If you have any questions or to discuss your specific application needs, including fiber options packaged with GORE Cable Protection Systems for outside-the-box applications, contact a Gore representative today. ETA offers over 80 accredited, vendor-neutral certification programs in a variety of technology fields such as fiber optics, communications, electronics, biomedical, smart home, and renewable energy. Please contact us to discuss your specific requirements. JONATHON GOLDSTEIN, IAN HAAS, AND JASON FURTNER, TIMBERCON. The capability demonstrated by the sensing system also provided a practical approach to accomplish structural health and loads monitoring. Glass optical fiber is basically used in applications such as telecom, CATV, highspeed LANs, and sensors. Widely recognized and frequently used in worker job selection, hiring processes, pay increases, and advancements, ETA certifications are often required as companies bid on contracts. Various 4th and 5th generation fighter aircraft such as the F-35, J-20, and Su-57 use fiber optic cables onboard to monitor the performance of engines, flight control systems, and avionics. The fiber optic cables market for military & aerospace size is projected to grow from USD 1.2 billion in 2021 to USD 1.5 billion by 2026, at a CAGR of 5.1% from 2021 to 2026. - These values demonstrate the optical, mechanical and environmental performance of GORE Fiber Optic Cables (1.2 mm Simplex) for defense aircraft. VERSITRON offers extremely efficient products and solutions based on fiber optics for the aerospace industry in the form of aerospace fiber optic cables, 4 wire analog telephone modems, video surveillance systems, and so on. Pre-qualified complimentary samples are available within 48 hours for prototyping and evaluation. View all resources for GORE Fiber Optic Cables for Defense Aircraft. These rugged aerospace fiber optic cables guard against extreme temperatures, mechanical shock and crushing force to provide strong signal transmission for a wide variety of avionics network systems and related applications. Theyre proven to transmit instant data and video giving pilots and other aircrew maximum situational awareness during critical missions. Gore's materials reduce the force needed to move the cables fiber under compression, optimizing installation and signal transmission while enhancing termination with many standard high-speed connector systems. Download the data sheet for technical information and qualifications summary according to EN4641-301 and JN1177 requirements. April 5, 2022. Composite buffer with fiber position index stripe, Unique Buffering Systems of GORE Fiber Optic Ribbon Cables. Today, our M38999 Plug & Receptical harneses continue to be used by government and commercial entities nationwide. GORE Fiber Optic Cables are engineered with unique features that make them more durable against challenging environmental factors and aircraft conditions, including: Our aerospace-grade fiber optic cables provide aircraft system architects and engineers with many benefits that improve electrical, mechanical and environmental performance such as: For more information about the features and benefits of our cables, contact a Gore representative today. The new option will help EW and C5ISR users and customers who want to transport electrical signals reliably with minimal size, weight and power. ETA aligns with the ISO 17024 standard, vocational and education curriculums, and businesses resource initiatives through certification programs, conferences, and publications. ETA developed the FEEC certification because there was a definite need for consistent training and accredited certification for fiber optics cleaning and inspection process standards in the commercial aerospace industry to resolve disputes between OEMs (original equipment manufacturers that make devices from component parts bought from other organizations) and customers through reduction of rejected vendor parts, said Bill Woodward, FOD, Chairman of SAE International's Avionics Systems Division (ASD), where he coordinates the committees responsible for the standardization activities of the aerospace industry in the areas of Avionics Systems, Systems Integration, Embedded Computing, Fiber Optics, and Unmanned Systems. These data links use compatible communication protocols to share information securely between allies. Built with a remarkable buffering system, Our 1.8 mm Simplex is proven to resist high weight impact, crushing, abrasion and kinking compared to other aerospace fiber optic