Description
More Specification of Twinaxial Copper Cable
The QSFP-H40G-CU5M= Cisco 5M Direct Attach Passive Copper Cable is a high-speed, passive copper cable that is used to connect devices in data centers and enterprise networks. It is designed to work with Cisco’s QSFP (quad small form-factor pluggable) ports, which are used in a variety of Cisco devices such as switches, routers, and storage arrays.
This cable is a direct attach copper cable, which means that it does not use any active components such as transceivers or amplifiers. Instead, it uses passive copper conductors to transmit data between devices. This design provides a cost-effective and reliable solution for high-speed data transfer.
The part is a 40 Gigabit cable, which means that it can transmit data at speeds of up to 40 Gbps. This makes it ideal for use in high-bandwidth applications such as data center interconnects, storage area networks, and high-performance computing clusters.
The cable is 5 meters in length, which provides a convenient and flexible solution for connecting devices that are located close to each other. This allows for easy installation and maintenance, and it also provides a cost-effective solution for connecting devices within the same rack or cabinet.
High Performance for QSFP+ Twinaxial Cable
The QSFP-H40G-CU5M= Cisco 5M Direct Attach Passive Copper Cable is a high-performance cable designed for use in Cisco data center and enterprise networks. It is a passive copper cable that is capable of delivering up to 40 Gbps of data transfer speeds over a distance of 5 meters.
One of the key performance benefits of the product is its ability to provide high-speed data transfer. With a data transfer rate of 40 Gbps, it is ideal for use in high-bandwidth applications such as data center interconnects, storage area networks, and high-performance computing clusters.
Another performance benefit of the part is its low latency. Because it is a direct attach cable, it eliminates the need for transceivers and other intermediate components, resulting in lower latency and faster data transfer speeds.
The product also features high reliability and durability. The cable is made of high-quality materials and is designed to withstand the rigors of data center environments. Additionally, it is tested to meet Cisco’s strict quality standards, ensuring that it will perform reliably in the field.
General Compatibility
The QSFP-H40G-CU5M= Cisco 5M Direct Attach Passive Copper Cable is a high-performance and compatible cable that is designed to work with Cisco QSFP (Quad Small Form-Factor Pluggable) interfaces. This cable is compatible with Cisco devices that have QSFP ports, including switch, router, and storage systems.
This cable supports 40 Gbps data transfer rates, making it ideal for use in high-speed data center and enterprise networks. It is also backward compatible with 10 Gbps and 4 Gbps data transfer rates, allowing for flexibility in network upgrades and configurations.
The product is also designed to work with Cisco’s Transceiver Modules, which are compatible with a wide range of Cisco devices. This means that it can be easily integrated into existing Cisco networks without the need for additional hardware or software.
The cable is also passively cooled, which means it doesn’t require an external power source and is more reliable. Additionally, the part also supports Cisco’s Quality of Service (QoS) feature, which allows for the prioritization of network traffic to ensure that mission-critical applications receive the bandwidth they need.
Main Information about this Cisco QSFP-H40G-CU5M=
- Manufacturer: Cisco
- Model Number or SKU# QSFP-H40G-CU5M=
- Product Type : Twinaxial Cable
Technical Information of 5 meter Cable
- Cable Type: 5 Meter
- Cable Length: 16.40 fit
- Connector on First End: 1 x QSFP+
- Connector on Second End: 1 x QSFP+
Features for Twinaxial Cable
- Device Supported: Network Device
- Device Supported: Network Module
- Data Transfer Rate: 5 GB/s
- Color: Gray
Miscellaneous
- Environmentally Friendly: Yes
- Environmental Certification: RoHS