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Microchip Announces the Expansion of Its Radiation-Hardened Arm® Microcontroller (MCU) Family for Space Systems

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Microchip Technology has announced the qualification of its SAMRH71 Arm-based microprocessor and SAMRH707 microcontroller, both utilizing Arm Cortex-M7 technology for radiation-hardened space applications. Developed in collaboration with ESA and CNES, these components aim to enhance integration and performance while reducing costs for spacecraft systems. The SAMRH71 operates above 200 Dhrystone MIPS and features multiple high-bandwidth communication interfaces, while the SAMRH707 includes analog functions and achieves over 100 DMIPS. Both devices are critical for advancing space system design.

Positive
  • Qualification of SAMRH71 and SAMRH707 enhances Microchip's product portfolio for space applications.
  • Collaboration with ESA and CNES strengthens credibility in the aerospace sector.
  • High performance: SAMRH71 offers >200 DMIPS, improving processing capabilities.
  • SAMRH707 integrates analog functions, enhancing versatility in applications.
Negative
  • None.

Designers can benefit from another step in the Arm Cortex®-M7-based system-on-chip (SoC) commercial off-the-shelf (COTS) to rad-hard scalable solutions with the addition of embedded analog capabilities

CHANDLER, Ariz., April 27, 2021 (GLOBE NEWSWIRE) -- Deep space initiatives including planetary exploration, orbiter missions and space research require innovative spacecraft system technology providing connectivity and processing. To enable system designers better integration and higher performance while reducing development costs and time to market, COTS technologies and scalable solutions are increasingly used in space applications. Microchip Technology Inc. (Nasdaq: MCHP) today announced the qualification of its SAMRH71 Arm-based microprocessor (MPU) and the availability of the SAMRH707 microcontroller (MCU), both implementing Arm Cortex-M7 SoC radiation-hardened technology.

“Spacecraft and satellites are expanding in complexity to provide commercial and military operators with robust new communication and data capabilities, greater reliability and faster speeds, while the operators continuously seek to reduce cost, size and weight,” said Bob Vampola, associate vice president of Microchip’s aerospace and defense business unit. “In this environment, lowering system development costs while enabling greater capabilities and space system integration are ever more critical.”

Microchip’s SAMRH71 and SAMRH707 devices were developed with the support of the European Space Agency (ESA) and Centre National D’Etudes Spatiales (CNES), the French space agency, to further research and program initiatives.

“The introduction of Arm technologies for space applications opens up new perspectives by enabling the use of the same ecosystem well in place in the consumer and industrial sectors,” said David Dangla, VLSI Components Expert at CNES. “The SAMRH71 is the first Arm Cortex M7-based rad-hard microprocessor available today on the market. It offers developers the simplicity of a single-core processor and the performance of an advanced architecture without having to implement heavy mitigation techniques as is required for non-space components.”

“Integration of digital-to-analog converters and analog-to-digital converters together with a powerful processor core is a key requirement for addressing new challenges in aerospace applications,” said Kostas Marinis, Onboard Computers Engineer at ESA. “With the SAMRH707, Microchip provides easy-to-use capabilities in cost-effective, radiation-hardened MCUs.”

Relying on the standard Arm Cortex-M7 architecture and the same peripherals as automotive and industrial processors, the SAMRH71 and SAMRH707 provide system development cost and schedule optimization by leveraging standard software and hardware tools from the consumer devices.

The SAMRH71, a radiation-hardened variant of Microchip’s COTS automotive SoC technology, provides a combination of space connectivity interfaces along with high-performance architecture with more than 200 Dhrystone MIPS (DMIPS). Designed for high-level radiation performance, extreme temperatures and high reliability, the SAMRH71’s Arm Cortex-M7 core is coupled with high-bandwidth communication interfaces such as SpaceWire, MIL-STD-1553, CAN FD and Ethernet with IEEE 1588 Generalized Precision Time Protocol (gPTP) capabilities. The device is fully ESCC qualified with support from CNES and compliant with MIL standard Class V and Q high-reliability grades, allowing systems to meet strict compliance requirements.

