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.
G14 Series OCuLink connectors are internal and external Small Form Factor PCIe connectors and cables optimized for the client and mobile market segments, while suitable for various datacom, consumer, and industrial applications. The OCulink standard, which is 85Ω version, accommodates SAS 4.0 (24Gb/s) and PCIe 4.0 (16Gb/s) signaling needs and enables optical and copper technology to coexist.
OLST Technology (Optimized Local Surface Treatment)
OLST Technology (Optimized Local Surface Treatment) combines the advantages of light metals – low weight, easy workability, etc. – with the advantages of copper, such as corrosion resistance, the property of being soldered, special features for electrical purposes.
The Omni-Path verified DAC copper cables, are offered to address the needs of the majority of the inter-cabinet & short-reach intra-cabinet cable connections while minimizing cable bulk & cable routing issues, up to 4 meters using 30AWG cable. Longer-length cables up to 6 meters also maximize the length of copper. These longer cables use 26AWG high-performance bulk cable.
"The Optik-D™ fibre-optic connector solution is for designers who need to terminate optical cable in harsh or challenging environments. It is an ARINC 801 conforming fibre-optic connector designed to be used with the Positronic Combo D-Subminiature family. Optik-D is more cost-effective than D38999 or ARINC 600-based systems and is compatible with ARINC 801 products from other manufacturers.
Amphenol's OSFP interconnect system has 60 contacts per port, with a 0.6mm contact pitch and 8 high-speed channels. The OSFP footprint is optimized for signal integrity performance and built for use in high-speed serial applications. The connector is enhanced for low crosstalk and has ground commoning for resonance dampening. It is also designed for 1U applications.
200G / 400G SOLUTIONS
Amphenol's leading the industry in OSFP cable development. OSFP (Octal Small Form Factor Pluggable) cable assemblies are compatible with both 25G/ lane channel NRZ and 50G/lane channel PAM4 signaling protocols that allow the cables to deliver aggregate bandwidths of 200G and 400G per cable assembly.
OSFP (Octal SFP) Loopback Modules are part of our OSFP I/O system product family that includes copper cables, connectors, and AOC's. These OSFP loopback cable assemblies are offered in four configurations - Passive Electrical, Passive Thermal, Active Electrical, Active Thermal. All loopback cable assemblies support 200G (8 lanes @ 25G NRZ) or 400G (8 lanes @ 50G PAM4) signaling transmission.
Optical passives ranging from 4 to 40 channel counts. They can be configured with optional express, upgrade, and test ports to support a variety of applications. The packaging comes in two forms, the HiDT (channel counts 8 or less) and the OSP AOM (channel counts 12 and higher), both providing stable optical performance across a wide operating temperature range for OSP deployment.
Amphenol's OverPass™ cable system offers a broad range of capabilities that allow our customers to efficiently transmit high-speed signals from near an ASIC to anywhere in their system.
AMPHENOL'S GAME-CHANGING 112Gb/s BACKPLANE INTERCONNECT TECHNOLOGY.
Paladin's® revolutionary architecture sets the benchmark for signal integrity performance in backplane interconnects. Exhibiting smooth linear transmission beyond 40GHz, the lowest crosstalk in the market, and consistent SI performance over its entire mating range.