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RCV1551-SC Dataheets PDF



Part Number RCV1551-SC
Manufacturers Agilent(Hewlett-Packard)
Logo Agilent(Hewlett-Packard)
Description Fiber Optic Light to Logic Receiver
Datasheet RCV1551-SC DatasheetRCV1551-SC Datasheet (PDF)

Fiber Optic “Light to Logic” Receiver Preliminary Technical Data RCV1551 Features • Light to Logic 20-pin DIP Receiver Offers ECL Compatibility • Long Reach, High Performance • Sensitivity -35 dBm • Single +5 V Supply • SONET/SDH Compliant • Multisourced Description The RCV1551 receiver provides optical signal conversion and processing. It contains an InGaAs PIN photodiode and high sensitivity, wide dynamic range, transimpedance amplifier, capacitively coupled to limiting amplifier stages with.

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Fiber Optic “Light to Logic” Receiver Preliminary Technical Data RCV1551 Features • Light to Logic 20-pin DIP Receiver Offers ECL Compatibility • Long Reach, High Performance • Sensitivity -35 dBm • Single +5 V Supply • SONET/SDH Compliant • Multisourced Description The RCV1551 receiver provides optical signal conversion and processing. It contains an InGaAs PIN photodiode and high sensitivity, wide dynamic range, transimpedance amplifier, capacitively coupled to limiting amplifier stages with PECL output drivers. Also provided is a loss of signal alarm. The planar PIN photodiode operates throughout the 1200 nm to 1600 nm wavelength band. A CMOS wide dynamic range transimpedance amplifier optimized for 155 MBd operation provides low noise front end gain for the RCV1551. A low pass filter maximizes the signal to noise ratio while minimizing intersymbol interference. The interface amplifier provides signal conversion and buffering for the PECL complementary data outputs. A complementary PECL alarm output is also provided. The receiver operates from +5 V and -5.2 V or +5 V and Ground power supplies. A 50/125 micron multimode fiber pigtail is included, assuring compatibility with multimode and single mode fiber optic systems. Applications • Telecommunication Networks • SONET OC3 and SDH STM1 Compatible • Local and Metropolitan Area Networks • ATM Single Mode Public Network • Military Communications and Control Systems Performance • Digital Cable TV Networks Preliminary Product Disclaimer This preliminary data sheet is provided to assist you in the evaluation of engineering samples of the product which is under development and targeted for release during 1997. Until Hewlett-Packard releases this product for general sales, HP reserves the right to alter prices, specifications, features, capabilities, function, manufacturing release dates, and even general availability of the product at any time. 418 (5/97) Connection Diagram Top View FIBER PIGTAIL GND GND GND GND NC GND DATA GND DATA PD BIAS 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 NC NC NC NC GND GND ALARM GND ALARM +5 V Pin Descriptions Pins 5, 17, 18, 19, 20 NC: These pins are not connected and should be left open circuit on the application PCB. Pins 1, 2, 3, 4, 6, 8, 13, 15, 16 GND: These pins should be connected to the circuit ground. Pins 7, 9, DATA, DATA: These pins provide complementary PECL DATA and DATA outputs. The DATA output is noninverting, an optical pulse causes the DATA output to go to the PECL logic high state (+4 V nominal). Pin 10, PD Bias: This pin must be connected to any voltage from 0 V (GND) to -5 V. This provides the photodiode bias. The current drawn is directly proportional to the average received photocurrent. I = Responsitivity x Mean Power. The responsivity will be between 0.7 A/W and 1.0 A/W. Pin 11, +5 V: This pin should be connected to +5 V supply. The network shown below should be placed as close as possible to pin 11. Pins 12, 14 ALARM, ALARM.


RCV1551-FP RCV1551-SC RCV1551-ST


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