Microchip Announces the Expansion of Its Radiation-Hardened Arm® Microcontroller (MCU) Family for Space Systems
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 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.
Microchip expands radiation-hardened Arm MCU family for space systems Microchip has announced the qualification of its SAMRH71 Arm-based microprocessor (MPU) and the availability of the SAMRH707 MCU, both implementing Arm Cortex-M7 SoC radiation-hardened technology.
With a growing number of deep space initiatives including planetary exploration, orbiter missions and space research there s a growing requirement for innovative spacecraft system technology capable of providing connectivity and processing capabilities.
âSpacecraft 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,â said Bob Vampola, associate VP of Microchipâs aerospace and defense business unit. âIn this environment, lowering system development costs while enabling greater cap
Microchip Expands Radiation-Hardened Arm Microcontroller (MCU) Family for Space Systems
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. 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
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EvoNet selects OcNOS to replace legacy technology and to be a central role in their network expansion within South Africa and beyond
SANTA CLARA, Calif.–(BUSINESS WIRE)–IP Infusion, a leading provider of network disaggregation solutions for telecom and data communications operators, today announced that EvoNet, an Internet Service Provider in South Africa, has selected its OcNOS® network operating system as their preferred technology for future network expansion in South Africa and across the African continent, replacing existing legacy technologies.
In 2020, EvoNet decided to invest in disaggregated network technology to support their future growth throughout South Africa and the rest of the African continent. As a tier 1 operator, they needed a partner with a proven track record and a powerful, feature-rich software stack for their Edgecore Network’s routing and switching network. Bandwidth demands have scaled substantially over the years, but 2020 brought about unexpected