New England Wire Technologies Corporation Datasheets for Multiconductor Cables
Multiconductor cables contain two or more conductors. Each conductor consists of a single wire or a combination of wires.
Multiconductor Cables: Learn more
| Product Name | Notes |
|---|---|
| Braided tin-plated copper conductor insulated with extruded PVC, TPE or fluoropolymer providing a cable that is resistant to water, oil, acids and solvents. USE: Insulated bonds, grounds, leads, flexible connectors. | |
| Conductors are bare or tin-plated copper strands insulated with 10 mil walls of color coded FEP. Braided shields are available over the cabled conductors prior to jacketing with polyester. For... | |
| Conductors are bare or tin-plated copper strands insulated with 10 mil walls of color coded PVC. Braided shields, jackets or both can be applied over the cabled conductors prior to... | |
| Conductors are bare or tin-plated copper strands insulated with 10 mil walls of color coded PVC. Braided shields, jackets or both can be applied over the cabled conductors. For special... | |
| Conductors are extra flexible bare copper strands insulated with 10 mil walls of PVC. Extra flexible, tinned copper braided shields, or Polyurethane jackets or both can be applied over the... | |
| Conductors are extra flexible bare copper strands insulated with 10 mil walls of PVC. Extra flexible, tinned copper braided shields, or PVC jackets or both can be applied over the... | |
| Conductors are extra flexible tinned copper strands insulated with 10 mil walls of silicone rubber. Braided shields can be applied over the cabled conductors prior to jacketing with silicone rubber. | |
| Conductors are stainless steel insulated with 3.5 mil wall of FEP. Braided stainless steel shields of 44 AWG wire can be applied over the cabled conductors prior to jacketing with... | |
| Conductors are ultra flexible bare copper strands insulated with 5 mil wall of FEP. Extra flexible braided shields can be applied over the cable conductors prior to jacketing with Polyurethane... | |
| Conductors are ultra flexible bare copper strands insulated with 5 mil wall of FEP. Extra flexible tinned-copper braided shields can be applied prior to jacketing with 10 mil wall of... | |
| Conductors are ultra flexible bare copper strands insulated with 5 mil walls of color coded PFA. Extra flexible braided shields are optional over the cabled conductors prior to jacketing with... | |
| Conductors are ultra flexible bare copper strands insulated with 5 mil walls of PVC. Extra flexible braided shields are optional over the cabled conductors before extruding with 10 mil wall... | |
| Conductors are ultra flexible bare copper strands insulated with 5 mil walls of PVC. Extra flexible braided shields, jackets or both can be applied over the cabled conductors. Most of... | |
| Conductors are ultra flexible silver-plated copper strands insulated with 3.5 mil walls of PFA. Extra flexible silver-plated copper braided shields can be applied over the cabled conductors prior to jacketing... | |
| Conductors are ultra flexible silver-plated copper strands insulated with 5 mil walls of color coded PFA. Extra flexible silver-plated copper braided shields can be applied over the cabled conductors prior... | |
| Conductors are ultra flexible silver-plated copper strands insulated with 5 mil walls of FEP with extra flexible silver-plated copper braided shields and extruded with 10 mils of TPE. Most items... | |
| Conductors are ultra flexible silver-plated copper strands insulated with 5 mil walls of PFA. Extra flexible braided shields can be applied over the cabled conductors prior to jacketing with PFA. | |
| Conductors are ultra flexible silver-plated copper strands insulated with a 5 mil wall of PVC, an extra flexible silver-plated copper braided shield, and 10 mil wall TPE jacket overall. USE:... | |
| Conductors are ultra flexible silver-plated copper strands insulated with a 5 mil walls of color coded FEP or PFA. Extra flexible braided shields can be applied over the cabled conductors... | |
| Conductors are ultra flexible tin- or silver-plated copper strands insulated with 10 mil walls of silicone rubber. Extra flexible silver-plated copper braided or spiral shields can be applied over the... | |
| In many applications including audio/video, medical equipment, instrumentation and communications there are numerous interconnection demands for a single device. These could include power supply and grounding, signal, coax, twisted pair,... | |
| New England Wire Technologies has a proven track record in the Superconductor community dating back to the 1960’s. Our products are integrated into most of the major accelerator projects, ore... | |
| New England Wire Technologies is a privately held, employee stock ownership company with a rich history dating back to 1898. Our Lisbon, NH facilities consist of over 385,000 square feet... | |
| Silicone rubber is the material of choice for ultra-flexible, autoclave sterilizable medical device cables. Silicone on its own, however, has a physical weakness that can lead to stretching, distortion or... | |
| Stranded tin or silver-plated copper conductor insulated with a 33 mil wall of extruded silicone rubber. Meets requirements of UL3577. USE: High temperature commercial applications where flexibility and long service... | |
| The cables listed here are common bare copper constructions that New England Wire manufactures to order. Although typically constructed with bare or tin-copper wire, silver or nickel-plated copper constructions can... | |
| The cables listed here are common constructions that New England Wire manufactures to order. We specialize in designing rope lay cables, concentric and miniature bunched strands that offer the ultimate... | |
| Twisted pairs have been used for decades as a low cost means to reduce interference between signal wires and surrounding electronics. When an electromagnetic field encounters an electrical conductor a... | |
| Extra flexible, high strand count, tinned copper conductors Meets SAE J 1654 & 1127 for 600 Volt and 125° C diesel applications Improved flexibility over XLPO insulations Improved chemical resistance,... |