A practical guide to building PIC and STM32 microcontroller board applications with C and C++ programming
- Discover how to apply microcontroller boards in real life to create interesting IoT projects
- Create innovative solutions to help improve the lives of people affected by the COVID-19 pandemic
- Design, build, program, and test microcontroller-based projects with the C and C++ programming language
We live in a world surrounded by electronic devices, and microcontrollers are the brains of these devices. Microcontroller programming is an essential skill in the era of the Internet of Things (IoT), and this book helps you to get up to speed with it by working through projects for designing and developing embedded apps with microcontroller boards.
DIY Microcontroller Projects for Hobbyists are filled with microcontroller programming C and C++ language constructs. You’ll discover how to use the Blue Pill (containing a type of STM32 microcontroller) and Curiosity Nano (containing a type of PIC microcontroller) boards for executing your projects as PIC is a beginner-level board and STM-32 is an ARM Cortex-based board. Later, you’ll explore the fundamentals of digital electronics and microcontroller board programming. The book uses examples such as measuring humidity and temperature in an environment to help you gain hands-on project experience. You’ll build on your knowledge as you create IoT projects by applying more complex sensors. Finally, you’ll find out how to plan for a microcontroller-based project and troubleshoot it.
By the end of this book, you’ll have developed a firm foundation in electronics and practical PIC and STM32 microcontroller programming and interfacing, adding valuable skills to your professional portfolio.
What you will learn
- Get to grips with the basics of digital and analog electronics
- Design, build, program, and test a microcontroller-based system
- Understand the importance and applications of STM32 and PIC microcontrollers
- Discover how to connect sensors to microcontroller boards
- Find out how to obtain sensor data via coding
- Use microcontroller boards in real life and practical projects