Epson Launches Power-efficient 32-bit Microcontroller with an Arm®Cortex®-M0+ Processor

Epson will add a new microcontroller unit (MCU) to the company's S1C31W series of MCUs. The S1C31W73 has an Arm®Cortex®-M0+ processor and on-chip Flash memory. Epson plans to produce 200,000 units per month when volume production begins in July 2020.

The number of functions provided in electronic equipment has been growing in recent years, and program sizes are increasing, as the amount of information is displayed. Meanwhile, equipment manufacturers need either maintain or further shrink the size of their products, making it essential to reduce the number of parts and save board space.

To solve these problems, Epson developed the S1C31W73, a single-chip microcontroller that has 384 kB of built-in Flash memory and a liquid crystal driver that can directly drive a display of up to 2,560 dots.
 
By combining Epson's strong microcontroller display driver technology with the proven Arm®Cortex®-M0+ processor, Epson will help customers to increase the functionality and performance of their products while also reducing their development burden.

The S1C31W73 offer a wide range of built-in peripherals, including a USB 2.0 full-speed device controller, real-time clock (RTC), various timers, an A/D converter, and a temperature sensor. The low current consumption of this MCU-1.2 µA in RTC mode and a driving current of 150 µA/MHz-makes it ideal for extending the battery life of wearable products and for office equipment that can communicate with PCs over USB. The S1C31W73 can also be used in industrial equipment and measuring instruments because it operates at temperatures up to 105℃ (the highest operating temperature yet for an Epson MCU) and at voltages between 1.8 V and 5.5 V.

Epson is committed helping its customers to improve the performance of their products with solutions that leverage Epson's efficient, compact, and precision technologies.
 
For a PDF attachment detailing the specifications of the new MCU click here