The ATmegaS64M1 microcontroller (MCU) meets the high operating temperature range of −55° C to +125° C. It is the first COTS-to-radiation-tolerant MCU to combine a Controller Area Network (CAN) bus, Digital-to-Analog Converter (DAC) and motor control capabilities. These features make it well suited for a variety of subsystems like remote terminal controllers and data handling functions for satellites, constellations, launchers or critical avionic applications.
We offer 8- and 32-bit MCUs with integrated CAN FD buses that comply with the 11898-1:2015 (ISO CAN FD) standard. These products range from entry-level, radiation-tolerant 8-bit AVR® microcontrollers (MCUs) to high-performance, radiation-hardened Arm® Cortex®-M7 based MCUs that support CAN FD.
Our wide portfolio of radiation-tolerant FPGAs contains devices to hit your power, size, cost and reliability targets to reduce time to launch and minimize cost and schedule risks.
With a wide range of third-party partner CAN IP cores, you can accelerate your design productivity by providing an extensive suite of proven, optimized, and easy-to-use Ethernet IP cores for use with Microchip FPGAs.
Bring communication and connectivity to the next level with our CAN bus solutions technology.