cable assemblies. ETAs FEEC is based mainly on the Aeronautical Radio, Incorporated (ARINC) Report 805-5, with aspects of 803-3, 806-7.2.1, and 807-3 of the SAE International-recognized standards (https://www.aviation-ia.com/). Fill out a short form to get samples of our pre-qualified cables in 48 hours for prototyping and evaluation. Greencastle, October 31, 2019: Qualified to lead the aerospace workforce, ETA International-certified Fiber Optics Evaluation and Endface Cleaning (FEEC) professionals have validated knowledge and skills required for working with fiber optics in the aerospace industry. Companies such as Boeing (US), Bombardier (Canada), and Airbus (France) are working on the development of electrical systems to replace the traditional systems for optimized aircraft performance and limited maintenance costs. Data bus technology implements Line-Replaceable Units (LRUs) that are integrated with sensors and fiber optic cables throughout the aircraft. https://www.photonics.com/Buyers_Guide/Timbercon/c15035. In addition to the 3,000 FBG sensors, 16 strain gauges were used to validate the FBG strain measurements. These systems utilize fiber optic cable networks to transmit intelligence, surveillance, and reconnaissance information through different communication systems. Fiber Optic Gyroscopes & Lasers Lead We use cookies to improve user experience and analyze our website traffic as stated in our. If you need any further details in terms of technicalities, pricing, services, installation, and so on, please feel free to reach us through phone or email. Multi-Mode: The fastest-growing segment of the fiber optic cables market for military & aerospace, by Type. We offer plenty of customization to suit your requirements in terms of hardware, splicing, cable lengths, seamless communication at extremely high altitudes, communication with ground staff, and so on. If you have any questions or to discuss your specific application needs, including a bend-sensitive fiber option or particular fiberglass type, contact a Gore representative today. Our part numbers are identified by an asterisk (*) designating the core type, followed by an asterisk designating the number of fibers (i.e., 4, 8, or 12). A single hair-like optical fiber sensing spanning up to 40 feet can act akin to over thousands of strain gauges without the cumbersome and weight prohibitive instrumentation wire. We offer a higher level of fiber optic cable protection that shields the core. W. L. Gore & Associates (Gore) announced a new higher-frequency 40Ghz option for its GORE-FLIGHT Microwave Assemblies. Our M29504 Pins and Sockets can be tailored to meet end users requirements fast and affordably. Fiber Laser technology for defense applications is advancing rapidly due to advantages over solid state lasers. Glass optical fiber is made of silicon dioxide. In contrast to stiff, rigid wings found on commercial aircraft today, X-56 is outfitted with long, very high-aspect ratio wings which often flex significantly during flight. Without ever failing, our robust cables deliver quality signals with minimal loss during maintenance and flight. Compared to traditional sensors, Fiber Optic Sensing (FOS) technology provides an unprecedented level of insight into the behavior of a structure. Need help finding the right product for your application, or interested in a customized solution? Like our other Simplex versions, these cables provide a high level of crush resistance to protect sensitive avionics. Plugs, Recepticles and Hybrids, along with fiber to Pin and Socket configurations, are precisionly designed to meet the most rigorous quality requirements. With an ideal blend of slender, light size and robust construction, GORE Fiber Optic Cables (900 micron) reliably support high-speed data transfer in several applications, like: Our cables can also be terminated with a variety of leading high-speed aerospace connector systems and backshells, like ARINC, MIL-STD-38999, and MIL-PRF-2950. All displays used in a glass cockpit architecture incorporate data bus technology, which uses fiber optic cables for high-speed data transfer. Fiber optic Gyroscopes (FOGs) are critical tools in many different platforms; aircrafts, missiles, unmanned aerial vehicles (UAVs), and ground vehicles all require advanced optical fiber navigation technology to ensure reliability and safety. OFS manufactures an array of products for such applications. Since the shape of these structures drives the control and performance of these next generation aircrafts, fiber optic