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Learn Arduino Prototyping in 10 days

By : Bosu Roy Choudhuri

4.8 (13)

Learn Arduino Prototyping in 10 days

4.8 (13)

By: Bosu Roy Choudhuri

Overview of this book

This book is a quick, 10-day crash course that will help you become well acquainted with the Arduino platform. The primary focus is to empower you to use the Arduino platform by applying basic fundamental principles. You will be able to apply these principles to build almost any type of physical device. The projects you will work through in this book are self-contained micro-controller projects, interfacing with single peripheral devices (such as sensors), building compound devices (multiple devices in a single setup), prototyping standalone devices (powered from independent power sources), working with actuators (such as DC motors), interfacing with an AC-powered device, wireless devices (with Infrared, Radio Frequency and GSM techniques), and finally implementing the Internet of Things (using the ESP8266 series Wi-Fi chip with an IoT cloud platform). The first half of the book focuses on fundamental techniques and building basic types of device, and the final few chapters will show you how to prototype wireless devices. By the end of this book, you will have become acquainted with the fundamental principles in a pragmatic and scientific manner. You will also be confident enough to take up new device prototyping challenges.

Preface

Preface

What this book covers

What you need for this book

Who this book is for

Conventions

Reader feedback

Customer support

Free Chapter

Boot Camp

Boot Camp

Organization of the chapters

How to use the book

Things you will need to get started

Things you will learn in this book

Summary

The Arduino Platform

The Arduino Platform

Introduction to the Arduino platform

Overview of Arduino prototyping

Setting up the Arduino board

Arduino program structure and execution

Understanding the first Arduino sketch

Compiling, loading and running a sketch

Commonly used in-built C sketch functions

Digital input and output

Analog input and output

Try the following

Things to remember

Summary

Day 1 - Building a Simple Prototype

Day 1 - Building a Simple Prototype

The three LED project

Rationale for using a resistor

The Piezo Buzzer project

Using transistors

Using diodes

LED with a push button

Try the following

Things to remember

Summary

Day 2 - Interfacing with Sensors

Day 2 - Interfacing with Sensors

Types of sensor components

Future inspiration

Try the following

Things to remember

Summary

Day 3 - Building a Compound Device

Day 3 - Building a Compound Device

Compound devices

Building a smoke detector

Smoke detector - Digital I/O method

Smoke detector sketch - Digital I/O method

Smoke detector (analog I/O method)

Smoke detector sketch (analog I/O method)

Local storage with SD card modules

Try the following

Things to remember

Summary

Day 4 - Building a Standalone Device

Day 4 - Building a Standalone Device

Standalone devices

External power supply options

Determining power source capacity

Building a distance measurement device

Distance measurement device circuit

Distance measurement device sketch

Operating the distance measurement device

Finishing touches

Try the following

Things to remember

Summary

Day 5 - Using Actuators

Day 5 - Using Actuators

About actuators

Special considerations while using DC motors

A basic DC motor prototype

Basic DC motor sketch

DC motor speed control - PWM method

Using Arduino interrupts

Interfacing with a servo motor

Future inspiration

Try the following

Things to remember

Summary

Day 6 - Using AC Powered Components

Day 6 - Using AC Powered Components

Using relays with AC powered devices

Part 1 - Simulation of sound activated light bulb controller

Part 2 - Actual prototype for sound activated light bulb controller

Future inspiration - Automatic room lights

Try the following

Things to remember

Summary

Day 7 - The World of Transmitters, Receivers, and Transceivers

Day 7 - The World of Transmitters, Receivers, and Transceivers

Understanding Infrared communications

Hacking into an existing remote control

Building an Infrared receiver device

Building an Infrared transmitter device

Controlling Arduino projects

Transceivers

Try the following

Things to remember

Summary

Day 8 - Short Range Wireless Communications

Day 8 - Short Range Wireless Communications

Building a radio frequency device

Try the following

Things to remember

Summary

Day 9 - Long-Range Wireless Communications

Day 9 - Long-Range Wireless Communications

The GSM module

AT commands

GSM module interfacing with Arduino Uno

GSM module sketch

Forest fire early warning system - Inspiration

Try the following

Things to remember

Summary

Day 10 - The Internet of Things

Day 10 - The Internet of Things

Introduction to IOT

IoT cloud configuration

Edge device setup

Smart retail project inspiration

IOT project considerations

Try the following

Things to remember

Summary

Customer Reviews

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Special considerations while using DC motors

Very small DC motors that have current requirements of less than 30 mA may be run for very short periods (a few seconds) of time by directly powering them from the Arduino pins. This may be done for experimental purposes only; however, in practical settings, directly powering a DC motor from the Arduino pins is not recommended.

Unlike other DC powered components that we have seen so far, the average DC motor requires a lot of current, much more than what can be supplied by an Arduino Uno pin. A separate power source must be used for powering DC motors. Hence grasping the concept of using multiple power sources in a single standalone circuit becomes extremely essential.

Fundamental - Multiple power sources:
When working with devices that require large currents that cannot be supplied by the Arduino board, separate power sources should...

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