Bringing Technology Innovation to Electronic Warfare (EW) Solutions

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.

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Wide Range of EW Solutions

We connect innovators across the industry with both COTS and custom solutions for EW mission success. Integral EW offerings include system-in-package chips that combine digital and RF along with boards, systems, development platforms and edge processing solutions.

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Monitoring the Spectrum

RF front-ends must evolve as 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.

Also available are a line of RF recording systems with intelligent real-time signal monitoring and detection to scan the entire spectrum or a select region of interest so all critical data can be discovered, amplified and analyzed.

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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, recording systems and servers minimize lag time and simultaneously tackle large amounts of actionable data for quicker analysis and decision-making.

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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 EW products such as our airborne electronic attack emulators that leverage an evolving library of validated threats to provide realistic training to radar operators.

FEATURED PRODUCTS

SCFE6931 6U OpenVPX FPGA Board with Optical I/O

SCFE6931 6U OpenVPX FPGA Board with Optical I/O

2 Versalâ„¢ ACAPs, 48GB DDR4

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RFS1080 RF System-in-Package

RFS1080 RF System-in-Package

Redefining sensor edge processing with trusted, 2.5D packaging technology

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Model 5585 and Model 5586 3U OpenVPX FPGA Boards

Model 5585 and Model 5586 3U OpenVPX FPGA Boards

Virtex UltraScale+, 8, 250 MHz A/Ds, 8 DDC channels, 8 GB, Navigator BSP and FDKs

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RFM3111

RFM3111

SOSA-aligned microwave transceiver

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DCM3220 Digital Transceiver

DCM3220 Digital Transceiver

3U OpenVPX 6.4 GSPS Converter Ultrascale+ FPGA

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LDS3517 3U OpenVPX Single Board Computer

LDS3517 3U OpenVPX Single Board Computer

Intel Xeon D CPU, Xilinx UltraScale FPGA, 16 GB DDR4, PCIe, 2x 10GbE, 35W, and MOTS+

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RFT-3200 Microwave Downconverter

RFT-3200 Microwave Downconverter

Multiple bandwidth microwave downconverter

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DRFM Electronic Attack Subsystems

DRFM Electronic Attack Subsystems

Validated and reprogrammable solutions that emulate near peer EA jamming threats

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DISCOVER MORE

Case Study: Training for Electronic Warfare: Rapid Modernization of Training Systems for Today's Jamming Threats

Case study on portable jamming training system for radar and communications operators for electronic...

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Article: Direct RF Converters and FPGAs Boost Electronic Warfare Applications

Emerging FPGA architectures combine advanced RF converters and high-performance processing engines...

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Microwave Journal: Future of Military Radar Online Panel

Mercury and other industry experts discuss radar innovations, accelerating mission success with...

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White Paper: The Need for Direct RF in an Evolving Defense Environment

This white paper describes next generation direct RF to redefine what’s possible in radar and...

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