With our industry-leading high-speed, power and fiber optic technologies, together with superior simulation and testing capability and cost-effectiveness, Amphenol is a market leader in interconnect development for the information technology (IT) and datacom market. Whether industry standard or application-specific designs are required, we can provide customers with products that enable performance at the leading edge of next-generation, high-speed, power and fiber optic technologies. Our primary end applications include cloud computing and data centers, gaming systems, internet appliances, networking equipment, servers, storage systems, transmission and web service providers.
Amphenol-BSI 100G VPX Backplane is based on the OpenVPX65 BKP3-CEN08-15.2.16-n profile. We have used our experience from 30 years developing 100G backplane systems to the IT/Datacom market. Next-generation VPX interconnects allow the signal transition path to expand to 100G bandwidth through a traditional copper backplane. Backplane assembly and test in the production environment are critical.
The 1.0/2.3 connector series features a compact design for dense connector packing which makes them ideal for applications where space limitation is a factor. The Amphenol version features a patented ultra-slim push-pull coupling system which allows quick installation and ensures positive locking and high retention.
AFSI’s line of 109 series hermaphroditic connectors offers the ultimate in flexibility and is a direct replacement for the TAC4. The 109 connector line meets or exceeds the pertinent requirements of SMPTE standard 358M on harsh environment multi-channel fiber optic connectors suitable for deployment in demanding outdoor broadcast applications, including HDTV signal transmission.
10G PORT TESTING SOLUTION
Amphenol's 10G SFP+ MSA compliant Loopback Modules are part of Amphenol's comprehensive copper cable and connector product family. Offered as passive electrical, our SFP+ Loopbacks come with and without EMI spring fingers. Loopbacks without EMI spring fingers reduce the insertion and extraction force.
The 240GT54/nrg240GT54 combination fuse panels are 240A dual-feed and provide 5/5 GMT fuse positions and 4/4 TPA fuse or circuit breaker positions. Engineered into a standard 1RU footprint, with circuits that support up to 20A GMT fuses and 50A TPA fuses or 60A breakers in each position, providing ample capacity for distribution to a broad range of components.
The 250TPA08/nrg250TPA08 fuse panels are 250A dual-feed and provide 8/8 TPA fuse positions. Engineered into a standard 1RU footprint, each circuit supports up to 50A TPA fuses in each position, providing ample capacity for distribution to a broad range of components. Advanced circuit-level monitoring features are available as an option.
The 300CB08/nrg300CB08 circuit breaker panels are 325A dual-feed and provide 8/8 breaker positions. Engineered into a standard 1RU footprint, each circuit supports up to 60A breakers in each position, providing ample capacity for distribution to a broad range of components. Advanced circuit-level monitoring features are available as an option.
Engineered for use in 1RU circuit breaker panels, these single-pole standard delay circuit breakers provide reliable circuit protection for DC applications from 5A to 60A. In addition to providing conventional overcurrent protection, each breaker can be used as an on-off switch.
3000W EnergyEdge™ X-treme Card Edge series offers the highest linear density available in the market. This product features twice as many contact points allowing for a 25% improvement in linear current density when compared to existing card edge products. X-treme's revolutionary dual contact design pushes the boundaries of card edge technology beyond 3000W to power modern system architectures.
The 32G FC SW transceivers are designed to be used in Fibre Channel links up to 28.05 Gb/s data rate over multimode fiber. They are compliant with FC-PI-6a, SFF-8472 Rev 12.2c, and compatible with SFF-8432b and applicable portions of SFF-8431 Rev. 4.1d. These transceivers are RoHS compliant and per Directive 2011/65/EUe.