shape sensing has been identified as a powerful tool to enable and accelerate these innovations. Watch Gore engineers in these videos and more on YouTube demonstrating the durability of GORE Fiber Optic Cables. In a multimode fiber, the core-to-cladding diameter ratio is 50-125 m and 62.5-125 m. These fibers are typically used for short-distance data and audio/video applications in LANs. Fiber optic technology has a large application in flight control systems. Considering the demanding and harsh environments these segments function in, our fiber optic cables for the aerospace industry are designed to be resistant to hot and cold temperatures, lightning strikes, heavy rains, snow, vibration, pressure, and so on. ETAs Fiber Optics Evaluation and Endface Cleaning accredited certification directly supports aviation industry goals to promote safety, efficiency, regularity, and cost-effectiveness in aircraft operations. In addition to strain, FOS can be used to measure temperature, deflection, stress, load, stiffness, and various other critical engineering parameters. To meet the challenges of the aerospace industrys most demanding environments and applications, W. L. Gore & Associates offers GORE Fiber Optic Cables (1.8 mm Simplex) for Aircraft. For aviation high-bandwidth requirements, weve packaged standard optical fibers in robust, space-saving constructions with an exceptional balance of properties. Satellites, interlinked ground links, and communication systems are considered an important part of communication networks as they enable data transmission through secure datalinks. Fiber Optic Cables Impact Test:ARINC-802-2 & BMS13-71, Fiber Optic Cables Impact Test: JN1177 & EN 4641-301, GORE Fiber Optic Cables (1.8 mm Simplex) for Aircraft, Technical Paper: Aircraft Weight Savings through Innovative Materials Science & Unique Cable Designs, White Paper: Improving Cable Performance in Harsh Environments, W. L. Gore & Associates Expands Mission Capabilities for Microwave RF Assemblies, See Gore Demos at the Army Aviation Mission Solutions Summit (AAAA), Shielded Twisted Pair Cables for Defense Aircraft, Quad Cables (Specialty Versions) for Defense Aircraft, Fibre Channel Cables for Defense Aircraft, DVI Cables (Digital Only) for Defense Aircraft, Cable Protection Systems for Defense Aircraft, Abrasion Resistant Cable Jacket for Defense Aircraft, High Performance Aerospace Wires for Defense Aircraft, MIL-STD-1760 Assemblies for Defense Aircraft, Microwave/RF Assemblies for Defense Aircraft, Microwave/RF Assemblies, 7 Series for Defense Aircraft, California Supply Chain Act / Human Trafficking Statement, Impact- and crush-resistant buffering systems, chemically inert and temperature-resistant materials, space-saving, highly flexible cable diameters, secure, high-bandwidth data/video transmission with low optical loss, high level of robustness and extended life with unique buffering systems, proven resistance to high impact, crushing, abrasion, vibration, shock and more, proven to exceed new stringent EN4641-301 and JN1177 durability requirements, easier routing with more flexibility and tighter fiber optic bend radius protection, weight and space savings with smaller, lighter constructions, variety of single/multi-mode core types from OM1 to OM5 to meet aerospace fiber optic applications, compatible with a variety of high-speed connector systems and backshells, selected pre-qualified samples with short lead times for prototyping and evaluation, low risk based on validated product performance in real-world conditions, ABD0031 (AITM 2.0005); BSS7230; FAR Part 25, Appendix F, Part I: Flammability, ABD0031 (AITM 3.0008B); BSS7238; FAR Part 25, Appendix F, Part V: Smoke Density, ARINC 802-3; Performance Requirements (GSC-13-84639, GSC-13-84640, GSC-13-84943), EN3745-506; EN3745-513; JN1177: Test Methods for Crush and Impact Resistance (GSC-13-84943-07 / GSC-13-84943-17), ABD0031 (AITM 2.0005); BSS7230-F6; BSS7324-7.25; FAR Part 25, Appendix F, Part I: Flammability, ARINC 802-3: Performance Requirements (GSC-13-85067-00). Military: The fastest-growing segment of the fiber optic cables market for military & aerospace, by Platform. This served as the first step to achieving control of the shape of subsonic fixed wing aircrafts. OFS is proud to serve the unique needs of the aerospace and defense industries. Eight thermocouples were bonded to the upper wings of the vehicle and used for strain gauge thermal compensation. All these segments require robust communication systems and hardware, which is seamless and