From takeoff to landing and every mile in between, passengers and cargo all depend on reliable aeronautical engineering to fly comfortably and arrive safely.
Staying in flight and in the lead in the aviation industry means wide-body and
narrow-body aircraft manufacturers must balance the dual performance
challenges of weight and speed with the business challenges of cost and cargo or
passenger capacity.
To help you strike that balance, TE Connectivity (TE) continues to soar
ahead in aeronautical engineering innovation of aerospace materials,
processes, physics, and manufacturing: Lighter-weight wires and cables help
reduce expensive fuel consumption on long-haul flight ranges. Next-gen fiber
optics deliver increased capacity and lower latency in order to improve aircraft
communication integrity. Flexible interconnects support in-flight entertainment
systems with smaller footprints. And that’s just the start. With TE, the sky is the
limit.
Safety, comfort, and reliability in aircraft are by-products of an intricate network of power, avionics, flight control, electrical, and communications sub-assemblies. Explore our portfolio of weight-reducing, space-saving, and performance-boosting aerospace components, including connectors, relays and contactors, wire and cables, and accessories. Each solution set is custom designed for your aircraft application.
Single Pair Ethernet (SPE) enables Ethernet transmission with two wires, rather than eight. Specified in ARINC 854, TE Connectivity (TE) is now bringing its pioneering Mini-ETH interconnect system to the Commercial Aerospace market. This smaller, lighter, smarter technology provides size, weight and performance advantages for today’s and tomorrow’s aircraft, because the connected aircraft starts with fewer wires.
A distributed avionics system creates flexible capabilities in a smaller, lighter package. The Mini Modular Rack Principle (MiniMRP), standardized in ARINC 836A, is fast emerging as the leading choice for packaging of distributed systems. The MiniMRP provides standardized modules that can be easily deployed through an aircraft, allowing information to be collected and distributed around a fiber optic or copper backbone.
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