Book Image

Practical Python Programming for IoT

By : Gary Smart
Book Image

Practical Python Programming for IoT

By: Gary Smart

Overview of this book

The age of connected devices is here, be it fitness bands or smart homes. It's now more important than ever to understand how hardware components interact with the internet to collect and analyze user data. The Internet of Things (IoT), combined with the popular open source language Python, can be used to build powerful and intelligent IoT systems with intuitive interfaces. This book consists of three parts, with the first focusing on the "Internet" component of IoT. You'll get to grips with end-to-end IoT app development to control an LED over the internet, before learning how to build RESTful APIs, WebSocket APIs, and MQTT services in Python. The second part delves into the fundamentals behind electronics and GPIO interfacing. As you progress to the last part, you'll focus on the "Things" aspect of IoT, where you will learn how to connect and control a range of electronic sensors and actuators using Python. You'll also explore a variety of topics, such as motor control, ultrasonic sensors, and temperature measurement. Finally, you'll get up to speed with advanced IoT programming techniques in Python, integrate with IoT visualization and automation platforms, and build a comprehensive IoT project. By the end of this book, you'll be well-versed with IoT development and have the knowledge you need to build sophisticated IoT systems using Python.
Table of Contents (20 chapters)
1
Section 1: Programming with Python and the Raspberry Pi
6
Section 2: Practical Electronics for Interacting with the Physical World
9
Section 3: IoT Playground - Practical Examples to Interact with the Physical World

Summary

In this chapter, we learned how to switch things on and off. We commenced by briefly reviewing a typical relay driver circuit, before learning how to measure the current requirements of a DC motor, LED, and relay using a multimeter. Next, we discussed the properties of an optocoupler and learned at low to use it as a digital switch. Then, we discussed MOSFETs and discovered how to use them as a switch and for motor speed control using PWM.

The information, circuits, and exercises you have learned in this chapter will help you to make informed decisions and make the necessary calculations and measurements to select suitable components and create circuits that can be used to switch devices on and off and other loads that demand more current and higher voltages that can be sourced safely from a Raspberry Pi pin.

Our approach to this chapter was to incrementally explore and build a relay driver circuit, which provides you with a practical example of how and why switching...