HFCT-5208M Avago Technologies US Inc., HFCT-5208M Datasheet - Page 13

HFCT-5208M

Manufacturer Part Number

HFCT-5208M

Description

TXRX 1X9 622MBIT/S SONET/SDH ATM

Manufacturer

Avago Technologies US Inc.

Datasheet

1.HFBR-5000.pdf (20 pages)

Specifications of HFCT-5208M

Data Rate

622Mbps

Wavelength

1300nm

Applications

General Purpose

Voltage - Supply

4.75 V ~ 5.25 V

Connector Type

Mounting Type

Through Hole

Function

Designed for implement a range of solutions for ATM/SONET STS-12/SDH, STM-4 Application.

Product

Transceiver

Maximum Rise Time

0.51 ns, 1.25 ns

Maximum Fall Time

0.51 ns, 1.25 ns

Pulse Width Distortion

0.04 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

Singlemode Glass

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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HFBR-5208M Family, 1300 nm LED

Receiver Optical Characteristics

Notes:

10. This specification is intended to indicate the performance of the receiver section of the transceiver when the input power ranges from

Parameter

Minimum Input Optical Power at window edge

Minimum Input Optical Power at eye center

Input Optical Power Maximum

Input Operating Wavelength

Systematic Jitter Contributed by the Receiver

Random Jitter Contributed by the Receiver

Signal Detect - Asserted

Signal Detect - Deasserted

Signal Detect - Hysteresis

the minimum level (with a window time-width) to the maximum level. Over this range the receiver is guaranteed to provide output data

with aBit Error Ratio (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 at 622.08 Mbd, 2

• Receiver worst-case output data eye-opening (window time-width) is measured by applying worst-case input systematic (SJ) and

randomjitter (RJ). The worst-case maximum input SJ = 0.5 ns peak-to-peak and the RJ = 0.15 ns peak-to-peak per ANSI T1.646a standard.

Since the input (transmitter) random jitter contribution is very small and difficult to produce exactly, only the maximum systematic jitter

is produced and used for testing the receiver. The corresponding receiver test window time-width must meet the requirement of 0.31 ns

or larger. This worst-case test window time-width results from the following jitter equation:

• Input optical rise and fall times (10% - 90%) are 0.7 ns and 0.9 ns respectively.

• Transmitter operating with a 622.08 MBd, 311.04 MHz square wave input signal to simulate any cross talk present between the

transmitter and receiver sections of the transceiver.

= 0°C to +70°C, V

= -40°C to +85°C, V

Minimum Test Window Time-Width = Baud Interval - Tx SJ max. - Rx SJ max. - Rx RJ max.

Respectively, Minimum Test Window Time-Width = 1.608 ns - 0.50 ns - 0.30 ns - 0.48 ns = 0.328 ns.

This is a test method that is within practical test error of the worst-case 0.31 ns limit.

Appendix 1.

-1 PRBS data pattern with 72 “1”s and 72 “0”s inserted per the CCITT (now ITU-T) recommendation G.958

= 4.75 to 5.25 V. Typical @+25°C, 5 V)

= 4.75 to 5.25 V. Typical @+25°C, 5 V for A specification part)

-10

Symbol

- P

MIN (W)

MIN (C)

MAX

Minimum

-14

1270

-45

1.0

+1.0 dB

Typical

-29.0

-30.5

-1 1

0.1

0.25

-30.5

-33.7

3.2

Maximum

-26

1380

0.30

0.48

-28

Unit

dBm avg.

ns p-p

dBm avg.

Notes

Fig 2

Fig 2,3

HFCT-5208M Avago Technologies US Inc., HFCT-5208M Datasheet - Page 13

HFCT-5208M

Specifications of HFCT-5208M

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