You're reading from BBC Micro:bit in Practice A hands-on guide to building creative real-life projects with MicroPython and the BBC Micro:bit

Product type Paperback

Published in Dec 2022

Publisher Packt

ISBN-13 9781804610121

Length 292 pages

Edition 1st Edition

Tools

Micro:bit

Concepts

Embedded Systems

Authors (3):

Sandeep Saini

Ashwin Pajankar

Abhishek Sharma

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Table of Contents (22) Chapters

Preface

1. Part 1: Getting Started with the BBC Micro:bit

2. Chapter 1: Introduction to the BBC Micro:bit FREE CHAPTER

3. Chapter 2: Setting Up the Micro:bit and Using Code Editors

4. Chapter 3: Python Programming Essentials

5. Chapter 4: Advanced Python

6. Part 2: Programming Hardware with MicroPython

7. Chapter 5: Built-in LED Matrix Display and Push Buttons

8. Chapter 6: Interfacing External LEDs

9. Chapter 7: Programming External Push Buttons, Buzzers, and Stepper Motors

10. Part 3: Filesystems and Programming Analog I/O

11. Chapter 8: Exploring the Filesystem

12. Chapter 9: Working with Analog Input and PWM

13. Part 4: Advanced Hardware Interfacing and Applications

14. Chapter 10: Working with Acceleration and Direction

15. Chapter 11: Working with NeoPixels and a MAX7219 Display

16. Chapter 12: Producing Music and Speech

17. Chapter 13: Networking and Radio

18. Chapter 14: Advanced Features of the Micro:bit

19. Chapter 15: Wearable Computing and More Programming Environments

20. Index

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21. Other Books You May Enjoy

Micro:bit analog pins

Besides having onboard sensors, micro: bit also facilitates integrating sensors using pins. The sensors can be connected as an input device (i.e., to feed the data into the Micro:bit – for example, a temperature sensor) or as an output device (i.e., the data or command coming from the Micro:bit to affect the outside world, such as operating a motor). The analog signal plays a vital role in handling the sensors. In Figure 9.1, the Micro:bit board is presented, showing the analog pins – that is, P0, P1, P2, P4, and P10. These pins are used to handle analog inputs:

Figure 9.1 – Analog pins in Micro:bit (courtesy: https://microbit-micropython.readthedocs.io/en/v1.0.1/pin.html)

The analog signals are continuous signals represented in the form of sinusoidal waves with a continuous range of values. By contrast, digital signals are represented by square waves and have values of 1 or 0 (high or low). The pin selection is based...

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You're reading from BBC Micro:bit in Practice A hands-on guide to building creative real-life projects with MicroPython and the BBC Micro:bit

Table of Contents (22) Chapters

Micro:bit analog pins

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Authors (3)

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