AFBR-5905Z Avago Technologies US Inc., AFBR-5905Z Datasheet - Page 13

AFBR-5905Z

Manufacturer Part Number

AFBR-5905Z

Description

TXRX OPT OC3 MTRJ SFF 2X5DIP

Manufacturer

Avago Technologies US Inc.

Datasheet

1.AFBR-5905Z.pdf (13 pages)

Specifications of AFBR-5905Z

Applications

General Purpose

Wavelength

1300nm

Voltage - Supply

3.3V

Connector Type

MTRJ

Mounting Type

Through Hole

Data Rate Max

0.1Gbps

Supply Voltage

3.3V

Wavelength Typ

1308nm

Leaded Process Compatible

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Data Rate

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

516-1994

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Notes:

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

2. The outputs are terminated with 50 Ω connected to VCC -2 V.

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

4. This value is measured with the outputs terminated into 50 Ω

5a. The power dissipation of the transmitter is calculated as the sum of

5b. The power dissipation of the receiver is calculated as the sum of

6. This value is measured with respect to VCC with the output terminated

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

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

10. The transmitter will provide this low level of Output Optical

11. The relationship between Full Width Half Maximum and RMS values for

12. The optical rise and fall times are measured from 10% to 90% when

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5989-3083EN - February 20, 2008

Differential 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

operation helps to prevent unwanted electrical noise from being

generated and conducted or emitted to neighboring circuitry.

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

average.

the products of supply voltage and current.

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

products of the output voltages and currents.

into 50 Ω connected to VCC - 2 V.

levels with the output connected to VCC -2 V through 50 Ω. 8. These

optical power values are measured with the following conditions: •

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

degradation is typically 1.5 dB per the industry convention for long

wavelength LEDs. The actual degradation observed in Avago’s 1300

nm LED products is < 1 dB, as specified in this data sheet. • Over the

specified operating voltage and temperature ranges. • With 25 MBd

(12.5 MHz square-wave), input signal. • At the end of one meter of

noted optical fiber with cladding modes 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. Please consult with your local Avago sales representative for

further details.

optical signal. The data “1” output optical power is compared to

the data “0” peak output optical power and expressed in decibels.

With the transmitter driven by a 25 MBd (12.5 MHz square-wave)

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

peak power is then calculated by adding 3 dB to the measured

average optical power. The data “0” output optical power is found

by measuring the optical power when the transmitter is driven by a

logic “0” input. The extinction ratio is the ratio of the optical power at

the “1” level compared to the optical power at the “0” level expressed

in decibels.

Power when driven by a logic “0” input. This can be useful in link

troubleshooting.

Spectral Width is derived from the assumption of a Gaussian shaped

spectrum which results in a 2.35 X RMS = FWHM relationship.

the transmitter is driven by a 25 MBd (12.5 MHz square-wave) input

signal. The ANSI T1E1.2 committee has designated the possibility of

defining an eye pattern mask for the transmitter optical output as

an item for further study. Avago will incorporate this requirement

into the specifications for these products if it is defined. The HFBR-

5905 products typically comply with the template requirements of

CCITT (now ITU-T) G.957 Section 3.2.5, Figure 2 for the STM-1 rate,

excluding the optical receiver filter normally associated with single

mode fiber measurements which is the likely source for the ANSI

T1E1.2 committee to follow in this matter.

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13. Systematic Jitter contributed by the transmitter is defined as the

14. Random Jitter contributed by the transmitter is specified with a

15. This specification is intended to indicate the performance of the

16. All conditions of Note 15 apply except that the measurement is made

17. Systematic Jitter contributed by the receiver is defined as the

19. This value is measured during the transition from low to high levels

20. This value is measured during the transition from high to low levels of

21. The Signal Detect output shall be asserted within 100 µs after a step

22. Signal detect output shall be de-asserted within 350 µs after a step

23. The AFBR-5905Z transceiver complies with the requirements for the

combination of Duty Cycle Distortion and Data Dependent Jitter.

Systematic Jitter is measured at 50% threshold using a 155.52 MBd

(77.5 MHz square-wave), 27 - 1 psuedorandom data pattern input

signal.

155.52 MBd (77.5 MHz square-wave) input signal.

receiver section of the transceiver when Input Optical Power signal

characteristics are present per the following definitions. The Input

Optical Power dynamic range from the minimum level (with a

window time-width) to the maximum level is the range over which

the receiver is guaranteed to provide output data with a Bit Error

Rate (BER) better than or equal to 1 x 10

• At the Beginning of Life (BOL)

• Over the specified operating temperature and voltage ranges

• Input is a 155.52 MBd, 223 - 1 PRBS data pattern with 72 “1”s and

• Receiver data window time-width is 1.23 ns or greater for the

• Transmitter operating with a 155.52 MBd, 77.5 MHz square-wave,

at the center of the symbol with no window time-width.

combination of Duty Cycle Distortion and Data Dependent Jitter.

Systematic Jitter is measured at 50% threshold using a 155.52 MBd

(77.5 MHz square-wave), 27 - 1 psuedorandom data pattern input

signal. 18. Random Jitter contributed by the receiver is specified with

a 155.52 MBd (77.5 MHz square-wave) input signal.

of input optical power.

input optical power. At Signal Detect Deassert, the receiver outputs

Data Out and Data Out Bar go to steady PECL levels High and Low

respectively.

increase of the Input Optical Power.

decrease in the Input Optical Power. At Signal Detect Deassert, the

receiver outputs Data Out and Data Out Bar go to steady PECL levels

High and Low respectively.

trade-offs between center wavelength, spectral width, and rise/

fall times shown in Figure 11. This figure is derived from the FDDI

PMD standard (ISO/IEC 9314-3 : 1990 and ANSI X3.166 - 1990) per

the description in ANSI T1E1.2 Revision 3. The interpretation of this

figure is that values of Center Wavelength and Spectral Width must

lie along the appropriate Optical Rise/ Fall Time curve.

72 “0”s inserted per the CCITT (now ITU-T) recommendation G.958

Appendix I.

clock recovery circuit to operate in. The actual test data window

time-width is set to simulate the effect of worst case optical input

jitter based on the transmitter jitter values from the specification

tables. The test window time-width is AFBR-5905Z 3.32 ns.

input signal to simulate any cross-talk present between the

transmitter and receiver sections of the transceiver.

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AFBR-5905Z Avago Technologies US Inc., AFBR-5905Z Datasheet - Page 13

AFBR-5905Z

Specifications of AFBR-5905Z

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