works over large distances. These values demonstrate the optical, mechanical and environmental performance of GORE Fiber Optic Cables (900 micron) for defense aircraft. Delivering strong signals, each version of our military aircraft fiber optics can easily accommodate bandwidth-intensive requirements to support next-gen aircraft data and video architecture. We offer lightweight and compact fiber optic cables with large bandwidth; this reduces the installation time, size, and weight. In these systems, the fiber pays out from a coiled spool to create a data path. OFS specialized design and coating processes help optical fibers survive the harshest of environments. OFS AccuTether Bend-Insensitive Optical Fiber (80 and 125 m) Payout optical fiber and reduced diameter fiber offerings can be customized to meet specific client needs. Dublin, Dec. 06, 2021 (GLOBE NEWSWIRE) -- The "Global Fiber Optic Cables Market for Military & Aerospace, by Platform (Civil, Military, Space), Application (Avionics, Navigation, Weapon Systems, Communication Systems), Type (Single-mode, Multi-mode), Material, and Region - Forecast to 2026" report has been added to ResearchAndMarkets.com's offering. Our most popular award-wining version offers many advantages of a fiber optic cable. They are mainly used for their low intrinsic absorption properties. Global aerospace standards are essential for aircraft certification airworthiness and interoperability. Our 900 micron version also proves to be an excellent choice for inside-the-box applications because theyre slender, flexible and easy to route. OFS offers VLMA Er Amplifiers and Raman Fiber Laser Modules for use in LIDAR applications. Telcordia Quality Assurance Guidelines can also be applied to our aerospace optical cables. We use cookies to help us provide you with a more enhanced and personalized experience adapted to your interests. PROVEN HIGH-BANDWIDTH PERFORMANCE AFTER ROUTING. We invite you to download our drawings to view cable materials and characteristics, like diameter sizes. OFS also has capabilities to design and manufacture high-end solutions for challenging applications such as optical fiber sensors for harsh environments. Ready for a career change? Thus, the adoption of glass cockpit in aircraft is influencing the growth of the fiber optic cables market for military and aerospace. The incorporation of more electric technology reduces fuel consumption and provides a reliable source of power for aircraft. For more information about the qualifications of our cables and complimentary samples, contact a Gore representative today. Custom Cable Designs (buffer and cable jacket material), Sensing Composite Structures (aircraft wings). ETAs certifications are personal and travel with the individual, regardless of employment or status change and measure competencies of persons, not products or vendors. They bring consistent signal integrity with low optical loss and offer uninterrupted high-speed data and video transmission long after alternatives have succumbed to their environment. COVID-19 has impacted their businesses as well. The technology improves communication between aircraft systems and the cockpit. Fiber Optics Evaluation and Endface Cleaning, www.etai.org/pr/ETA_Certification_Advances_Aerospace_Fiber_Optics_Careers.pdf. Were looking forward to meeting and talking in person again after so long! - Combined with its small size, environmental robustness, and long fatigue life, optical fiber shape sensing provides measurements which are simply not possible with alternative technologies. The FEEC defines general practices for testing the physical layer of a fiber optic cable system and outlines proven practices for engineers and technicians engaged in testing and supporting fiber optic cable systems in aircraft. November 15, 2021 Our portfolio includes high quality cables that meet the requirements of various platforms, such as flight communications, unmanned deployments (air and ground), and harsh environment communications. OFS has extensive coating, fiber and cable capabilities allowing for the creation of customized solutions for your application. Our scientists and engineers create the products and solutions that become industry standards. Copyright 2022 Versitron. Specialty Optical Fibers, Modules and Kits, Fiber and Services for Electric Cooperatives, Fiber Optic Coatings, Buffers and Cable Jacketing Materials, High Power CoolMode Pump Signal Combiner, AccuTether Bend-Insensitive Optical Fiber, Flight Communications for Commercial and Defense Aerospace.