Conformal RF Systems — Defense & Aerospace
Ambrix
Antennas
Direct-to-surface conformal antennas.
High-temperature dielectric deposition.
Controlled-impedance trace printing.
Based on Patented Federal Laboratory Technology
ContactConventional Integration Constraints
- Bonded laminate stacks introduce adhesive failure risk
- Assembly layers add thickness and mechanical complexity
- Flat geometries restrict conformal integration
- Limited high-temperature survivability
The Ambrix Method
Structural metal body functions as ground plane.
Dielectric is deposited directly onto the surface.
Antenna traces are printed on top.
Printed Traces
Conductive radiating structure
Printed Dielectric
High-temperature RF spacing layer
Metal Structure
Platform surface — ground plane
Technical Validation
- Dielectric adhesion & thickness control
- Impedance repeatability
- S11 / return loss characterization
- Thermal survivability testing
- Phased Array Antennas
Validation is milestone-driven. Results released upon completion.
Target Applications
UAV & Drone Platforms
Surface-constrained airframes
Satellite & Space Systems
Thermal cycling resilience
Naval Platforms
Reduced assembly complexity
High-Temp Aerospace
Propulsion-adjacent survivability
Engagement
Pursuing SBIR / STTR programs, defense accelerators,
and collaboration with prime contractors.