sfp direct attach cable

Table of Contents

Product Description

SFP Direct Attach Cable (SFP DAC) is a cable solution for high-speed data communication, used to connect devices that support the SFP (Small Form-Factor Pluggable) interface.

SFP Direct Attach Cable uses copper wires as the signal transmission medium, usually using a twisted pair structure. It has a fixed length and is equipped with SFP plugs at both ends for direct connection with devices that support the SFP interface standard.

SFP Direct Attach Cable provides high-bandwidth and low-latency data transmission capabilities, suitable for short-distance high-speed connection requirements. It has some advantages such as low cost, low power consumption and simplified configuration process. Compared with traditional optical modules and optical fibers, SFP DAC can provide a more economical and simpler solution and reduce the number of components and complexity in the system.

SFP Direct Attach Cable is used in scenarios such as data centers, enterprise networks, and small offices. Whether in applications such as high-performance computing, virtualized environments, or video streaming, SFP DACs can provide reliable high-speed connections and meet bandwidth and performance requirements.

Product Application

In the data center, SFP direct attach cable can connect between servers or between servers and switches to achieve high-speed transmission and distribution of data.

In enterprise networks, SFP direct attach cable can connect between core switches and access switches, or between access switches and terminal devices, to achieve efficient network expansion and management.

In telecommunications networks, SFP direct attach cable can connect between the optical fiber access network and the transmission network, or between the transmission network and the core network to achieve high-speed interconnection and optimization of the network.

Product Features

It has low power consumption and low cost, which can save operation and maintenance costs and energy consumption.

It has flexibility and compatibility, can adapt to different network architectures and protocols, and supports multiple speeds and distances.

It has high bandwidth and low latency and can meet the high-performance needs of big data, cloud computing, artificial intelligence and other fields.

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