You're reading from Bare-Metal Embedded C Programming Develop high-performance embedded systems with C for Arm microcontrollers

Product type Paperback

Published in Sep 2024

Publisher Packt

ISBN-13 9781835460818

Length 438 pages

Edition 1st Edition

Languages

Tools

ARM Cortex

Concepts

Application Development

Author (1):

Israel Gbati

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Table of Contents (21) Chapters

Preface

1. Chapter 1: Setting Up the Tools of the Trade FREE CHAPTER

2. Chapter 2: Constructing Peripheral Registers from Memory Addresses

3. Chapter 3: Understanding the Build Process and Exploring the GNU Toolchain

4. Chapter 4: Developing the Linker Script and Startup File

5. Chapter 5: The “Make” Build System

6. Chapter 6: The Common Microcontroller Software Interface Standard (CMSIS)

7. Chapter 7: The General-Purpose Input/Output (GPIO) Peripheral

8. Chapter 8: System Tick (SysTick) Timer

9. Chapter 9: General-Purpose Timers (TIM)

10. Chapter 10: The Universal Asynchronous Receiver/Transmitter Protocol

11. Chapter 11: Analog-to-Digital Converter (ADC)

12. Chapter 12: Serial Peripheral Interface (SPI)

13. Chapter 13: Inter-Integrated Circuit (I2C)

14. Chapter 14: External Interrupts and Events (EXTI)

15. Chapter 15: The Real-Time Clock (RTC)

16. Chapter 16: Independent Watchdog (IWDG)

17. Chapter 17: Direct Memory Access (DMA)

18. Chapter 18: Power Management and Energy Efficiency in Embedded Systems

19. Index

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Summary

In this chapter, we learned about the UART protocol, a fundamental communication method that’s widely used in embedded systems. We began by discussing the importance of communication protocols in embedded systems, emphasizing how UART, alongside SPI and I2C, facilitates seamless communication between microcontrollers and peripheral devices.

Next, we provided a detailed overview of the UART protocol while covering its operational principles, including how data is transmitted asynchronously using start and stop bits, and the role of parity in error checking. We also discussed how the baud rate, a critical aspect of UART communication, is configured to ensure synchronized data transfer between devices.

Then, we delved into the specifics of the STM32 UART peripheral, examining key registers such as the Status Register (USART_SR), Data Register (USART_DR), Baud Rate Register (USART_BRR), and Control Register 1 (USART_CR1). Understanding these registers is essential...

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Table of Contents (21) Chapters

Summary

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Table of Contents (21) Chapters

Summary

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