Introduction
The Avago HFBR4503-4513 Jumper is an essential optical transceiver module designed to meet the demands of high-speed telecommunications and data communication networks. This article provides a comprehensive overview of its features, technical specifications, applications, and considerations for optimal performance.
Technical Specifications
The HFBR4503-4513 jumper operates with specific parameters that ensure reliable data transmission:
– Transmitter Type: 850 nm VCSEL (Vertical-Cavity Surface-Emitting Laser)
– Receiver Type: PIN Photodiode
– Data Rate: Up to 6.25 Gbps
– Connector Type: MPO/MTP
– Wavelength: 850 nm
– Link Length: Supports up to 10 km for OM3光纤 (光多模光纤)
– Power Consumption: Low power design for energy efficiency
– Operating Temperature Range: -5°C to +70°C
– Storage Temperature Range: -20°C to +85°C
– Compliance: Meets RoHS and other industry standards
Key Features
1. High-Speed Performance: Designed for high-speed data transmission up to 6.25 Gbps, making it suitable for modern telecom infrastructure.
2. Compatibility: Works seamlessly with various network systems and equipment, ensuring smooth integration.
3. Durability: Built to withstand harsh environmental conditions, including temperature fluctuations and mechanical stress.
4. Energy Efficiency: Low power consumption reduces operational costs and contributes to eco-friendly solutions.
5. Reliability: High MTBF (Mean Time Between Failures) ensures long-term reliability and minimal downtime.
6. Compliance: Adheres to industry standards, ensuring quality and safety in deployment.
Applications
The Avago HFBR4503-4513 jumper is widely used in various telecom and data communication applications:
1. Telecom Networks: Utilized in central offices and network nodes for high-speed data transmission.
2. Data Centers: Enhances interconnectivity between servers, storage systems, and networking equipment.
3. Enterprise Networking: Supports LANs (Local Area Networks) and SANs (Storage Area Networks) for efficient data transfer.
4. Industrial Automation: Used in industrial control systems requiring robust and reliable communication.
5. Broadcasting: Ensures high-quality signal transmission in broadcasting infrastructure.
Installation and Configuration
Proper installation is crucial to ensure optimal performance of the Avago HFBR4503-4513 jumper:
1. Environmental Considerations: Ensure the operating environment meets temperature and humidity specifications.
2. Connector Handling: Use proper handling techniques to avoid dust contamination or physical damage to the MPO/MTP connectors.
3. Cabling Management: Maintain organized cabling to prevent stress on the module and ensure signal integrity.
4. Power Supply: Verify correct power supply connections and voltage levels as specified in the datasheet.
5. Testing and Calibration: Conduct thorough testing post-installation to confirm proper functionality and alignment with network requirements.
Maintenance and Troubleshooting
Regular maintenance ensures longevity and optimal performance:
1. Cleaning: Periodically clean connectors using approved cleaning solutions to prevent dust or contamination buildup.
2. Inspection: Visually inspect for any physical damage or wear and tear on the module or connectors.
3. Performance Monitoring: Use network monitoring tools to track data transmission rates and identify potential issues early.
4. Firmware Updates: Keep firmware up-to-date with the latest patches and enhancements from Avago Technologies.
5. Troubleshooting Common Issues:
– No Signal Detection: Check for proper connector mating, clean connectors, and verify power supply.
– High Bit Error Rate (BER): Inspect cables for damage, ensure correct module alignment, and check environmental conditions.
– Overheating: Ensure adequate cooling in the operating environment and verify power consumption levels.
Conclusion
The Avago HFBR4503-4513 jumper is a vital component for high-performance telecom and data communication systems. Its robust design, compatibility with modern networks, and adherence to industry standards make it an ideal choice for various applications. By understanding its technical specifications, proper installation procedures, and maintenance practices, organizations can ensure reliable and efficient operation of their networking infrastructure.
