 1X9 MEZZ

Manufacturer

Avago Technologies US Inc.

Datasheet

1.AFBR-5103TZ.pdf (20 pages)

Specifications of AFBR-5103PEZ

Data Rate

100Mbps

Wavelength

1308nm

Applications

Ethernet

Voltage - Supply

4.75 V ~ 5.25 V

Connector Type

Mounting Type

Through Hole

Function

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

Product

Transceiver

Pulse Width Distortion

0.02 ns

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

Package / Case

SIP-9

For Use With

Multimode Glass

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AFBR-5103Z/-5103TZ

Receiver Optical and Electrical Characteristics

Notes:

Input Optical Power Minimum at

Window Edge

Input Optical Power Minimum at

Eye Center

Input Optical Power Maximum

Operating Wavelength

Duty Cycle Distortion Contributed

by the Receiver

Data Dependent 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)

SignalDetectAssert Time (off to on)

for -40°C to 0°C

Signal Detect Deassert Time (on

to off )

1. This is the maximum voltage that can be applied across the Differen-

2. The outputs are terminated with 50 ý connected to V

3. The power supply current needed to operate the transmitter is

4. This value is measured with the outputs terminated into 50 ý con-

5. The power dissipation value is the power dissipated in the receiver

6. These values are measured with respect to V

7. The output rise and fall times are measured between 20% and 80%

8. Duty Cycle Distortion contributed by the receiver is measured at

Parameter

tial Transmitter Data Inputs to prevent damage to the input ESD

protection circuit.

provided to differential ECL circuitry. This circuitry maintains a nearly

constant current flow from the power supply. Constant current opera-

tion helps to prevent unwanted electrical noise from being generated

and conducted or emitted to neighboring circuitry.

nected to V

average.

itself. Power dissipation is calculated as the sum of the products of

supply voltage and currents, minus the sum of the products of the

output voltages and currents.

terminated into 50 ý connected to V

levels with the output connected to V

the 50% threshold using an IDLE Line State, 125 MBd (62.5 MHz

square-wave), input signal. The input optical power level is -20 dBm

average. See Application Information - Transceiver Jitter Section for

further information.

= 0°C to 70°C, V

- 2 V and an Input Optical Power level of -14 dBm

= 4.75 V to 5.25 V)

- 2 V.

-2 V through 50 ý.

DCD

DDJ

AS_Max

ANS_Max

IN Min.

IN Max.

Symbol

- P

with the output

(W)

(C)

-2 V.

Min.

-14

1270

-45

1.5

+ 1.5 dB

10. Random Jitter contributed by the receiver is specified with an IDLE

11. These optical power values are measured with the following

12. The Extinction Ratio is a measure of the modulation depth of the

9. Data Dependent Jitter contributed by the receiver is specified with

• Over the specified operating voltage and temperature ranges.

• With HALT Line State, (12.5 MHz square-wave), input signal.

• At the end of one meter of noted optical fiber with cladding modes

• The Beginning of Life (BOL) to the End of Life (EOL) optical power

the FDDI DDJ test pattern described in the FDDI PMD Annex A.5. The

input optical power level is -20 dBm average. See Application Informa-

tion - Transceiver Jitter Section for further information.

Line State, 125 MBd (62.5 MHz square-wave), input signal. The input

optical power level is at maximum “P

Information - Transceiver Jitter Section for further information.

conditions:

degradation is typically 1.5 dB per the industry convention for

long wavelength LEDs. The actual degradation observed in Avago

Technologies’ 1300 nm LED products is < 1 dB, as specified in this

data sheet.

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.

optical signal. The data “0” output optical power is compared to the

data “1” peak output optical power and expressed as a percentage.

With the transmitter driven by a HALT Line State (12.5 MHz square-

wave) signal, the average optical power is measured. The data “1”

-33.5

-34.5

-11.8

0.02

0.35

1.0

2.4

110

Typ. Max.

-31

-31.8

1380

0.4

1.0

2.14

-33

100

130

350

dBm avg.

ns p-p

dBm avg.

µs

Unit

IN Min.

Reference

Note 19

Figure 11

Note 20

Figure 11

Note 19

Note 8

Note 9

Note 10

Note 21, 22

Figure 12

Note 23, 24

Figure 12

Note 21,

Figure 12

Note 21,

Figure 12

Note 23, 24

Figure 12

(W)”. See Application

AFBR-5103PEZ Avago Technologies US Inc., AFBR-5103PEZ Datasheet - Page 18

AFBR-5103PEZ

Specifications of AFBR-5103PEZ

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