Introduction to Arduino Microcontrollers
Decision Making in C
Functions in C
Storage Classes and Scope
Introduction to Pointers
Using Pointers Effectively
The C Preprocessor
Appendix A - Suppliers
Appendix B - Hardware Components
Über den Autor
Dr. Jack Purdum is an educator with 25 years of teaching experience. He has been an amateur radio ("ham") operator for more than 50 years, holds a US patent for imaging software, has authored 16 programming texts, has numerous journal and magazine articles, and is a winner of numerous teaching awards.
- Introduction to Arduino Microcontrollers
- Arduino C
- Data Types
- Decision Making in C
- Program Loops
- Functions in C
- Storage Classes and Scope
- Introduction to Pointers
- Using Pointers Effectively
- I/O Operations
- The C Preprocessor
- Arduino Libraries
- Appendix A - Suppliers
- Appendix B - Hardware Components
Beginning C for Arduino is written for those who have no prior experience with microcontrollers or programming but would like to experiment and learn both. This book introduces you to the C programming language, reinforcing each programming structure with a simple demonstration of how you can use C to control the Arduino family of microcontrollers. Author Jack Purdum uses an engaging style to teach good programming techniques using examples that have been honed during his 25 years of university teaching.
Beginning C for Arduino will teach you:
The C programming language
How to use C to control a microcontroller and related hardware
How to extend C by creating your own library routines
During the course of the book, you will learn the basics of programming, such as working with data types, making decisions, and writing control loops. You'll then progress onto some of the trickier aspects of C programming, such as using pointers effectively, working with the C preprocessor, and tackling file I/O. Each chapter ends with a series of exercises and review questions to test your knowledge and reinforce what you have learned.
Learn how to program in C, and how to apply that knowledge to the Arduino microcontroller.