HFBR-5803AT Avago Technologies US Inc., HFBR-5803AT Datasheet
HFBR-5803AT
Specifications of HFBR-5803AT
Related parts for HFBR-5803AT
HFBR-5803AT Summary of contents
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... These transceivers for 2 km multimode fiber backbones are supplied in the small duplex package style. The HFBR-5803/-5803T is useful for both ATM 100 Mb/s interfaces and Fast Ethernet 100 Base-FX interfaces. The ATM Forum User-Network Interface (UNI) Standard, Vers ...
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... ECL referenced (shifted +3 supply, into an analog LED drive current. Receiver Sections The receiver sections of the HFBR-5803 and HFBR-5805 series utilize InGaAs PIN photodiodes coupled to a custom silicon transimpedance preamplifier IC. These are packaged in the optical s ...
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... SINGLE-ENDED SIGNAL QUANTIZER IC DETECT OUT DIFFERENTIAL DATA IN DRIVER IC TOP VIEW Figure 1a. ST Connector Block Diagram. Case Temperature Measurement Point 25.40 (1.000) HFBR-5803 AVAGO DATE CODE (YYWW) TECHNOLOGIES SINGAPORE + 0.08 0.75 – 0.05 2.6 ± 0.4 + 0.003 10.35 ) (0.030 (0.102 ± 0.016) – ...
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... MAX. (1.000) HFBR-5803T DATE CODE (YYWW) SINGAPORE 12.0 MAX. (0.471) 2.6 ±0.4 (0.102 ± 0.016) 0.46 Ø (0.018) NOTE 1 20.32 [(8x (2.54/0.100)] 17.4 (0.800) (0.685) 22.86 21.4 (0.900) (0.843) 3.6 (0.142) 1.3 (0.051) NOTE 1: PHOSPHOR BRONZE IS THE BASE MATERIAL FOR THE POSTS & PINS WITH TIN LEAD OVER NICKEL PLATING. ...
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... For purposes of definition, the symbol (Baud) rate, also called signaling rate, is the reciprocal of the shortest symbol time. Data rate (bits/sec) is the symbol rate di- 5 vided by the encoding factor used to encode the data (symbols/bit). 12 HFBR-5803, 62.5/125 µ HFBR-5803 50/125 µ ...
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... Avago Technologies recommends that normal static precautions be taken in the handling and assembly of these transceivers to prevent damage which may be induced by electrostatic discharge (ESD). The HFBR- 5800 series of transceivers meet MIL-STD-883C Method 3015.4 Class 2 products. ...
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Solder and Wash Process Compatibility The transceivers are delivered with protective process plugs inserted into the duplex SC or duplex ST connec- tor receptacle. This process plug protects the optical subassemblies during wave solder and aqueous wash processing and acts ...
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NOTE 1: MINIMUM DISTANCE FROM FRONT OF CONNECTOR TO THE PANEL FACE. Figure 8a. Recommended Common Mechanical Layout for SC and Connectored Transceivers. Regulatory Compliance These transceiver products are intended to enable ...
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... ESD and conducted noise testing procedures and results on the Transceiver family, please refer to Applica- tions Note 105, Testing and Measuring Electromagnetic Compatibility Performance of the HFBR-510X/520X Fiber Optic Transceivers. Transceiver Reliability and Performance Qualification Data The trans ...
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... TIME INTERVAL 0.10 0.025 0.0 -0.025 -0.05 5.6 10.0 THE HFBR-5103 OUTPUT OPTICAL PULSE SHAPE SHALL FIT WITHIN THE BOUNDARIES OF THE PULSE ENVELOPE FOR RISE AND FALL TIME MEASUREMENTS. Figure 10. Output Optical Pulse Envelope. 5 HFBR-5103/-5104/-5105 SERIES 4 3 -10 2 BER ...
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SIGNAL – DETECT (ON) SIGNAL – DETECT (OFF) AS – MAX — MAXIMUM ACQUISITION TIME (SIGNAL). AS – MAX IS THE MAXIMUM SIGNAL – DETECT ASSERTION TIME FOR THE STATION. AS – MAX SHALL NOT EXCEED ...
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... B. Ambient Operating Temperature corresponds to transceiver case temperature of -10 °C mininum to +100 °C maximum with necessary airflow applied. Recommended case temperature measurement point can be found in Figure 2. Transmitter Electrical Characteristics (HFBR-5803/5803T 0°C to +0° (HFBR-5803A/HFBR-5803AT -10°C to +85° Parameter Supply Current Power Dissipation ...
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... Signal Detect Output Voltage - Low Signal Detect Output Voltage - High Signal Detect Output Rise Time Signal Detect Output Fall Time Transmitter Optical Characteristics (HFBR-5803/5803T 0°C to +0° (HFBR-5803A/HFBR-5803AT -10°C to +85° Parameter Output Optical Power BOL 62.5/125 µ 0.25 Fiber EOL ...
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... Receiver Optical and Electrical Characteristics (HFBR-5803/5803T 0°C to +0° (HFBR-5803A/HFBR-5803AT -10°C to +85° Parameter Input Optical Power Minimum at Window Edge Input Optical Power Minimum at Eye Center Input Optical Power Maximum Operating Wavelength Duty Cycle Distortion Contributed by the Receiver Data Dependent Jitter Contributed by the Receiver Random Jitter Contributed by the Receiver Signal Detect - As ...
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This parameter complies with the optical pulse envelope from the FDDI PMD shown in Figure 10. The optical rise and fall times are measured from 10% to 90% when the transmitter is driven by the FDDI HALT Line State ...