You're reading from DIY Microcontroller Projects for Hobbyists

Product type Book

Published in Jul 2021

Publisher Packt

ISBN-13 9781800564138

Pages 320 pages

Edition 1st Edition

Languages

Concepts

Microcontroller

Authors (2):

Miguel Angel Garcia-Ruiz

Pedro Cesar Santana Mancilla

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Table of Contents (16) Chapters

Preface

1. Chapter 1: Introduction to Microcontrollers and Microcontroller Boards

2. Chapter 2: Software Setup and C Programming for Microcontroller Boards

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

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What this book covers

This book covers technical topics on the programming of the Blue Pill and Curiosity Nano microcontroller boards using C++, including descriptions of commonly used sensors and how they are electronically connected to the microcontroller boards. The book consists of 14 chapters, as follows:

Chapter 1, Introduction to Microcontrollers and Microcontroller Boards, introduces the reader to microcontroller technology and explains how to install the integrated development environments (IDEs) necessary for programming the Blue Pill and Curiosity Nano microcontroller boards that are used in the book.

Chapter 2, Software Setup and C Programming for Microcontroller Boards, provides an overview of C and an introduction to Blue Pill and Curiosity Nano microcontroller board programming, which are used for coding examples in most of the book chapters.

Chapter 3, Turning an LED On or Off Using a Push Button, explains how to use push buttons with microcontroller boards to start a process, such as turning an LED on or off, and how electrical noise from a push button can be minimized.

Chapter 4, Measuring the Amount of Light with a Photoresistor, focuses on how to connect a photoresistor to the Blue Pill and Curiosity Nano microcontroller boards to measure the amount of light within an environment. The result is shown on red, green, and blue LEDs also connected to those boards.

Chapter 5, Humidity and Temperature Measurement, describes how to connect a practical DHT11 sensor to measure the humidity and temperature of an environment, how to display its values on a computer, and also how to use the easy-to-use LM35 temperature sensor, showing its values on two LEDs.

Chapter 6, Morse Code SOS Visual Alarm with a Bright LED, shows how to code the Blue Pill and Curiosity Nano microcontroller boards to display a Morse code SOS signal using a high-intensity LED, increasing its visibility. This chapter also explains how to use a transistor as a switch to increase the LED's brightness.

Chapter 7, Creating a Clap Switch, describes to the reader how to make an electronic wireless control using sounds (claps). When two claps are detected by a microphone connected to a microcontroller board, a signal will be transmitted to activate a device connected to it and an LED will light up.

Chapter 8, Gas Sensor, introduces the reader to the use of a sensor connected to a microcontroller board that reacts with the presence of a specific gas in an environment.

Chapter 9, IoT Temperature-Logging System, shows the reader how to build an Internet of Things (IoT) temperature logger using the Blue Pill microcontroller board and a temperature sensor. Its data will be transmitted via Wi-Fi using an ESP8266 module.

Chapter 10, IoT Plant Pot Moisture Sensor, explains how to build a digital device with a microcontroller board and a moisture sensor to monitor a plant pot's soil and determine if it needs water, sending an alert wirelessly to notify the user if it's too dry.

Chapter 11, IoT Solar Energy (Voltage) Measurement, continues applying IoT software running on a microcontroller board using the ESP8266 WiFi module to measure voltage obtained from a solar panel through a sensor. The application will send sensor data to the internet using the ESP8266 WiFi signal.

Chapter 12, COVID-19 Digital Body Temperature Measurement (Thermometer), looks at an interesting project to develop a contactless thermometer using an infrared temperature sensor. Its measured temperature data is sent through the I2C protocol to a Blue Pill microcontroller board, displaying it on an I2C LCD.

Chapter 13, COVID-19 Social Distancing Alert, explains how to program a microcontroller board that measures a distance of two meters between two or more people. Within the new normal of COVID-19, we need to maintain social distance due to the higher risk of catching the virus if you are close to someone who is infected. The World Health Organization recommends keeping a distance of at least two meters; this rule varies depending on the country, but it is generally accepted that a distance of two meters is safe.

Chapter 14, COVID-19 20-Second Hand Washing Timer, contains a practical project to make a timer running on a Blue Pill microcontroller board that ensures that people wash their hands for twenty seconds, as per World Health Organization recommendations, to prevent COVID-19 infection. This project shows the time count on a liquid-crystal display (LCD). An ultrasonic sensor detects if the user is waving at it to initiate the count.