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.
EconoStik™ 2.54mm is an economical range of 2.54mm unshrouded header. It is available in single-row and double-row with vertical through-hole, right-angle through-hole, and vertical SMT terminations. EconoStik™ 2.54mm is a standard 0.64mm square header with high-temperature resin and 1μ" gold plating in contact and tail. It supports up to 50 mating cycles.
CLASSIC HPCE® WITH ENHANCED PERFORMANCE
eHPCE® connector offers a 15% increase in power density with the same footprint as classic HPCE®. The all-new power contact design offers lower contact resistance and higher current carrying capacity compared to classic HPCE® connectors. eHPCE® connectors are designed to extend the life of power supplies using card edge output power connectors.
ULTRA-HIGH DENSITY BACKPLANE INTERCONNECT SOLUTION
Ultra-High density 56+ Gbp/s PAM4 interconnect platform utilizing proven press-fit technology and a single wafer design optimized for traditional backplane, direct orthogonal, and cable design solutions.
SV Microwave has just released a series of SMA and 2.92mm cable connectors and adapters with built-in electromagnetic interference (EMI) shielding. These interconnects feature a gasket that improves EMI shielding over similar products, resulting in minimal to no electromagnetic interference.
The eQSFP interconnect system is comprised of a 38 position 0.8mm pitch SMT connector, and a press-fit cage. With four channels of data in one pluggable, the system interface is capable of transferring data up to 28 Gbps/Channel and replacing up to 4 standard SFP+ receptacles. Supporting standards include Gigabit Ethernet, InfiniBand, and SONET/SDH with different data rate options.
eSATA connectors are designed for external storage applications that require a single-lane Serial ATA cable connection up to approximately two metres in length. The connectors comply with the Serial ATA Specification issued by the Serial ATA International Organization (SATA-IO). eSATA connectors support both Gen 1 (1.5Gb/s) and Gen 2 (3Gb/s) SATA data rates.
The ExaMAX2® backplane connector system supports 112Gb/s PAM4 industry specifications. It maintains mating interface compatibility with previous ExaMAX products to allow cost/performance flexibility for designers. The mating interface and connector design are optimized to support the demanding electrical and mechanical requirements of 112G systems. ExaMAX2 delivers industry-leading SI performance.
The ExaMAX+® backplane connector system is designed to meet 56Gb/s PAM4 industry specifications with plenty of SI margin while maintaining mating interface compatibility with previous ExaMAX® products. The optimized connector design delivers superior signal integrity performance resulting in lower crosstalk noise and higher insertion loss-to-crosstalk ratio.
ExaMAX® 56Gb/s High Speed Backplane Cable Assembly
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. The ExaMAX® I/O system delivers superior linear board signal density and meets the performance requirements of the OIF-CEI-25G-LR industry standard.
The ExaMAX® 85Ohms backplane connector system is designed for higher bandwidth applications from 25Gb/s to 56Gb/s. Optimized connector design delivers superior signal integrity performance resulting in low crosstalk noise and low insertion loss. Each signal wafer incorporates an innovative one-piece, embossed ground structure to improve crosstalk performance through 56Gb/s.