AFCT-5179xZ SC Duplex Single Mode Transceiver Data Sheet Description Features The AFCT-5179xZ transceiver is a high performance, cost SC duplex single mode transceiver effective module for serial optical data communications Single +3.3 V or +5 V power supply applications specified for a signal rate of 125 MBd. It is Multisourced 1 x 9 pin configuration designed for Fast Ethernet applications and is also com- patible with EFM baseline 100BASE-LX10 standard over Manufactured in an ISO9001 certified factory dual single mode fiber. Aqueous washable plastic package This module is designed for single mode fiber and Interchangeable with LED multisourced 1 x 9 trans- operates at a nominal wavelength of 1300 nm. It incor- ceivers porates Avago Technologies high performance, reliable, Unconditionally eye safe laser IEC 825/CDRH Class 1 long wavelength optical devices and proven circuit tech- compliant nology to give long life and consistent service. Designed for EFM (Ethernet in the First Mile) baseline The transmitter section uses a Multiple Quantum Well 100Base-LX10 performance over dual single mode laser with full IEC 825 and CDRH Class I eye safety. fiber The receiver section uses a planar PIN photodetector for RoHS compliant low dark current and excellent responsivity. Two temperature ranges: A pseudo-ECL logic interface simplifies interface to 0 C to +70 C, AFCT-5179BZ/DZ external circuitry. -40 C to +85 C, AFCT-5179AZ/CZ Applications Fast Ethernet Ethernet in the First MileConnection Diagram RECEIVER SIGNAL GROUND o 1 RECEIVER DATA OUT o 2 N/C RECEIVER DATA OUT BAR o 3 SIGNAL DETECT o 4 RECEIVER POWER SUPPLY o 5 Top View TRANSMITTER POWER SUPPLY o 6 TRANSMITTER DATA IN BAR o 7 N/C TRANSMITTER DATA IN o 8 TRANSMITTER SIGNAL GROUND o 9 Pin Descriptions: Pin 6 Transmitter Power Supply V T: Pin 1 Receiver Signal Ground V : CC EER Provide +3.3 V or +5 V DC via the recommended transmit- Directly connect this pin to the receiver ground plane. ter power supply filter circuit. Locate the power supply Pin 2 Receiver Data Out RD: filter circuit as close as possible to the V pin. CC See recommended circuit schematic, Figure 4. Pin 7 Transmitter Data In Bar TD: Pin 3 Receiver Data Out Bar RD: See recommended circuit schematic, Figure 4. See recommended circuit schematic, Figure 4. Pin 8 Transmitter Data In TD: Pin 4 Signal Detect SD: See recommended circuit schematic, Figure 4. Normal optical input levels to the receiver result in a logic Pin 9 Transmitter Signal Ground V T: EE 1 output. Directly connect this pin to the transmitter ground plane. Low optical input levels to the receiver result in a fault condition indicated by a logic 0 output. Mounting Studs The mounting studs are provided for mechanical attach- This Signal Detect output can be used to drive a PECL ment to the circuit board. They are embedded in the input on an upstream circuit, such as Signal Detect input nonconductive plastic housing and are not tied to the or Loss of Signal-bar. transceiver internal circuit and should be soldered into Pin 5 Receiver Power Supply V R: CC plated-through holes on the printed circuit board. Provide +3.3 V or +5 V DC via the recommended transmit- ter power supply filter circuit. Locate the power supply filter circuit as close as possible to the V pin. CC 2