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DIY Microcontroller Projects for Hobbyists

You're reading from   DIY Microcontroller Projects for Hobbyists The ultimate project-based guide to building real-world embedded applications in C and C++ programming

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Product type Paperback
Published in Jul 2021
Publisher Packt
ISBN-13 9781800564138
Length 320 pages
Edition 1st Edition
Languages
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Authors (2):
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Miguel Angel Garcia-Ruiz Miguel Angel Garcia-Ruiz
Author Profile Icon Miguel Angel Garcia-Ruiz
Miguel Angel Garcia-Ruiz
Pedro Cesar Santana Mancilla Pedro Cesar Santana Mancilla
Author Profile Icon Pedro Cesar Santana Mancilla
Pedro Cesar Santana Mancilla
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Toc

Table of Contents (16) Chapters Close

Preface 1. Chapter 1: Introduction to Microcontrollers and Microcontroller Boards 2. Chapter 2: Software Setup and C Programming for Microcontroller Boards FREE CHAPTER 3. Chapter 3: Turning an LED On or Off Using a Push Button 4. Chapter 4: Measuring the Amount of Light with a Photoresistor 5. Chapter 5: Humidity and Temperature Measurement 6. Chapter 6: Morse Code SOS Visual Alarm with a Bright LED 7. Chapter 7: Creating a Clap Switch 8. Chapter 8: Gas Sensor 9. Chapter 9: IoT Temperature-Logging System 10. Chapter 10: IoT Plant Pot Moisture Sensor 11. Chapter 11: IoT Solar Energy (Voltage) Measurement 12. Chapter 12: COVID-19 Digital Body Temperature Measurement (Thermometer) 13. Chapter 13: COVID-19 Social-Distancing Alert 14. Chapter 14: COVID-19 20-Second Hand Washing Timer 15. Other Books You May Enjoy

Connecting an ultrasonic sensor to the microcontroller board

Before moving ahead, we need to learn about the functionality of the HC-SR04 ultrasonic sensor, how to interface it with the STM32 Blue Pill, and how to write a program to measure the distance between the sensor and another object.

This sensor emits an ultrasonic wave. When this wave collides with an object, the wave is reflected and received by the sensor. When the reflected signal is received, the sensor can calculate the time it took to be reflected, and thus the distance of the collision object can be measured.

The sensor can be seen in the following screenshot:

Figure 13.5 – Ultrasonic sensor

Figure 13.5 – Ultrasonic sensor

This sensor board connects to the STM32 Blue Pill microcontroller board with four pins, outlined as follows:

  • Trigger: This pin enables the ultrasonic wave.
  • Echo: This pin receives the reflected wave.
  • VCC: The pin to supply power to the sensor (5V).
  • GND: Ground connection...
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