HIgh Power Microwave
Phased Array High-Power Microwave Systems for the Warfighter
ThinKom is investing heavily to develop HPM systems for the warfighter across multiple applications and platforms.
The unique architecture of a VICTS phased array is built to handle extreme power levels. When paired with vacuum electronics, they have proven to deliver GW level power in a conformal package.
The unique architecture of a VICTS phased array is built to handle extreme power levels. When paired with vacuum electronics, they have proven to deliver GW level power in a conformal package.
Applications
Airborne
Conformal VICTS phased arrays are proven on airborne platforms
Ground Mobile
Mobile HPM is key to layered defense for C-UAS
Missile Defense
HPM forms a cost-effective addition to Integrated Air and Missile Defense
Maritime
HPM provides ships and watercraft protection in ports and landing sites
High Power Microwave Battlespace
ThinKom’s unique HPM capabilities strengthen C-UAS and Integrated Air and Missile Defense Architecture
What is High Power Microwave (HPM)?
- Uses short pulse, high power RF emissions to damage electronics
- Energy affects the target through antennas or coupling with other electronics to cause hard-kill defeat
Benefits and Features
ThinKom’s unique HPM capabilities strengthen C-UAS and Integrated Air and Missile Defense Architecture
What is High Power Microwave (HPM)?
- Uses short pulse, high power RF emissions to damage electronics
- Energy affects the target through antennas or coupling with other electronics to cause hard-kill defeat
Benefits and Features
ThinKom’s unique HPM capabilities strengthen C-UAS and Integrated Air and Missile Defense Architecture
01
01
Deep magazine and low cost per shot
02
02
Wide effected area, similar to flashlight beam
03
03
Ability to engage swarms /multiple targets at once
04
04
Instantaneously disrupts or destroys electronics
05
05
Unaffected by atmospheric conditions
06
06
Safe to personnel
Patented VICTS
Technology
Our patented VICTS technology combines the efficiency and performance advantages of mechanically steered and electronically scanned arrays. It’s the best of both worlds.