The Ubiquiti UC-DAC-SFP+ is a high-performance Direct Attach Copper (DAC) cable designed to facilitate high-speed data transmission between networking devices. Featuring SFP+ connectors on both ends, this cable supports data rates of up to 10 gigabits per second (Gbps), making it suitable for demanding networking applications where fast and reliable connectivity is essential.
With a cable length of 0.5 meters (1.6 feet) and ultra-thin cable diameter of 4.2 mm, the UC-DAC-SFP+ offers flexibility and versatility in network configurations, particularly in environments where space constraints or optimized cable management are priorities. The compact design allows for efficient routing and organization of cables within rack-mounted systems or data center setups.
The cable jacket is made of PVC (Polyvinyl Chloride), providing protection and insulation for the internal conductors while maintaining flexibility and ease of handling. The PVC jacket enhances the durability of the cable, making it suitable for deployment in a wide range of environmental conditions, including both indoor and controlled outdoor settings. The jacket color of the cable is white, providing visibility and easy identification within network installations. This color choice enhances cable management and facilitates troubleshooting and maintenance tasks by allowing technicians to quickly distinguish between different types of cables within the infrastructure.
The UC-DAC-SFP+ cable employs passive equalization (EQ) technology, which helps to compensate for signal degradation and distortion over the length of the cable. By incorporating passive EQ, the cable maintains signal integrity and minimizes the risk of data loss or corruption, ensuring reliable and consistent performance in challenging networking environments.
Constructed with 30 AWG (American Wire Gauge) copper conductors, the UC-DAC-SFP+ cable offers a balance of flexibility and durability. The use of high-quality materials and precise manufacturing techniques ensures optimal signal transmission with minimal interference, resulting in reliable data transfer and low latency.
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