HFBR-0566 Avago Technologies US Inc., HFBR-0566 Datasheet

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... DIP style package with an MT-RJ fiber connector interface. ATM 500 m Backbone Links The HFBR-5908E is a 1300 nm product with optical perfor- mance compliant with the SONET STS-12c (OC-12) Physical Layer Interface specification. This physical layer is defined in the ATM forum User Network Interface (UNI) specifica- tion version 3 ...

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... Functional Description Receiver Section Design The receiver section of the HFBR/HFCT-5908E 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 capacitors are large enough to pass the SONET/SDH test pattern at 622 MBd without significant distortion or performance penalty ...

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... The package of this laser is designed to allow repeatable coupling into single mode fiber for the HFCT- 5908E and multimode fiber for the HFBR-5908E. In addition, this package has been designed to be compliant with IEC 825 Class 1 and CDRH Class I eye safety requirements. The optical output is controlled by a custom IC which detects the laser output via the monitor photodiode ...

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... THE 10 I/O PINS, 2 SOLDER POSTS AND 4 PACKAGE GROUNDING TABS ARE TO BE TREATED AS A SINGLE PATTERN, SEE FIGURE 8. 4. THE MT-RJ HAS A 750 µm FIBER SPACING. 5. THE MT-RJ ALIGNMENT PINS ARE IN THE MODULE. 6. SEE MT-RJ TRANSCEIVER PIN OUT DIAGRAM FOR DETAILS. Figure 3. HFBR-5908E/HFCT-5908E Package Outline Drawing 4 13.97 (0.55) MIN ...

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Connection Diagram RX TX Package Top Grounding Tabs View RECEIVER SIGNAL GROUND RECEIVER POWER SUPPLY SIGNAL DETECT 3 RECEIVER DATA OUT BAR 4 RECEIVER DATA OUT 5 Figure 4. Pin Out Diagram Pin Descriptions: 1 Pin 1 ...

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... This configuration ensures noise rejection compatibility between transceivers from various vendors. Data Line Interconnections Avago’s HFBR/HFCT-5908E fiber-optic transceiver is designed to couple to +3.3 V PECL signals. Figure 5 depicts the circuit options. The transmitter driver circuit regulates the output optical power. The regulated light output will maintain a constant output optical power provided the data pattern is reasonably balanced in duty factor ...

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... The HFBR/HFCT-5908E feature a transmit disable function which is a single-ended +3.3 V TTL input signal dc-coupled to pin 8. As for the receiver section internally ac-coupled between the preamplifier and the post-amplifier stages. The actual Data and Data-bar outputs of the post-amplifier are dc-coupled to their respective output pins (pins 4, 5). ...

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... For an optical transmitter device to be eye-safe in the event of a single fault failure, the transmit-ter must either maintain eye-safe operation or be disabled. The HFBR/HFCT-5908E utilizes an optical subassembly consisting of a short piece of single mode fiber along with a current limiting circuit to guarantee eye-safety intrinsically eye safe and does not require shut down circuitry. 10.8 ± ...

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... Recommended Solder fluxes Solder fluxes used with the HFBR/HFCT-5908E should be water-soluble, organic fluxes. Recommended solder fluxes include Lonco 3355-11 from London Chemical West, Inc. of Burbank, CA, and 100 Flux from Alpha-Metals of Jersey City, NJ ...

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Regulatory Compliance (See the Regulatory Compliance Table for transceiver per- formance) The overall equipment design will determine the certification level. The transceiver performance is offered as a figure of merit to assist the designer in considering their use in equipment ...

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... Tampering with or modifying the performance of the HFBR/HFCT-5908E will result in voided product warranty. It may also result in improper operation of the HFBR/HFCT- 5908E circuitry, and possible overstress of the laser source. Device degradation or product failure may result. Connection of the HFBR/HFCT-5908E to a non-approved ...

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Absolute Maximum Ratings Stresses in excess of the absolute maximum ratings can cause catastrophic damage to the device. Limits apply to each parameter in isolation, all other parameters having values within the recommended operating conditions. It should not be assumed ...

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... HFBR-5908E Transmitter Electrical Characteristics (T = 0°C to +70° Parameter Supply Current Power Dissipation Data Input Current - Low Data Input Current - High Data Input Voltage - Low Data Input Voltage - High Systematic Jitter Contributed by the Tx Random Jitter Contributed by the Tx Receiver Electrical Characteristics (T = 0° ...

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... HFBR-5908E Transmitter Optical Characteristics (T = 0°C to +70° Parameter Output Optical Power Optical Extinction Ratio Center Wavelength Spectral Width - rms Optical Rise/Fall Time Overshoot Receiver Optical Characteristics (T = 0°C to +70° Parameter Receiver Sensitivity Input Optical Power Maximum Input Operating Wavelength ...

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HFCT-5908E Transmitter Electrical Characteristics (T = 0°C to +70° Parameter Supply Current Power Dissipation Data Input Current - Low Data Input Current - High Jitter Generation (pk to pk) Jitter Generation ...

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HFCT-5908E Transmitter Optical Characteristics (T = 0°C to +70° Parameter Output Optical Power 9 µm SMF Center Wavelength Spectral Width - rms Optical Rise/Fall Time Extinction Ratio Output Optical Eye Receiver ...

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... Model Name: HFBR-5908E - 1300 nm Transceiver for 500 m MMF links HFCT-5908E - 1300 nm Transceiver for 15 km SMF links Handling Precautions 1. The HFBR/HFCT-5908E can be damaged by current surges or overvoltage. Power supply transient precautions should be taken. 2. Normal handling precautions for electrostatic sensitive devices should be taken. Class 1 Laser Product: ...