Overview

Consistent Signal Integrity

Today’s aircraft environment requires cables that can carry loads of data at higher speeds in advanced avionics. Aircraft cables are also subjected to challenging conditions and must be able to survive extreme temperatures, tricky wiring in less space, and harsh contaminants to name a few. Cables play a key role in system performance and can quickly fail if they get damaged or break, putting missions and aircrews at risk.

GORE Fibre Channel Cables enhance noise immunity and EMI suppression while maintaining consistent signal integrity at data rates up to 1 GHz. We use the field cancellation properties of a balanced quadrax cable design, so our high-speed cables can transmit 2 differential signals within the same shield without interfering with each other. Flight crews can always depend on receiving crucial information in real-time with our cables installed in the aircraft they fly.

Smaller size of GORE Fibre Channel Cables

Low-dielectric cable geometry.

SMALLER, LIGHTER & TOUGHER GEOMETRY

We also boost durability and protection with innovative fluoropolymer technologies that resist typical aircraft environments, like extreme temperature changes, aggressive chemicals, harsh contaminants and more. Our airborne fibre channel cables are built to perform reliably and last as long as the aircraft remains in service.

Without sacrificing toughness, these cables have a Gore-invented quadrax design that’s 40% smaller and weighs considerably less than dual twisted pair cables. Our low-dielectric cables are also more flexible with a tighter bend radius for easier wiring during routing in the smallest aircraft spaces.

Fibre Channel Cable construction
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B
C
D
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F
G

Fluorinated ethylene propylene (FEP) jacket

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Aluminized polyimide shield

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Color-coded composite dielectric

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Silver-plated copper alloy conductor

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FEP filler

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ePTFE binder

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Braided shield

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Tough construction of GORE Fibre Channel Cables.

Applications & Connectors

GORE Fibre Channel Cables have been proven and trusted on the Falcon 7X among other commercial aircraft, making them a reliable interconnect for critical applications, like:

  • active electronically-scanned arrays (AESA)
  • cabin/flight management systems
  • tactical aircraft moving maps

Our cables can be terminated with a variety of leading high-speed aerospace connector systems and backshells, like ARINC and MIL-STD-38999 with size 8 contacts.

They can also be mated with commercially available connectors to create assemblies and optimize performance in the smallest possible package. Benefits include:

  • Insert configurations maintain quadrax geometry through connector interface
  • Improved Z° match minimizes reflections for clean eye patterns
  • Standard size 22D contacts provide high reliability and ease of use
  • Series 3 coupling provides enhanced EMI performance
Connector TypeImpedance OhmsImage
M24308/4-1FApprox. 100

 

M24308/2-1FApprox. 100

 

MIL-DTL-38999 series III, shell size 11 (plug), military (composite)150

 

MIL-DTL-38999 series III, shell size 11 (jam nut), military (composite)150

 

MIL-DTL-38999 series III, shell size 11 (receptacle), military (composite)150

 

Connector TypeImpedance OhmsImage
SMP 50
SMA 50/75
SSMC 50
MCX 50/75

Features & Benefits

We build GORE Fibre Channel Cables with rugged features proven to resist extreme aircraft conditions and environmental factors, including: 

  • original inventor of reduced quadrax design
  • temperature- and abrasion-resistant materials
  • chemically inert materials

For system architects and engineers, our aviation interconnects provide many benefits that improve their overall performance in aircraft, like:

  • consistent signals up to 1 GHz with controlled impedance at 150 ohms
  • enhanced noise immunity and EMI suppression
  • resist hazardous aircraft environments and extreme flight conditions
  • low-dielectric design is around 40% smaller than dual twisted pair constructions
  • more weight savings in aircraft than other cable designs
  • simpler and faster aircraft wiring from high flexibility and tight bending ability
  • proven on many airborne platforms, like the Falcon 7X
  • compatible with a variety of high-speed connector systems and backshells

Technical Specs & Drawing

These values demonstrate the electrical, mechanical and environmental performance of GORE Fibre Channel Cables for civil aircraft. Download our data sheet for more cable characteristics, qualifications and part number. Also, fill out a short form for instant access to the drawing.

DATA SHEET DRAWING

Elec./Mech./Environ. PropertyValue
Signal Transmission Speed GHzUp to 1
Standard Impedance Ohms150 ± 10
Typical Operating Voltage Rating V< 15
Nominal Velocity of Propagation %87
Nominal Time Delay ns/m (ns/ft)4.0 (1.22)
Capacitance pF/m (pF/ft)28.2 (8.6)
Typical Skew Within Pair ps/m (ps/ft)3.0 (0.9)
Dielectric Withstanding Voltage Vrms
  Conductor-to-Conductor
  Conductor-to-Shield

1500
1000
Jacket MaterialFEP
Jacket ColorBlack
ConductorSilver-Plated Copper Alloy
Conductor Color-CodingBlack/White Stripe, Blue/White Stripe, Green/White Stripe, Solid White
Dielectric MaterialExpanded PTFE
Temperature Range °C-65 to +200

Get Samples or Buy

With toughness and reliable signal transmission at higher data rates, GORE Fibre Channel Cables are trusted by flight crews and proven on many airborne platforms. If you’re ready to order now, get in touch with an approved distributor for in-stock availability.

To find out if our unique quadrax design is compatible with your aircraft application, order a pre-qualified sample now on us. Or, contact us today to discuss your specific application needs and requirements.

SAMPLES PURCHASE CONTACT US

Resources

Aktuellste News

Pressemitteilung

The European Aviation Network Selects GORE® Microwave Sealed Airframe Assemblies for Durable and Reliable Signal Performance

Veröffentlicht: 6. Mai 2017

Gore is pleased to announce that starting this summer, GORE® Microwave Sealed Airframe Assemblies will be used to improve Wi-Fi internet access on European short-haul flights.

Alle News & Events

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Not for use in food, drug, cosmetic or medical device manufacturing, processing, or packaging operations.