Extending the portfolio of Microchip’s radiation-hardened Arm Cortex-M7-based MCUs, the SAMRH707 device provides analog functions on top of a >100 DMIPS processor unit with Digital Signal Processing (DSP) capabilities, combined with space connectivity interfaces in a small footprint designed for high-level radiation performance, extreme temperatures and high reliability. The SAMRH707 enables a high level of integration embedding Static Random Access Memory (SRAM) and flash memory, high-bandwidth communication interfaces including SpaceWire, MIL-STD-1553 and CAN FD, along with analog functions such as a 12-bit Analog-to-Digital Converter (ADC) and Digital-to-Analog Converter (DAC).

With space-designed MCUs, MPUs and Field Programmable Gate Arrays (FPGAs), Microchip provides critical elements for the development of new systems. Microchip’s total system solutions span space-qualified, radiation-hardened and radiation-tolerant power, timing and clock devices, as well as connectivity and memory solutions.

Development Tools
To speed system design, developers can use the SAMRH71F20-EK and SAMRH707F18-EK evaluation boards. Microchip’s full ecosystem supports its SAMRH707 and SAMRH71 space processors and includes MPLAB® Harmony tools suite and third-party software services for space applications. Both Microchip devices are supported by the company’s Integrated Development Environment (IDE) for developing, debugging and software libraries. The devices are supported in MPLAB Harmony version 3.0.

Availability
The SAMRH71 ceramic package device is available in volume production quantities with QMLQ (SAMRH71F20C-7GB-MQ) and QMLV (SAMRH71F20C-7GB-SV) equivalent qualification levels. For applications requiring high volumes and cost-optimized structures, the SAMRH71 is available for printed circuit board design or evaluation in Ball Grid Array (BGA) plastic packaging. The SAMRH707 in a CQFP164 ceramic package is sampling today (SAMRH707F18A-DRB-E).

For additional information or to purchase products mentioned here, contact a Microchip sales representative, authorized worldwide distributor or visit Microchip’s website.

Resources
High-res images available through Flickr (feel free to publish):
•  Application image: https://www.flickr.com/photos/microchiptechnology/51105116672/
•  Chip image: https://www.flickr.com/photos/microchiptechnology/51105428959/

About Microchip Technology
Microchip Technology Inc. is a leading provider of smart, connected and secure embedded control solutions. Its easy-to-use development tools and comprehensive product portfolio enable customers to create optimal designs which reduce risk while lowering total system cost and time to market. The company’s solutions serve more than 120,000 customers across the industrial, automotive, consumer, aerospace and defense, communications and computing markets. Headquartered in Chandler, Arizona, Microchip offers outstanding technical support along with dependable delivery and quality. For more information, visit the Microchip website at www.microchip.com.

Note: The Microchip name and logo, the Microchip logo and MPLAB are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. All other trademarks mentioned herein are the property of their respective companies.

Editorial Contact:Reader Inquiries:
Cathy Gedvilas1-888-624-7435
(480) 792-4386 
cathy.gedvilas@microchip.com 

FAQ

What new products did Microchip Technology announce on April 27, 2021?

Microchip announced the qualification of the SAMRH71 microprocessor and SAMRH707 microcontroller, both utilizing Arm Cortex-M7 technology for space applications.

How do the SAMRH71 and SAMRH707 improve space systems?

These components provide better integration, high performance, and reduced development costs for spacecraft systems.

What are the key features of the SAMRH71 microprocessor?

The SAMRH71 offers more than 200 Dhrystone MIPS and supports multiple high-bandwidth communication interfaces for robust space connectivity.

What collaboration contributed to the development of these Microchip products?

The SAMRH71 and SAMRH707 were developed with support from the European Space Agency (ESA) and the French space agency CNES.

What market does the SAMRH707 target?

The SAMRH707 targets the aerospace sector, providing analog functions and high performance for space applications.

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