AFBR-5601Z

AFBR-5601Z Datasheet


AFBR-5601Z and AFCT-5611Z Gigabit Interface Converters GBIC for Gigabit Ethernet

Part Datasheet
AFBR-5601Z AFBR-5601Z AFBR-5601Z (pdf)
Related Parts Information
AFCT-5611Z AFCT-5611Z AFCT-5611Z
PDF Datasheet Preview
AFBR-5601Z and AFCT-5611Z Gigabit Interface Converters GBIC for Gigabit Ethernet

Data Sheet

The converters are suitable for interconnections in the Gigabit Ethernet hubs and switches environment. The design of these converters is also practical for other high performance, point-to-point communication requiring gigabit interconnections. Since the converters are hotpluggable, they allow system configuration changes simply by plugging in a different type of converter.

The mechanical and electrical interfaces of these converters to the host system are identical for all implementations of the converter regardless of external media type. A 20-pin connector is used to connect the converter to the host system. Surge currents are eliminated by using pin sequencing at this connector and a slow start circuit. Two ground tabs at this connector also make contact before any other pins, discharging possible componentdamaging static electricity. In addition, the connector itself performs a two-stage contact sequence. Operational signals and power supply ground make contact in stage 1 while power makes contact in stage
• Switch to switch interface
• High speed I/O for file servers
• Bus extension applications
• RoHS Compliance
• Compliant with Gigabit Interface Converter
550 m with µm MMF 10 km with 9/125 µm SMF
• Horizontal or vertical installation
• AEL Laser Class 1 eye safe per IEC 60825-1
• AEL Laser Class I eye safe per US 21 CFR
• Hot-pluggable

Related Products
• 850 nm VCSEL, 1 x 9 and SFF transceivers for 1000 base SX applications HFBR-53D5, HFBR-5912E
• 1300 nm, 1 x 9 Laser transceiver for 1000 base-LX applications HFCT-53D5
• Physical layer ICs available for optical interface HDMP-1636A/46A

Patent -

The AFBR-5601Z has been developed with 850 nm short wavelength VCSEL technology while the AFCT-5611Z is based on 1300 nm long wavelength Fabry Perot laser technology.

Serial Identification

Definition 4 specifies a serial definition protocol. For this definition, upon power up, MOD_DEF 1:2 Pins 5 and 6 on the 20-pin connector appear as NC. Pin 4 is TTL ground. When the host system detects this condition, it activates the public domain serial protocol. The protocol uses the 2-wire serial CMOS E2PROM protocol of the ATMEL AT24C01A or similar.

Regulatory Compliance

See the Regulatory Compliance Table for the targeted typical and measured performance for these transceivers.

The overall equipment design will determine the level it is able to be certified to. These transceiver performance targets are offered as a figure of merit to assist the designer in considering their use in equipment designs.

Electrostatic Discharge ESD

There are two design cases in which immunity to ESD damage is important.

The first case is during handling of the transceiver prior to inserting it into the host system. It is important to use normal ESD handling precautions for ESD sensitive devices. These precautions include using grounded wrist straps, work benches, and floor mats in ESD controlled areas.

The second case to consider is static discharges during insertion of the GBIC into the host system. There are two guide tabs integrated into the 20-pin connector on the GBIC. These guide tabs are connected to circuit ground. When the GBIC is inserted into the host system, these tabs will engage before any of the connector pins. The mating connector in the host system must have its tabs connected to circuit ground. This discharges any stray static charges and establishes a reference for the power supplies that are sequenced later.

Electromagnetic Interference EMI

Most equipment designs utilizing these high-speed transceivers from Avago Technologies will be required to meet the requirements of FCC in the United States, CENELEC EN55022 CISPR 22 in Europe and VCCI in Japan.

Immunity

Equipment utilizing these transceivers will be subject to radio-frequency electromagnetic fields in some environments. These transceivers have good immunity to such fields due to their shielded design.

Eye Safety

Laser-based GBIC transceivers provide Class 1 IEC 608251 and Class I US 21 CFR[J] laser eye safety by design. Avago Technologies has tested the current transceiver design for compliance with the requirements listed below under normal operating conditions and for compliance under single fault conditions.

Outline Drawing

Note AFBR-5601Z is non-compliant for Tx fault timing.

GBIC Serial ID Memory Contents - AFBR-5601Z

Addr Hex ASCII Addr Hex ASCII Addr Hex ASCII Addr Hex ASCII
63 Note 1

Note1

Notes Blanks in ASCII column are numeric values not ASCII characters. Address 63 and 95 are check sums. Address 63 is the check sum for bytes 0-62 and address 95 is the check sum for bytes

GBIC Serial ID Memory Contents - AFCT-5611Z

Addr Hex ASCII Addr Hex ASCII Addr Hex ASCII Addr Hex ASCII
63 Note 1
95 Note 1

Note Blanks in ASCII column are numeric values not ASCII characters. 1 Address 63 and 95 are check sums. Address 63 is the check sum for bytes 0-62 and address 95 is the check sum for bytes

COO stands for Country of Origin Figure Outline Drawing of AFBR-5601Z and AFCT-5611Z.
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Datasheet ID: AFBR-5601Z 520041