Direct Attach Copper Cable
Boost Your Network Efficiency with Direct Attach Copper Cables
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About
HFCL Direct Attach Copper Cables provide short-reach, high-speed interconnects between network equipment within data centers. Integrated connectors and twinax copper construction enable low-latency electrical transmission with minimal power consumption. DAC assemblies are optimized for switch-to-switch and switch-to-server connections where cost-efficient, simplified deployment is required. Their plug-and-play design supports rapid installation while delivering stable performance for high-speed data center interconnect applications.
Features
Benefits
Low Latency
DAC cables provide low-latency connections, ensuring minimal delay in data transmission, ideal for time-sensitive applications and high-frequency networks
Easy Installation
DAC cables are plug-and-play, making installation simple and quick without the need for complex configuration or additional hardware
Low Power Consumption
These cables are energy-efficient, requiring no external power or signal processing, reducing operational costs and making them ideal for data centers
Compact and Space-saving
DAC cables offer high port density and a compact design, allowing for more efficient use of space in high-density networking environments such as data centers and server rooms
Key Specifications
Applications
- Data Centers
- Telecom Networks
- Enterprise Networks
- Storage Area Networks (SAN)
Variants
FAQs
DAC cables offer high-speed, low-latency connectivity with low power consumption, providing cost-effective solutions for Ethernet and Fiber Channel applications.
DAC cables are commonly used in data centers, high-performance computing, and networking equipment requiring high-density, low-power, and reliable connectivity.
DAC cables are compatible with devices that support SFP+ or other relevant ports, typically used in networking and storage systems.
DAC cables typically support high bandwidth, offering speeds up to 10Gbps, 40Gbps, or even higher, depending on the cable type and application.