AFBR-5205ATZ Avago Technologies US Inc., AFBR-5205ATZ Datasheet - Page 20

AFBR-5205ATZ

Manufacturer Part Number

AFBR-5205ATZ

Description

Fiber Optics, Transceiver Module

Manufacturer

Avago Technologies US Inc.

Datasheet

1.AFBR-5205ATZ.pdf (21 pages)

Specifications of AFBR-5205ATZ

Data Rate Max

0.155Gbps

Supply Voltage

Wavelength Typ

1300nm

Applications

Multimode Fiber ATM Backbone Links, Multimode Fiber ATM Wiring Closet To Desktop Links

Data Rate

155Mbps

Wavelength

1310nm

Voltage - Supply

4.75 V ~ 5.25 V

Connector Type

Mounting Type

Through Hole

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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10. The transmitter will provide this low level

11. The relationship between Full Width Half

12. The optical rise and fall times are

13. Systematic Jitter contributed by the

Ordering Information

The following 1300 nm

transceivers are available for

production orders through the

Avago Component Field Sales

Offices and Authorized

Distributors world wide.

*For flush shield options, please

contact Field Sales Offices and

Authorized Distributors world

wide.

of Output Optical Power when driven by a

logic “0” input. This can be useful in link

troubleshooting.

Maximum and RMS values for Spectral

Width is derived from the assumption of a

Gaussian shaped spectrum which results

in a 2.35 X RMS = FWHM relationship.

measured from 10% to 90% when 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.

incorporate this requirement into the

specifications for these products if it is

defined. The AFBR-5205Z 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.

transmitter is defined as 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),

signal.

- 1 psuedorandom data pattern input

Avago

will

14. Random Jitter contributed by the

15. This specification is intended to indicate

1300nm LED, ATM/SONET OC-3, 155MBd

AFBR-5205Z

AFBR-5205TZ

AFBR-5205PZ

AFBR-5205PEZ

1300nm LED, 155MBd temperature range -40 C to +85 C

AFBR-5205AZ

AFBR-5205ATZ

temperature range 0 C to +70 C

transmitter is specified with a 155.52 MBd

(77.5 MHz square-wave) input signal.

the performance of the 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 Ratio (BER) better

than or equal to 1 x 10

• At the Beginning of Life (BOL)

• Over the specified operating

• Input is a 155.52 MBd, 2

• Receiver data window time-width is

• Transmitter operating with a 155.52 MBd,

temperature and voltage ranges

pattern with 72 “1”s and 72 “0”s

inserted per the CCITT (now ITU-T)

recommendation G.958 Appendix I.

1.23 ns or greater for the 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 as follows:

HFBR-5205 is 3.32 ns.

77.5 MHz square-wave, input signal to

simulate any cross-talk present between

the transmitter and receiver sections of

the transceiver.

DUPLEX SC Connector 1X9, 2KM

ATM/SONET OC-3 DUPLEX SC Connector 1X9

ATM/SONET OC-3 DUPLEX ST Connector1X9

Duplex ST Connector 1X9

Duplex SC Connector 1x9, Mezzanine Height

Duplex SC Connector 1x9, Mezzanine Height with Extended Shield

-10

- 1 PRBS data

16. All conditions of Note 15 apply except that

17. Systematic Jitter contributed by the

18. Random Jitter contributed by the receiver

19. This value is measured during the

20. This value is measured during the

21. The Signal Detect output shall be asserted

22. Signal detect output shall be de-asserted

23. The AFBR-5205Z transceiver complies

the measurement is made at the center of

the symbol with no window time-width.

receiver is defined as 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), 2

random data pattern input signal.

is specified with a 155.52 MBd (77.5 MHz

square-wave) input signal.

transition from low to high levels of input

optical power.

transition from high to low levels of input

optical power.

within 100 s after a step increase of the

Input Optical Power (130 s for -40 C to

0 C).

within 350 s after a step decrease in the

Input Optical Power.

with the requirements for the tradeoffs

between center wave-length, spectral

width, and rise/fall times shown in

Figure 9. 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.

- 1 psuedo-

AFBR-5205ATZ Avago Technologies US Inc., AFBR-5205ATZ Datasheet - Page 20

AFBR-5205ATZ

Specifications of AFBR-5205ATZ

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