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.
The ExaMAX® high-speed orthogonal 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. The 6-Pair orthogonal right-angle header connector solution further expands the range of applications supported by the ExaMAX® connector system.
The ExaMAX® VS backplane system is a scalable, cost-optimized connector system designed for higher bandwidth applications up to 25Gb/s. The high-performance connector system provides both mechanical robustness and superior signal integrity, minimizing channel performance variation for every differential pair.
ExaMEZZ® 56Gb/s High Speed Mezzanine Connector System
The ExaMEZZ® connector 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 high-speed signaling. ExaMEZZ® connectors feature a revolutionary beam-on-beam contact interface that minimizes the residual stub for improved signal integrity performance.
Amphenol's ExpressPort® QSFP+ interconnect system is comprised of a 38 position 0.8mm pitch SMT connector, & a press-fit cage. With four channels of data in one pluggable, the system interface is capable of transferring data up to 16Gb/s per Channel, & replacing up to 4 standard SFP+ receptacles. These features result in greater port density & overall cost savings over traditional SFP+ products.
Amphenol's ExpressPort® SFP+ interconnect system provides data transfer speeds of up to 16Gb/s. The design of the ExpressPort® SFP+ connector minimizes impedance discontinuities & reflections at high data rates & provides a 10-20dB improvement in Near-End Crosstalk. ExpressPort® SFP+ cage construction features EMI shielding available in the form of metal spring fingers or elastomeric gaskets.
Amphenol introduces the next-generation OverPass™ solution - ExtremePort™ Flash. The 0.60mm pitch connector comes with an extremely low profile design capable of transmitting a high-speed signal up to 56G PAM4, and allows much greater signal path lengths while maintaining SI performance when compared to conventional PCB routing methods.
Amphenol's ExtremePort™ QSFP+ interconnect system is comprised of a 38-position, 0.8mm pitch connector built for use in high-speed serial applications. Each port offers 4 channels to increase port density which allows for more board real estate and cost-optimized solutions. The ExtremePort™ QSFP+ connector supports next-generation 200G+ applications and transmits up to 56Gb/s PAM4 per channel.
Amphenol's ExtremePort™ SFP+ interconnect system is comprised of a 20-position hot-swappable I/O connector enclosed in a metal cage mounted to a host PCB.It supports up to 56Gb/s PAM4 aggregate bandwidth with backward compatibility for next-gen Ethernet & Fibre Channel applications. ExtremePort™ SFP+ connector shares the same unique mating interface & EMI cage dimensions as the SFP+ form factor.
Amphenol has developed the ExtremePort™ Swift connector which is used in the application of PCIe® Gen5 signal NRZ 32GT/s, UPI 2.0 24GT/s, 24Gb/s SAS signal. With 0.6mm contact pitch, ExtremePort™ Swift solutions are smaller than mainstream connectors in the current market to save space in the end device.
Amphenol introduces the SFF-TA-1002 standard solution - ExtremePort™ Z-Link, which is a 0.60mm pitch connector that comes with a slim form factor design, capable of transmitting a high-speed signal up to 56G PAM4, and allowing much greater signal path lengths while maintaining SI performance when compared to conventional PCB routing methods.