Speed Meets Precision: Magnetics for the Edge of Possibility

High-Efficiency, Lightweight Magnetics for Guidance, Propulsion, and Power in Hypersonic Systems
Custom-engineered magnetics that thrive in the extreme conditions of hypersonic flight.
Standex Electronics supports the development of next-generation hypersonic systems with magnetic components designed for ultra-high speeds, extreme temperatures, and pinpoint accuracy. Our planar transformers and inductors are built to perform where others fail—at Mach 5+ and beyond.
Compact Power for Constrained Spaces
Magnetics that deliver high power density in ultra-low-profile packages.
- Planar transformers with 99%+ efficiency and reduced Z-height
- Lightweight designs that free up space for payload and guidance systems
- Custom winding and bonding techniques for tight tolerances
- Simulation-driven optimization for thermal and electrical performance
Survives the Heat. Commands the Speed. Advanced Magnetics for Hypersonic Flight, Thermal Protection, and Precision Control
Thermal Resilience at Hypersonic Speeds
Solutions that manage internal and external heat loads at 2,000°C+.
- Advanced materials and encapsulation for thermal protection
- Distributed gap ferrite cores to reduce core loss and saturation
- Custom adhesives and insulators for heat transfer and shock mitigation
- Designed to survive aerodynamic heating and plasma interference
Guidance, Control & Communication
Precision magnetics for maneuverability, targeting, and data exchange.
- Coils and inductors for high-performance actuators and control surfaces
- RF-optimized magnetics for communication through plasma barriers
- Custom solutions for sensor accuracy and signal clarity
- Built to withstand structural loads and vibration at hypersonic velocities
Why Missile & Hypersonic OEMs Choose Standex
- Proven success in hypersonic missile and smart weapons programs
- In-house MIL-STD testing and AS9100-certified manufacturing
- Real-time collaboration and rapid prototyping for agile development
- Expertise in thermal, mechanical, and electromagnetic optimization
