industry news
Subscribe Now

Mercury Introduces New Small Form Factor Digital Signal Processing Module Powered by Altera Agilex FPGAs

ANDOVER, Mass., Sept. 16, 2024 (GLOBE NEWSWIRE) — Mercury Systems, Inc. (NASDAQ: MRCY, www.mrcy.com), a technology company that delivers mission-critical processing power to the edge, today announced the expansion of its portfolio of Direct RF digital signal processing products that use Altera™ Agilex FPGAs to detect and process emissions from a wide portion of the electromagnetic spectrum.

Direct RF components and modules directly digitize radio frequency signals at the antenna signal frequency, eliminating the analog signal down conversion stages required by legacy hardware. This approach requires extremely fast converters, high-bandwidth digital data links, and powerful real-time digital signal processing. The results are reductions in size, weight, power, cost, and latency that can benefit a variety of radar, communications, electronic warfare, SIGINT, and industrial applications.

In January, Mercury introduced the DRF2580, a playing card-size system-on-module (SOM) based on the Intel Agilex 9 SoC FPGA AGRW014 that converts between analog and digital signals at 64 Gigasamples per second. The company now offers the DRF4580L, a small-form-factor module that incorporates the DRF2580 SOM within a ruggedized, conduction-cooled enclosure that is ready for defense applications. The product comes with Mercury’s Navigator® Board Support Package and FPGA Design Kit that allow customers to develop custom IP for the module that can be installed within hours. Mercury delivered the first DRF4580L unit to a customer in August.

“We continue to innovate to enhance the Mercury Processing Platform and make the latest commercial technologies available to the defense industrial base,” said Ken Hermanny, Mercury’s Vice President of Signal Technologies. “With a growing portfolio of products that make Direct RF spectrum digitization possible, our customers now have more options to deploy this technology to capture, process, and exploit signals at the edge.”

“Altera Agilex 9 SoC FPGAs deliver high-performance RF digitization capabilities in SWAP constrained environments that can now be placed closer to the sensor,” said John Sotir, Senior Director, Military Aerospace and Government Business and State-of-the-Art Heterogeneous Integration Packaging (SHIP) at Altera, an Intel Company. “By collaborating with Mercury, a trusted partner in transforming commercial technology for aerospace and defense applications, we are able to deliver this latest technology to our customers developing future radar, electronic warfare, and mission-critical applications.”

The DRF4580L features:

  • 6.4″ x 6.4″ x 1.7″ form factor
  • Four 64 GSPS A/D and D/A converters
  • Altera Agilex 9 SoC FPGA AGRW014
  • 16 GB DDR4 SDRAM
  • Four 100 GigE optical interfaces
  • Ruggedized and conduction-cooled options
  • Optional fan kit for table-top development
  • FPGA design kit for custom IP development
  • Board Support Package (BSP) for software development

Mercury will be showcasing the DRF4580L at booth 1642 at the Air, Space & Cyber Conference in National Harbor, Md., September 16-18.

Mercury Systems – Innovation that matters®
Mercury Systems is a technology company that delivers mission-critical processing power to the edge, making advanced technologies profoundly more accessible for today’s most challenging aerospace and defense missions. The Mercury Processing Platform allows customers to tap into innovative capabilities from silicon to system scale, turning data into decisions on timelines that matter. Mercury’s products and solutions are deployed in more than 300 programs and across 35 countries, enabling a broad range of applications in mission computing, sensor processing, command and control, and communications. Mercury is headquartered in Andover, Massachusetts, and has 23 locations worldwide. To learn more, visit mrcy.com. (Nasdaq: MRCY)

Leave a Reply

featured blogs
Dec 19, 2024
Explore Concurrent Multiprotocol and examine the distinctions between CMP single channel, CMP with concurrent listening, and CMP with BLE Dynamic Multiprotocol....
Dec 20, 2024
Do you think the proton is formed from three quarks? Think again. It may be made from five, two of which are heavier than the proton itself!...

Libby's Lab

Libby's Lab - Scopes Out Silicon Labs EFRxG22 Development Tools

Sponsored by Mouser Electronics and Silicon Labs

Join Libby in this episode of “Libby’s Lab” as she explores the Silicon Labs EFR32xG22 Development Tools, available at Mouser.com! These versatile tools are perfect for engineers developing wireless applications with Bluetooth®, Zigbee®, or proprietary protocols. Designed for energy efficiency and ease of use, the starter kit simplifies development for IoT, smart home, and industrial devices. From low-power IoT projects to fitness trackers and medical devices, these tools offer multi-protocol support, reliable performance, and hassle-free setup. Watch as Libby and Demo dive into how these tools can bring wireless projects to life. Keep your circuits charged and your ideas sparking!

Click here for more information about Silicon Labs xG22 Development Tools

featured chalk talk

Shift Left Block/Chip Design with Calibre
In this episode of Chalk Talk, Amelia Dalton and David Abercrombie from Siemens EDA explore the multitude of benefits that shifting left with Calibre can bring to chip and block design. They investigate how Calibre can impact DRC verification, early design error debug, and optimize the configuration and management of multiple jobs for run time improvement.
Jun 18, 2024
46,571 views