Cisco Compatible CFPs:
Our range of Cisco Compatible CFPs are hot pluggable transceivers that can be used to provide support to a wide range of 40GB/s and 100GB/s applications. This includes, but is not limited to, the following applications; 40G and 100G Ethernet, OTU3, OTU4 and OC-768/STM-256. Our Cisco Compatible CFPs can also be used to support a variety of data rates. We offer a number of compatible CFP specifications, including:
- CFP-100G-SR10
- CFP-40G-SR4
- CFP-40G-LR4
Cisco Compatible Direct Attach Cables:
Cisco compatible direct attach cables provide a cost effective means of implementing physical connections across short distances, typically those found in between racks and adjacent racks. Each of our direct attach cables is SFP pluggable and are compatible with 10GB/s connections. To enable you to select a cable that offers the optimum length for your specific requirements, we offer a number of length options ranging from as little as 0.5 metres to greater lengths up to 12 metres. Our product range includes the following models:
- SFP-H10GB-ACU7M
- SFP-H10GB-ACU10M
- SFP-H10GB-ACU12M
Cisco SFP Modules:
Our range of Cisco compatible transceivers includes a wide number of SFPs. Each of these are hot pluggable and can be utilised to effectively increase performance and efficiency within a network. Furthermore, each of our Cisco SFP Modules are highly compatible, enabling them to be utilised in a wide range of cages and connections. To enable you to select the optimum Cisco SFP Modules for your hardware or network requirements we offer a range of specifications, including GLC-FE-100EX.
Our range of Cisco Compatible transceivers and auxiliary equipment is not limited to the above, our range also includes a variety of different, X2 transceivers, Xenpak transceivers, XFP transceivers, SFP+ transceiver and QSFP+ transceivers.
To discuss your network or hardware requirements, a member of our dedicated customer service team can be contacted by calling 01925 530 115. Email enquiries can be sent to us by clicking here.
