Microsemi Achieves MIL-STD-883 Class B Qualification for its RTG4 High-Speed Radiation-Tolerant FPGAs
RTG4 Space Flight Devices are Now Available in Various Screening Flows
ALISO VIEJO, Calif., Nov. 2, 2016 -- Microsemi Corporation (Nasdaq: MSCC), a leading provider of semiconductor solutions differentiated by power, security, reliability and performance, today announced its RTG4™ high-speed signal processing radiation-tolerant field programmable gate arrays (FPGAs) have achieved MIL-STD-883 Class B qualification, meeting the industry's standard for qualifying microelectronic devices suitable for use within aerospace and defense electronic systems. Microsemi also announced the availability of RTG4 space flight models in various screening flows including the B Flow and the Extended Flow (E Flow), providing additional screening options and a higher level of reliability assurance required in many critical space applications.
"Achieving this important qualification strengthens Microsemi's leadership position in space and reinforces our commitment to providing the highest quality and reliability solutions to meet the increasing demands of modern satellite payloads," said Minh Nguyen, Microsemi's senior marketing manager, space and aviation. "Customers can now procure RTG4 FPGAs screened to B Flow per MIL-STD-883 Class B and Microsemi's E Flow, making it easy for customers to select RTG4 for programs requiring the highest performing FPGAs."
Microsemi is a Qualified Manufacturers List (QML)-certified manufacturer of high reliability FPGAs for space applications. Meeting the stringent standards of the MIL-STD-883 Class B qualification paves the way for Microsemi's RTG4 FPGAs to secure QML Class Q and QML Class V qualifications in the near future. Adding Microsemi's E Flow to these devices offers additional testing for space applications requiring a screening level beyond the MIL-STD-883 Class B standard.
To achieve the new qualification, Microsemi's RTG4 FPGAs passed a series of environmental tests to determine resistance to deleterious effects of natural elements and conditions surrounding defense and space operations, as well as mechanical and electrical tests. RTG4 units from multiple wafer lots successfully completed 1,000-hour high temperature life tests, proving the high reliability of RTG4 flash cells in extreme conditions.
RTG4 FPGAs bring new capabilities to the market and help solve satellite signal processing congestion, while having high reliability as shown in the recent MIL-STD-883 Class B qualification. According to Euroconsult's 2015 report titled, "Satellites to Be Built and Launched by 2024," 60 percent more satellites will be launched by 2024 versus the past decade. This increase is driven primarily by civilian government agencies as established space countries replace and expand their in-orbit satellite systems and more countries acquire their first operational satellite systems.
About Microsemi's RTG4 FPGAs and Development Kit
RTG4 FPGAs bring new capabilities to the market and combine a wealth of features with the highest quality and reliability to meet the increasing demands of modern satellite payloads. The devices feature reprogrammable flash configuration, making prototyping easier for customers. RTG4's reprogrammable flash technology offers complete immunity to radiation-induced configuration upsets in the harshest radiation environments, without the configuration scrubbing required with SRAM FPGA technology. RTG4 supports space applications requiring up to 150,000 logic elements, and each includes a LUT4 and a flip-flop with built-in triple module redundancy (TMR). The devices also features total ionizing dose (TID) beyond 100 kilorads, as well as high system performance of up to 300 MHz without single event transient (SET) mitigation.
The RTG4 Development Kit features Microsemi's Libero SoC Design Suite, offering high productivity with its comprehensive, easy to learn, easy to adopt development tools for designing with Microsemi's radiation-tolerant FPGAs. The suite integrates industry standard Synopsys SynplifyPro synthesis and Mentor Graphics ModelSim simulation with best-in-class constraints management, debug capabilities and secure production programming support.
RTG4 is Microsemi's latest development in a long history of radiation-tolerant FPGAs that are found in many NASA and international space programs. For more information, visit http://www.microsemi.com/products/fpga-soc/radtolerant-fpgas/rtg4.
Microsemi Leading Space Innovation for More than Half a Century
With one of the industry's most comprehensive portfolios of space products, Microsemi provides radiation-tolerant (FPGAs, radiation-hardened mixed-signal integrated circuits (ICs), radiation-hardened DC-to-DC converters, precision time and frequency solutions, linear and POL hybrids, custom hybrid solutions, and radiation-hardened discretes including the broadest portfolio of JANS Class diodes and bipolar products. Microsemi is committed to supporting its products throughout the lifetime of its customer programs. The company continues to innovate and expand its portfolio, with recent additions including its LX7730 radiation-tolerant telemetry controller IC providing key functions for sensor monitoring, attitude and payload control, as well as its RTG4™ high-speed signal processing radiation-tolerant FPGA family. The RTG4's reprogrammable flash technology offers complete immunity to radiation-induced configuration upsets in the harshest radiation environments, requiring no configuration scrubbing, unlike SRAM FPGA technology. For more information about Microsemi's space products, visit http://www.microsemi.com/applications/space.
About Microsemi
Microsemi Corporation (Nasdaq: MSCC) offers a comprehensive portfolio of semiconductor and system solutions for aerospace & defense, communications, data center and industrial markets. Products include high-performance and radiation-hardened analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization devices and precise time solutions, setting the world's standard for time; voice processing devices; RF solutions; discrete components; enterprise storage and communication solutions, security technologies and scalable anti-tamper products; Ethernet solutions; Power-over-Ethernet ICs and midspans; as well as custom design capabilities and services. Microsemi is headquartered in Aliso Viejo, California, and has approximately 4,800 employees globally. Learn more at www.microsemi.com.
|
Microsemi Hot IP
Related News
- Microsemi RTG4 FPGAs Become Industry's First High-Speed Signal Processing Radiation-Tolerant FPGAs to Achieve QML Class V Qualification
- Microsemi Announces RTG4 PROTO FPGAs to Enable Lower Cost Prototyping and Design Validation for High-Speed Radiation-Tolerant FPGAs
- Microsemi Announces RTG4 Radiation-tolerant FPGAs For High-speed Signal Processing Applications
- Microsemi Achieves QML Class Q Qualification for RT ProASIC3 FPGAs
- Actel's RTAX-DSP FPGAs Achieve MIL-STD-883 Class B Qualification
Breaking News
- Logic Design Solutions launches Gen4 NVMe host IP
- ULYSS1, Microcontroller (MCU) for Automotive market, designed by Cortus is available
- M31 is partnering with Taiwan Cooperative Bank to launch an Employee Stock Ownership Trust to strengthen talent retention
- Sondrel announces CEO transition to lead next phase of growth
- JEDEC Publishes LPDDR5 CAMM2 Connector Performance Standard
Most Popular
- Arm's power play will backfire
- Alphawave Semi Selected for AI Innovation Research Grant from UK Government's Advanced Research + Invention Agency
- Secure-IC obtains the first worldwide CAVP Certification of Post-Quantum Cryptography algorithms, tested by SERMA Safety & Security
- Weebit Nano continuing to make progress with potential customers and qualifying its technology Moving closer to finalisation of licensing agreements Q1 FY25 Quarterly Activities Report
- PUFsecurity Collaborate with Arm on PSA Certified RoT Component Level 3 Certification for its Crypto Coprocessor to Provide Robust Security Subsystem Essential for the AIoT era
E-mail This Article | Printer-Friendly Page |