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 QSFP DD to QSFP DD 200G Active Optical Cable assemblies increase the number of lanes from 4 to 8 and double the port density as compared to 100G QSFP28 AOC. The QSFP DD AOCs operate up to 25Gb/s NRZ modulation and provide solutions up to 200Gb/s aggregate bandwidth, supporting 100meters over parallel multimode fiber.
200G / 400G SOLUTIONS
Amphenol's QSFP DD (Double-Density) passive copper cable assemblies double the number of high 25G/lane NRZ and 50G/lane PAM4 when compared to the existing 100G QSFP cabling systems from 4 to 8 lanes. The QSFP DD cables enable 200G or 400G in application lengths from 0.5 meters up to and including 2.5 meters.
QSFP DD loopback cable assemblies are offered in four configurations - Passive Electrical, Passive Thermal, Active Electrical, Active Thermal. All loopback cable assemblies are backward plug compatible with existing 100 G-based systems and support 200G or 400G signaling transmission.
Amphenol provides a full range of 40G QSFP+ optical transceiver from 150m to 30km reach, adopt LC or MPO interface, and is compatible with IEEE802.3bm, SFF-8436, and other standards. It has the characteristics of low power consumption, small size, and high speed which is beneficial to increase the capacity of data centers, improve the port density and reduce power consumption.
Amphenol's QSFP+ to QSFP+ active optical cable assemblies provide 4 fully duplex channels per cable supporting signal transmission rates up to 10 Gb/s & 14 Gb/s per channel. The QSFP+ cable interface is based on the SFF-8436 industry standard, while also meeting the requirements of the 40GBASE-SR4 Ethernet and Infiniband SDR, DDR, QDR & FDR standards.
QSFP connector, cage, and cable assemblies are designed to meet emerging data center and high-performance computing applications of delivering aggregate data bandwidths of 40Gb/s & 56 Gb/s & 112 Gb/s. This interconnect is fully compliant with existing industry standard specifications such as the QSFP MSA and IBTA.
QSFP connector, cage, and cable assemblies are designed to meet emerging data center and high-performance computing applications of delivering aggregate data bandwidths of 40Gb/s & 56 Gb/s & 112 Gb/s. This interconnect is fully compliant with existing industry standard specifications such as the QSFP MSA and IBTA.
QSFP (Quad Small Form Factor Pluggable) cable assemblies are designed to meet emerging data center and high performance computing application needs for high-density cabling interconnect systems capable of delivering aggregate data bandwidths of 40Gb/s. The QSFP cables support bandwidth transmission requirements as defined by IEEE802.3ba (40Gb/s) and Infiniband QDR (4x10Gb/s per channel).
Amphenol's QSFP+ Loopback Modules are part of our comprehensive QSFP+ product family which includes copper cables and connectors. These QSFP+ loopbacks are offered as passive electrical with multiple attenuations and thermal consumption levels. QSFP+ loopbacks are designed to support data speeds up to 40G (4 lanes at 10G).
QSFP+ to 4x SFP+ Copper Splitter Cable Assemblies 40G
40G QSFP+ to 4x SFP+ splitter cable assemblies are designed to meet emerging data center and high performance computing application needs for a high-density cabling interconnect system capable of delivering aggregate data bandwidths of 40Gb/s at QSFP end and 10G at SFP end. This interconnect system is fully compliant with existing industry standard specifications such as the QSFP MSA and SFP MSA.