Empowers RF’s module and rack-mounted amplifiers incorporate state-of-the-art GaN, LDMOS, MOSFET, GaAsFET and bipolar device technologies.
Empower is a major leader in providing leading edge, “Best in Class” power amplifiers for command and control communications for the warfighter, civilian and homeland network applications.
Our remarkable hardware and software architecture is advanced beyond any other amplifier supplier and offers break through capabilities not seen before in EW systems.
RF Power Modules
Empower offers a full line of basic function, module level building blocks for customers interested in integrating only power amplifier stages in their design. These modules are used in a variety of applications as either a standalone PA or as an integral part of a customer’s higher level systems design. Designed for RF and mechanical “ease of use”, these products are full gain, self contained amplifiers with control and protection features that insure over temperature performance and reliable operation. Broadband and band specific variations of these products are available up to 6 GHz and in various gain / output power configurations. The full array of frequency and power combinations available with these building block modules can be viewed by accessing the Module tabs above.
Complex module solutions, incorporating customer specific requirements for switching, filters, multiple channels and extreme bandwidth, have been designed and delivered by Empower RF Systems for demanding applications in communications and electronic attack.
Scalable Liquid Cooled Solid-State Amplifiers
A unique design architecture from Empower RF Systems is yielding unprecedented performance and scalability for liquid cooled SSPA’s delivering hundreds of kilowatts of pulse and CW power. This breakthrough design is being fielded using both LDMOS and GaN on SiC devices for user applications that include EW, Radar, Directed Energy, Satcom, EMC and RF Product Testing.
Features of Liquid Cooled Systems
- Liquid Cooled Scalable Power Architecture in CW or Pulse Configurations
- No Single Point of RF Active Device Failure
- Distributed Power Supplies
- Full Frontal “on air” Hot Swapping
- System will Remain Operational and “On the Air” with Graceful Power Degradation
