Most modern electronic devices include one or more MCUs. Indeed, MCUs are ubiquitous: they’re essential to the operation of cell phones; they’re in refrigerators and washers and most other household ...

In our last session we looked at the basic structure and operation of a microcontroller (MCU). Now let’s look at some of the hardware (peripheral circuitry) required to support the microprocessor. In ...

In this article, I'll be explaining the basics of how microcontrollers work, physically and virtually. First off, microcontrollers are no simple thing, so don't be discouraged if you find it ...

CH32V203 from WCH represents a family of microcontrollers designed to compete with STM32, but based on RISC-V instead of ARM. They run up to ~144 MHz and offer a wide range of peripherals, including ...

This introduction presents an overview of key concepts discussed in this book, which concentrates on a typical and popular ARM® Cortex®-M4 microcontroller unit (MCU) system built by Texas Instruments ...

ATtiny85 is a classic 8-bit microcontroller from Microchip Technology (formerly Atmel), representing “old-school embedded” in its most concentrated form. It is built on the AVR architecture and runs ...

Plus, with software configurable LCD control pins, hardware layout is simplified. Beyond the LCD, the MSP430FR4x and MSP430FR2x microcontrollers also offer unmatched flexibility with up to 16kB ...

With TensorFlow Lite for Microcontrollers, you can run machine learning models on resource-constrained devices. Want to learn more? You can use it with Edge Impulse for speech recognition on an ...