Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination.
The 12 fibres bare ribbon terminated on one side with an MTP connector and on the other side with an MXC connector. The MXC connector carries the new PRIZM® MT ferrule with lenses, which makes it impervious to dust and dirt contamination. The PRIZM® MT ferrule’s hermaphroditic functionality eliminates the need for costly stainless steel guide pins, while the MXC connector takes up less space in comparison to a standard MPO/MTP connector.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination.
The 16 fibres bare ribbon terminated on one side with an MTP connector and on the other side with an MXC connector. The MXC connector carries the new PRIZM® MT ferrule with lenses, which makes it impervious to dust and dirt contamination. The PRIZM® MT ferrule’s hermaphroditic functionality eliminates the need for costly stainless steel guide pins, while the MXC connector takes up less space in comparison to a standard MPO/MTP connector.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination.
The 24 fibres are grouped into two 12-fibre bare ribbons terminated on one side with an MTP connector and on the other side with an MXC connector. The MXC connector carries the new PRIZM® MT ferrule with lenses, which makes it impervious to dust and dirt contamination. The PRIZM® MT ferrule’s hermaphroditic functionality eliminates the need for costly stainless steel guide pins, while the MXC connector takes up less space in comparison to a standard MPO/MTP connector.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination.
The 32 fibres, which are grouped into two 16-fiber bare ribbons terminated on one side with an MTP connector and on the other side with an MXC connector. The MXC connector carries the new PRIZM® MT ferrule with lenses, which makes it impervious to dust and dirt contamination. The PRIZM® MT ferrule’s hermaphroditic functionality eliminates the need for costly stainless steel guide pins, while the MXC connector takes up less space in comparison to a standard MPO/MTP connector.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination.
The 48 fibres are grouped into four 12-fibre bare ribbons terminated on one side with an MTP connector and on the other side with an MXC connector. The MXC connector carries the new PRIZM® MT ferrule with lenses, which makes it impervious to dust and dirt contamination. The PRIZM® MT ferrule’s hermaphroditic functionality eliminates the need for costly stainless steel guide pins, while the MXC connector takes up less space in comparison to a standard MPO/MTP connector.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination. MXC to MXC trunks are designed for short-distance, high-broadband connections within a rack or cabinet.
The 16-fiber bare ribbons terminated on both sides by MXC connectors, are carried in the new PRIZM® MT ferrule. PRIZM® MT ferrules greatly reduce sensitivity to debris, and MXC connectors take up less space in comparison to standard MPO/MTP connectors.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination. MXC to MXC trunks are designed for short-distance, high-broadband connections within a rack or cabinet.
The 32 fibres, which are grouped into two 16-fiber bare ribbons terminated on both sides by MXC connectors, are carried in the new PRIZM® MT ferrule – the type with the highest number of lenses: 2 rows, each with 16 lenses. PRIZM® MT ferrules greatly reduce sensitivity to debris, and MXC connectors take up less space in comparison to standard MPO/MTP connectors.
Cable assemblies with MXC connectors use optical interconnect technology adopted by the open compute consortium, targeting high-broadband data centre interconnection. The expanded beam PRIZM MT ferrule used in the MXC connector offers higher resistance to dust and dirt contamination. MXC to MXC trunks are designed for short-distance, high-broadband connections within a rack or cabinet.
The 48 fibres, which are grouped into four 12-fiber bare ribbons terminated on both sides by MXC connectors, are carried in the new PRIZM® MT ferrule – the type with the highest number of lenses: 4 rows, each with 12 lenses. PRIZM® MT ferrules greatly reduce sensitivity to debris, and MXC connectors take up less space in comparison to standard MPO/MTP connectors.