AEROSPACE WIRING SOLUTIONS
Signal Pathways Built for Reliability, Durability, and Integration
Engineered and built for measurable gains in signal integrity, mechanical resilience, and life-cycle reliability.
Rethinking Aerospace Wiring Performance
Aerospace wiring is often treated as a passive commodity. In reality, it is a dynamic electrical pathway influencing signal integrity, system reliability, weight efficiency, and long-term operational stability. Asterope develops advanced wiring architectures designed to enhance electrical performance while meeting the mechanical and environmental demands of modern aerospace systems.
Designed and manufactured in the United States.
““Improved signal performance and data transmission performance is highly relevant to the aerospace industry. We’re often sending and recieving large amounts of data. Improved capabilities can make a substantial difference in making all of our aviation assets perform better and thus perform safer.””
Hear seasoned professionals from public and private sectors of the market describe their thoughts on Asterope’s performance capabilities.
COMMERCIAL APPLICATIONS
Signal & Interior System Integration
Commercial Aircraft Systems
Commercial aircraft rely on stable, low-voltage signal pathways for avionics, controls, sensing, and communications; 16–24 AWG ETFE and FEP-insulated wiring engineered for consistent attenuation behavior, mechanical durability, and resistance to EMI, abrasion, and thermal cycling helps reduce intermittent faults, minimize maintenance exposure, and support longer service intervals with predictable performance across the airframe.
Commercial Benefits
• Improved signal-to-noise ratio in passenger audio and PA distribution
• Lower insertion loss across extended IFE and cabin data runs
• Enhanced EMI shielding in high-density cabin electrical environments
• High-strand flexibility for durability in articulated seat and panel systems
“Asterope team of cross-functioning experts are driving the development of innovative solutions to real wiring problems with greater performance capabilities in both public and private sectors of the market.”
EXPERIMENTAL AIRCRAFT
Engineered for Emerging Airframe Architectures
Next-generation experimental aircraft rely on lightweight, high-density, tightly integrated electrical architectures.
Experimental AirBenefits
Signal integrity in digitally controlled flight systems
Reduced attenuation across extended runs
Mechanical resilience under vibration and dynamic load
Weight optimization in distributed propulsion environments
“As a seasoned Experimental Test Pilot for over 20 years, serving both the US Army and Boeing, I have learned the importance and the value of quality components on our aircraft. The success or failure of that equipment depends on transferring more reliable and cleaner data in order to properly evaluate the system. With Asterope, the purity of the signal is unmatched with anything I’ve previously experienced, which allows a true and uninterrupted transfer of data between components, significantly enhancing clarity and reliability which positively impacts mission critical performance, success, risk-management and safety.”
DEFENSE and MISSION SYSTEMS
Reliable Performance in Critical Environments
Mission-critical platforms rely on American-made aerospace wiring engineered for reliability, durability, and performance.
Asterope’s aerospace team includes pilots, engineers, designers, and technical advisors with direct experience in aviation operations, systems integration, and mission support environments. This cross-functional background drives a disciplined, performance-first approach to cable architecture, conductor geometry, insulation selection, and production control. Every design decision prioritizes mechanical resilience, signal integrity, and long-term environmental stability under vibration, thermal cycling, and operational stress. Our focus is straightforward: deliver wiring systems that perform predictably, endure demanding defense conditions, and support the reliability standards required by mission-driven aircraft and the crews who operate them.
Defense Benefits:
• Risk mitigation through stable, low-noise signal transmission
• Weight reduction supporting extended range and mission endurance
• Improved systems performance in electrically dense environments
• Enhanced physical durability under vibration, shock, and sustained load
• Increased operational safety through signal stability and structural integrity
“Asterope technology is a breakthrough – an industry disruptor. As a career engineer, combat aviator, military experimental test pilot, and flight test leader of rotary-wing, fixed-wing, and unmanned aircraft, I have ample experience from the box-level to the aircraft system level with electromagnetic interference EMI, EMV, and system performance of all things wired on the aviation platform. Clean transmissivity and minimal electrical losses make the mission…and save lives. Asterope’s unique technology brings a new level of clarity and efficiency to the defense and aerospace electronics market.”