Search Results for examax link
EXAMAX link | Amphenol Global Search | Amphenol
ExaMAX® 85Ω backplane connector system meets industry specifications requiring higher bandwidth applications from 25Gb/s to 56Gb/s. The optimized connector design delivers superior signal integrity performance resulting in low crosstalk noise and low insertion loss while minimizing channel performance variation for every differential pair.
examax linking cable | Amphenol Global Search | Amphenol
ExaMAX is a backplane connector system that supports data rates of 25Gb/s to 56Gb/s with low crosstalk and insertion loss. It features a beam-on-beam contact interface, an embossed ground structure, and a modular design for various applications.
ExaMAX - Cable Solutions Guide - Amphenol CS
Amphenol’s ExaMAX® I/O system offers cable assemblies and I/O connector solutions for both internal and external applications. ExaMAX ® I/O products are capable of delivering high speed
examax link | Amphenol Global Search | Amphenol
The ExaMAX® I/O system offers cable assemblies and I/O connector solutions for both internal and external applications. ExaMAX® I/O products are capable of delivering high-speed performance of 25 Gb/s per channel with a path to 40 Gb/s and higher.
2-BAY MT38999 WITH MT FERRULES TO EXAMAX CONNECTOR - Amphenol Aerospace
• Full support for KR and KR4 link training and auto-negotiation FEATURES 2-BAY MT38999 WITH MT FERRULES TO EXAMAX CONNECTOR This Amphenol connector will take your high-speed needs to a new level. We have taken two existing high-speed technologies and combined them into one media converter. Now you can transfer high-speed data seamlessly from
ExaMAX® VS High Speed Backplane Connector System
ExaMAX® VS backplane connector system is a scalable, cost optimized connector system that meets industry specifications requiring higher bandwidth applications to 25Gb/s. The high performance connector system provides both mechanical robustness and superior signal integrity.
examax link | Amphenol Global Search | Amphenol
Amphenol is one of the leading manufacturers of ExaMAX 56gb/s high speed backplane connector system. Contact us today for more details of examax, part number 10135236-101LF
ExaMAX VS High Speed Backplane Connector System
ExaMAX ® VS High Speed Backplane Connector System § ExaMAX ® VS offers forward mating and footprint compatible design that enables a scalable migration path beyond 25Gb/s § The innovative beam-on-beam contact interface minimizes residual stub for improved signal integrity performance while providing exceptionally low mating forces § ExaMAX ®
ExaMAX HIGH SPEED BACKPLANE CONNECTOR SYSTEM - Amphenol CS
ExaMAX® high speed backplane connector system is designed to enable superior 25Gb/s electrical performance and provide a path to 56Gb/s in anticipation of further increases in bandwidth requirements and the data rates used for high speed signaling.
examax link | Amphenol Global Search | Amphenol
Centaur ExaMAX® backplane connector system meets industry specifications requiring higher bandwidth applications from 25Gb/s to 56Gb/s. The optimized connector design delivers superior signal integrity performance resulting in low crosstalk noise and low insertion loss while minimizing channel performance variation for every differential pair.
examax link | Amphenol Global Search | Amphenol
ExaMAX® I/O products are capable of delivering high-speed performance of 25 Gb/s per channel with a path to 40 Gb/s and higher. The ExaMAX® I/O system delivers superior linear board signal density and meets the performance requirements of the OIF-CEI-25G-LR industry standard.
examax | Amphenol Global Search | Amphenol
ExaMAX is a beam-on-beam contact interface connector that supports data rates from 25Gb/s to 56Gb/s. It has low crosstalk, insertion loss, and mating forces, and is compatible with various industry specifications and applications.
examax link | Amphenol Global Search | Amphenol
Maximum link length of 70m on OM3 multimode fiber or 100m on OM4 multimode fiber. - Low power - 1.5W - Mature COB technology - Outstanding BER and sensitivity - Supports 53.125Gb/s data rate - Electrically hot-pluggable ...
examax link | Amphenol Global Search | Amphenol
The ExaMAX® I/O system offers cable assemblies and I/O connector solutions for both internal and external applications. ExaMAX® I/O products are capable of delivering high-speed performance of 25 Gb/s per channel with a path to 40 Gb/s and higher.
examax | Amphenol Global Search | Amphenol
examax link | Amphenol Global Search | Amphenol ExaMAX is a beam-on-beam contact interface connector that supports data rates from 25Gb/s to 56Gb/s. It has low crosstalk, insertion loss, and mating forces, and is compatible with various industry specifications and applications.
examax link | Amphenol Global Search | Amphenol
ExaMAX® 56Gb/s High Speed Backplane Connector 92Ohm, 6-Pair, 10 column, 200 position, Vertical Header, Left Guide Pin.
amphenol examax paladin | Amphenol Global Search | Amphenol
Amphenol is one of the leading manufacturers of examax 56gb/s high speed backplane connector. Contact us today for more details of examax , part number 10128415-101LF ...
examax linking cable | Amphenol Global Search | Amphenol
The ExaMAX® I/O system offers cable assemblies and I/O connector solutions for both internal and external applications. ExaMAX® I/O products are capable of delivering high-speed performance of 25 Gb/s per channel with a path to 40 Gb/s and higher. ...
examax link | Amphenol Global Search | Amphenol
Centaur ExaMAX® backplane connector system meets industry specifications requiring higher bandwidth applications from 25Gb/s to 56Gb/s. The optimized connector design delivers superior signal integrity performance resulting in low crosstalk noise and low insertion loss while minimizing channel performance variation for every differential pair.
examax link | Amphenol Global Search | Amphenol
Centaur ExaMAX® backplane connector system meets industry specifications requiring higher bandwidth applications from 25Gb/s to 56Gb/s. The optimized connector design delivers superior signal integrity performance resulting in low crosstalk noise and low insertion loss while minimizing channel performance variation for every differential pair.