The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres are separated into individual fibres, protected by 2.0mm tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
A “backplane” solution for high-speed optical connections directly from PCB to card edge, the MXC receptacle on the card edge offers a compact design with a small footprint and a ruggedised interface using an expanded beam PRIZM MT ferrule. The PRIZM LT connector offers the possibility of using AVAGO MiniPODs/MicroPODs or US CONEC MOI for direct PCB connection.
On one side, the assembly carries 32 fibres with MXC receptacle connector on the other side, it is equipped with two PRIZM® LightTurn connectors. The MXC connector carries the new PRIZM® MT ferrule with two rows of lenses. This combination brings a perfect card edge solution with a small connection footprint and increased resistance against debris. PRIZM® LightTurn® miniature detachable connectors provide for perpendicular connection to printed circuit boards, and are very often used for connection to AVAGO MiniPOD / MicroPOD parallel optic modules.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres from the bare ribbon structure are separated into individual fibres, protected by 900um tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres from the bare ribbon structure are separated into individual fibres, protected by 900um tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres from the bare ribbon structure are separated into individual fibres, protected by 2.0mm tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres from the bare ribbon structure are separated into individual fibres, protected by 2.0mm tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres are separated into individual fibres, protected by 900um tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres are separated into individual fibres, protected by 900um tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.
The fanout solution is designed for the testing of individual channels of MXC assemblies in the design stage. Fibres are separated into individual fibres, protected by 2.0mm tubings and terminated by LC connectors with high-precision zirconia ferrules.
Individual channels terminated by LC connectors are identified by marking sleeves for easy identification of each channel.