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HFCT-5903E Dataheets PDF



Part Number HFCT-5903E
Manufacturers Hewlett-Packard
Logo Hewlett-Packard
Description MT-RJ Duplex Single Mode Transceiver
Datasheet HFCT-5903E DatasheetHFCT-5903E Datasheet (PDF)

www.DataSheet4U.com Agilent HFCT-5903E MT-RJ Duplex Single Mode Transceiver Data Sheet Description The HFCT-5903E transceiver is a high performance, cost effective module for serial optical data communications applications specified for a signal rate of 125 MBd. It is designed to provide an FDDI SMF-PMD1 link for FDDI or Fast Ethernet applications and is also compatible with ATM/ SONET/SDH transceivers. The HFCT-5903 does not include a nose shield and is not recommended due to the potential de.

  HFCT-5903E   HFCT-5903E


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www.DataSheet4U.com Agilent HFCT-5903E MT-RJ Duplex Single Mode Transceiver Data Sheet Description The HFCT-5903E transceiver is a high performance, cost effective module for serial optical data communications applications specified for a signal rate of 125 MBd. It is designed to provide an FDDI SMF-PMD1 link for FDDI or Fast Ethernet applications and is also compatible with ATM/ SONET/SDH transceivers. The HFCT-5903 does not include a nose shield and is not recommended due to the potential degradation of EMI performance in a complete system. The HFCT-5903 is available on the rare occasion that a system mechanical design may not allow for a nose shield. This module is designed for single mode fiber and operates at a nominal wavelength of 1300 nm. It incorporates Agilent’s high performance, reliable, long wavelength optical devices and proven circuit technology to give long life and consistent service. The transmitter section uses an advanced SMQW Fabry Perot laser with full IEC 825 and CDRH Class I eye safety. The receiver section uses a MOVPE grown planar PIN photodetector for low dark current and excellent responsivity. A pseudo-ECL logic interface simplifies interface to external circuitry. Features • MT-RJ duplex single mode transceiver • Power compliant to ANSI X3.184- 1993 standard for FDDI SMF-PMD category 1 optoelectronic performance • Single +3.3 V power supply • Multisourced 2 x 5 pin configuration • Interchangeable with LED multisourced 2 x 5 transceivers • Unconditionally eye safe laser IEC 825/CDRH Class 1 compliant • Temperature range: 0°C to +70°C Applications • FDDI SMF-PMD1 • Fast ethernet • ATM compatible Connection Diagram RX TX Mounting Studs/ Solder Posts Package Grounding Tabs Top View RECEIVER SIGNAL GROUND RECEIVER POWER SUPPLY SIGNAL DETECT RECEIVER DATA OUT BAR RECEIVER DATA OUT f f f f f 1 2 3 4 5 10 9 8 7 6 f f f f f TRANSMITTER DATA IN BAR TRANSMITTER DATA IN TRANSMITTER DISABLE TRANSMITTER SIGNAL GROUND TRANSMITTER POWER SUPPLY Pin Descriptions: Pin 1 Receiver Signal Ground VEE RX:1 Directly connect this pin to the receiver ground plane. Pin 2 Receiver Power Supply VCC RX: Provide +3.3 V dc via the recommended receiver power supply filter circuit. Locate the power supply filter circuit as close as possible to the VCC RX pin. Pin 3 Signal Detect SD: Normal optical input levels to the receiver result in a logic “1” output. Low optical input levels to the receiver result in a fault condition indicated by a logic “0” output. This Signal Detect output can be used to drive a PECL input on an upstream circuit, such as Signal Detect input or Loss of Signal-bar. Pin 4 Receiver Data Out Bar RD-: No internal terminations are provided. See recommended circuit schematic. Pin 5 Receiver Data Out RD+: No internal terminations are provided. See recommended circuit schematic. Pin 6 Transmitter Power Supply VCC TX: Provide +3.3 V dc via the recommended transmitter power supply filter circuit. Locate the power supply filter circuit as close as possible to the VCC TX pin. Pin 7 Transmitter Signal Ground VEE TX: Directly connect this pin to the transmitter ground plane. Pin 8 Transmitter Disable TDIS: Optional feature for laser based products only. For laser based products connect this pin to +3.3 V TTL logic high “1” to disable module. To enable module connect to TTL logic low “0”. Pin 9 Transmitter Data In TD+: No internal terminations are provided. See recommended circuit schematic. Pin 10 Transmitter Data In Bar TD-: No internal terminations are provided. See recommended circuit schematic. Mounting Studs/Solder Posts The two mounting studs are provided for transceiver mechanical attachment to the circuit board. It is recommended that the holes in the circuit board be connected to chassis ground. Package Grounding Tabs Connect four package grounding tabs to signal ground. Note: 1. The Transmitter and Receiver VEE connections are commoned within the module. 2 Functional Description Receiver Section Design The receiver section contains an InGaAs/InP photo detector and a preamplifier mounted in an optical subassembly. This optical subassembly is coupled to a postamp/decision circuit on a separate circuit board. The postamplifier is ac coupled to the preamplifier as illustrated in Figure 1. The coupling capacitor is large enough to pass the FDDI test pattern at 125 MBd and the SONET/SDH test pattern at 155 MBd without significant distortion or performance penalty If a lower signal rate, or a code which has significantly more low frequency content is used, sensitivity, jitter and pulse distortion could be degraded. Figure 1 also shows a filter network which limits the bandwidth of the preamp output signal. The filter is designed to bandlimit the preamp output noise and thus improve the receiver sensitivity. These components will also reduce the sensitivity of the receiver as the signal bit rate is increased above 155 MBd. Noise Immunity The receiver includes internal circuit compo.


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