Amphenol is a world leader in the design, manufacture and supply of high-performance interconnect systems for harsh environment defense applications including vibration, pressure, humidity, nuclear radiation and severe temperature changes. We have unparalleled product breadth ranging from military specification connectors, customized high-speed board level interconnects, flexible to rigid printed circuit boards, backplane systems and integrated assemblies. Our solutions span most defense end markets including avionics, communications, engines, ground vehicles and tanks, homeland security, naval, ordnance and missile systems, radar systems, rotorcraft, satellite and space programs and unmanned aerial vehicles (UAV).
MilTech® 210 Light-Weight are hermetically sealed, flexible RF and microwave assemblies built for superior performance in harsh and high-stress environments. These ruggedized and fully vapor-sealed transmission lines are specifically optimized and qualified for use in commercial, military airborne, and other demanding applications.
MilTech® 230 Light-Weight are hermetically sealed, flexible RF and microwave assemblies built for durability and high performance in challenging environments. These ruggedized transmission lines are fully vapor sealed and engineered for reliability in commercial, military airborne, and other mission-critical applications.
MilTech® 270 Light-Weight are hermetically sealed, flexible RF and microwave assemblies designed for high-performance signal transmission in extreme environments. These ruggedized and fully vapor-sealed transmission lines are optimized and qualified for use in commercial, military airborne, and other demanding applications.
MilTech® 230 Light-Weight are hermetically sealed, flexible RF and microwave assemblies built for durability and high performance in challenging environments. These ruggedized transmission lines are fully vapor sealed and engineered for reliability in commercial, military airborne, and other mission-critical applications.
MilTech® 330-XR Lightweight and Ruggedized assemblies deliver hermetically sealed, flexible RF and microwave performance for the toughest environments. Built with high durability in mind, these transmission lines offer full vapor sealing and optimized performance, meeting strict qualifications for commercial, military airborne, and other demanding applications.
MilTech® 440 Light-Weight are hermetically sealed, flexible RF and microwave assemblies engineered for high-reliability performance in challenging environments. These ruggedized, fully vapor-sealed transmission lines are optimized and qualified for commercial, military airborne, and other mission-critical applications.
MW series power connectors are MIL Qualified and listed in QPL. They meet the requirement of MIL-DTL-55181. MW series power connectors are designed with a center lock coupling screw. They are waterproof, polarized, and can withstand high shock and vibrations. They are primarily used for the interconnection of power and control circuits of electric equipment military communication systems.
The NanoDMT series of miniature D-sub MT connectors are designed to meet the demands of high-performance and high-density applications within harsh environments. The NanoDMT connector is ideal for high-speed displays, supporting up to 64 fibers in a single MT. Designed for
precision machined AI housing makes it easy to identify orientiation.
Nano-Pegasus is a small, plastic, easy-to-use connector designed specifically for sensing, command, and control applications where a Micro or Nano Dsub would be used. Nano-Pegasus & Nano-Luminus provide exceptional performance in tight spaces, packing 11 high-grade contacts in a shell size 5 housing.
Our newest VITA adapter product line is designed to support the test, calibration, and optimization of embedded systems using SV’s NanoRF VITA 67.3 contacts. This suite of precision adapters provides direct access to individual NanoRF pin (Backplane) and socket (Plug-In) contacts, allowing system designers to validate electrical performance and easily maintain signal integrity during development.