Maintaining spectrum dominance requires the latest in trusted technology
Our solutions power the most advanced electronic warfare systems
Advanced electronic warfare (EW) systems are designed to protect against electronic attack (EA) deceive radar, and track enemy transmissions. Ensuring full access to the electronic spectrum while blocking adversaries requires innovative technology. And mission success hinges on developing broadband, AI-capable technology and the adoption of open standards. From RF to digital, Mercury components, subsystems and solutions are designed to deliver innovation to EW solutions and systems.
CHALLENGE
Maintaining spectrum control requires the latest in trusted technology
SOLUTION
Deploy the latest technology to keep up with evolving EW threats and challenges. Mercury develops broadband RF modules, chip-scale digitization solutions, AI-enabled processing boards, and application-ready platforms that power the next generation of electronic warfare systems. We combine commercial technology and proven expertise to deliver innovation to the spectrum.
Delivering Electronic Warfare Techniques
Digital RF Memory (DRFM) modules deliver the real-time, low-latency processing to the spectrum necessary to implement complex EW techniques across a range of platforms. Mercury incorporates leading-edge DRFM technology across a wide range of products such as our airborne electronic attack emulators that leverage an evolving library of validated threats to provide realistic training to radar operators.
Monitoring the Spectrum
RF front-ends must evolve as s signals increase in complexity. We've developed a line of configurable frequency converters with dynamically adjustable bandwidths so a single microwave tuner can support multiple offensive and defensive missions.
Processing SIGINT
The proliferation of sensors, growing data loads and deep-learning neural networks continue to increase computational demands on hardware platforms. Serving as the processing backbone for multiple EW and SIGINT platforms, our rugged subsystems and servers minimize lag time and simultaneously tackle large amounts of actionable data for quicker analysis and decision-making.
FEATURED PRODUCTS
RFS1080 RF System-in-Package
Redefining sensor edge processing with trusted, 2.5D packaging technology
RFM3111 microwave transceiver
SOSA-aligned microwave transceiver
DCM3220 Digital Transceiver
3U OpenVPX 6.4 GSPS Converter Ultrascale+ FPGA
LDS3517 Single Board Computer
3U OpenVPX SBC powered by Xeon D processor with FPGA coprocessing
RFT-3200 Microwave Downconverter
Multiple bandwidth microwave downconverter
Airborne EA Training Solutions
Realistic electronic warfare threat-emulation subsystems
Reduce Program Costs with Radar Environment SimulatorsIncrease ReliabilityAccelerate Technology Adoption from RF to Digital
SPECTRUM SOLUTIONS
Reduce Program Costs with Radar Environment Simulators
Testing radar and EW capabilities on the range is expensive, costing tens of thousands of dollars per hour. Our advanced radar environment simulators allow you to test complex functionality on the ground, minimizing flight testing and reducing total program development time, cost and risk.
SPECTRUM SOLUTIONS
Increase System Performance with Direct Digitization
Most high-frequency systems must rely on analog RF modules to prepare the signal to be digitized, introducing delays and variability. However, with direct digitization technology, costly, complex, and slower analog RF modules are not needed.
OPEN SYSTEM ARCHITECTURES
Accelerate Technology Adoption from RF to Digital
At today’s pace of high-speed technology development, the traditional approach of custom-designed components, modules and subsystems is too slow. By adopting a modular open systems architecture approach (MOSA), we deliver the latest capabilities at the speed of relevance.