About the US GAO Senmei RTG4 FPGA device and development tools

Microsemi Corpora TIon (NYSE: NYC) issued RTG4TM high-speed signal processing, radiation-tolerant programmable logic device (FPGA) engineering samples in ceramic quad flat package (CQFP). The new CQ352 package meets the CQFP industry standard for space applications and features 352 pins, which is more cost-effective to integrate than a larger pin count package and is the only one used in high-speed, radiation-resistant FPGA devices of the same class. CQFP package.

As an industry standard, CQFP packages are known for their ability to support a wide range of space flight applications, primarily because of their lower cost integration and proven assembly technology, making CQFP packages easier to install than ceramic column grid array (CCGA) packages. On a printed circuit board (PCB). As a result, CQFP is popular with space customers around the world, especially for its meticulous package installation, inspection and testing processes.

Minh Nguyen, senior marketing manager for the US GAO Space Market, said: "We are pleased to introduce one of the most popular space flight application packages into the Microsemi RTG4 FPGA family of devices and provide customers with cost-effectiveness over higher pin count packages. Integration. We have added this package beyond the existing CG1657, which not only enhances the overall package portfolio of these devices, but also demonstrates our long-term commitment to delivering innovative solutions that not only give customers confidence to evaluate and design While meeting stringent industry specifications."

The RTG4 FPGA device in the CQ352 package is ideal for control applications that do not require high input/output counts, including satellites, space launch vehicles, planetary railcars and landers, and deep space probes, as well as other applications that require frequent switching and high temperature cycling. This may pose a challenge to the CCGA package. According to Euroconsult's report entitled "Satellites built and launched by 2024", satellites launched by 2024 will increase by 60% compared to the past decade. The main drivers of growth come from civil and government agencies, as mature space nations are replacing and expanding their orbiting satellite systems, and more countries plan to launch their first operational satellite systems.

Microsemi's RTG4 FPGA device in CQ352 package features 166 3.3V general purpose I/O, four embedded SpaceWire clock and data recovery circuits, and four high-speed serial/deserializer (SerDes) transceivers. To demonstrate the External Physical Coding Sublayer (EPCS) or the External Component Fast Interconnect (PCIe) protocol. In addition, their look-up tables (LUTs), flip-flops, digital signal processing (DSP) blocks, and static random access memory (SRAM) modules are the same number of existing CCGA packages with 1,657 pins.

About Microsemi's RTG4 FPGA Devices and Development Tools

RTG4 FPGA devices bring new capabilities to the market and combine a rich set of features to meet the highest quality and reliability requirements of the growing demand for modern satellite payloads. These devices feature a reprogrammable, non-volatile flash structure that greatly simplifies customer prototyping. The reconfigurable flash technology of the RTG4 device provides complete immunity to radiation in the most demanding radiation environments, avoiding configuration change detection and FPGA re-refresh required by SRAM FPGA technology. RTG4 devices support space applications up to 150,000 logic cells, each of which includes a LUT4 and a flip-flop with built-in triple-module redundancy (TMR), which also includes a total anti-ionization dose (TID) of over 100 Thousand rad, system performance up to 300 MHz does not require additional circuitry to suppress single event flip (SET).

The RTG4 development tool uses Microsemi's high-productivity to provide high productivity through a comprehensive, easy-to-learn, easy-to-use Microsemi's Radiation-resistant FPGA device development tool that integrates industry-standard Synopsys SynplifyPro synthesis and Mentor Graphics ModelSim simulation capabilities to deliver the industry's best Constraint management, debugging capabilities, and secure production programming support.

For many years, Microsemi has been developing products for the National Aeronautics and Space Administration (NASA) and numerous international space projects. The RTG4 device is the latest achievement.

Mei Gaosenmei leads space innovation for sixty years

Microsemi has the industry's most comprehensive portfolio of space products, providing radiation-tolerant FPGAs, radiation-tolerant mixed-signal ICs, radiation-tolerant DC-DC converters, precision timing and frequency solutions, linear and POL hybrid circuits, and custom hybrid solutions. Radiation resistant discrete devices, including the broadest portfolio of JANS Class diodes and bipolar products. Microsemi is committed to supporting products throughout the product lifecycle of a customer's project. The company will continue to innovate and expand its product portfolio, adding the LX7730 radiation-tolerant telemetry controller IC, the new LX7720 radiation-tolerant power driver IC with rotation and position sensing, and the RTG4TM high-speed signal processing radiation-tolerant FPGA family. RTG4's reprogrammable flash technology provides comprehensive resistance to radiation-induced configuration flip immunity in the most demanding radiation environments, unlike SRAM FPGA technology, which eliminates the need for configuration refresh.

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