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Frontgrade Applied sciences has developed a plastic-encapsulated model of its UT32M0R500 radiation-tolerant microcontroller aimed toward house missions. Constructed round a 32-bit Arm Cortex-M0+ core, the plastic UT32M0R500 is about for flight grade manufacturing in July 2024 after assembly NASA’s PEM INST-001 Degree 2 qualification.
Housed in a 14.5×14.5-mm, 143-pin plastic BGA package deal, the UT32M0R500 provides the identical I/O configuration and options as its ceramic QML counterpart. It tolerates as much as 50 krads of complete ionizing dose (TID) radiation. For design flexibility, the machine combines two impartial CAN 2.0B controllers with mission learn/write flash reminiscence and system-on-ship performance. This integration permits designers to handle board utilization, whereas decreasing each price and complexity.
“The proliferation of satellites for LEO missions is growing the demand for extremely dependable parts with environment friendly SWaP-C traits and radiation assurances,” mentioned Dr. J. Mitch Stevison, president and CEO of Frontgrade Applied sciences. “Including one other plastic machine to our portfolio that’s certified to NASA’s Area PEM Degree 2 strengthens our place as a trusted supplier of excessive reliability, radiation-assured units for crucial house missions.”
The UT32M0R500 is supported by Arm’s Keil suite of embedded growth instruments.
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