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.
SAS 4.0 connectors for next-generation servers with 24Gb/s speeds. The 29-position receptacle & plug connectors feature hot-plugging & blind-mating, connector misalignment compensation, and a PCB retention mechanism for robust SMT attachment. It is SATA compliant and meets a wide range of vertical and R/A configurations for usage across server and storage equipment, HDDs, HDD carriers, and SSDs.
SAS/PCIe 3.0 connectors are designed for next-generation servers with 12Gb/s speeds. The 68-position, SAS/PCIe receptacle, and header enable high-speed Serial Attached SCSI (SAS) hard disk drive (HDD) interface as well as Peripheral Component Express (PCIe)-based devices. These connectors are backward compatible with 6Gb/s SAS, SATA, and 3Gb/s SFF8482 connectors.
SAS/PCIe® 4.0 (U.2 & U.3) connectors come with 16GT/s (PCIe® lanes) or 24Gb/s (SAS lanes) speeds to meet the demands of next-generation servers. The 68-position, SAS/PCIe® receptacle and header enable implementation of high-speed SAS hard disk drive (HDD) interface as well as PCIe®-based devices. The molded guidepost allows the device plug and receptacle to self-align during the mating process.
Amphenol offers a wide range of high-performance SATA connectors. They are designed to support up to 12Gb/s, enabling the implementation of low cost, high speed, high capacity hard disk drive (HDD). The connectors are SATA compliant and meet a wide range of vertical and right-angle configurations for usage across server and storage equipment, HDDs, and HDD carriers.
SCA-2 connectors consist of headers and receptacles that enable the hard disk drive to backplane interface in enterprise storage systems. The header resides on the HDD while the receptacle is attached to the backplane. 40pos SCA-2 receptacles are designed to accept Fibre Channel drives, while 80pos receptacle accepts SCSI drives.
Design your own connector with our Scorpion series! The Scorpion modular connector can be configured as a power connector, a signal connector, or both, and it offers nearly limitless combinations. Perfect to achieve that ideal blend of size, weight, and power (SWaP). Add options for blind mating, float mount, panel mount, and cable connector options, as well as integral locking systems.
Amphenol's SFP product family supports applications for up to 6 Gbps per channel. The connector accepts multiple transceivers per INF-8074i and combines, transmits, and receives functions in a low-cost, compact format. The assemblies are designed to maximize valuable space on the PCB.
Amphenol 25G SFP28 optical transceiver includes SR, LR Lite, LR, ER, etc, adopt LC interface and compatible with IEEE802.3by, IEEE802.3cc, SFF-8472, and other standards. They have the characteristics of low power consumption, high speed, and high reliability. These products are mainly applied in 25G Ethernet, CPRI10, and other environments.
SFP28 PORT TESTING SOLUTION
Amphenol's SFP28 MSA compliant Loopback Modules are part of Amphenol's comprehensive copper cable and connector product family. Offered as passive electrical, all versions of this connector come without EMI spring fingers, reducing the insertion and extraction force.
Amphenol's SFP28 cable assemblies are designed to support applications for 25G Ethernet and 32G Fibre Channel. Amphenol SFP28 products offer ultra-high performance, cost-effective solutions for 25-Gigabit speed applications in switched fabric I/O, switches, routers, data storage arrays, and high-performance computer (HPC) clusters.