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BBC Micro:bit in Practice

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

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Product type Paperback
Published in Dec 2022
Publisher Packt
ISBN-13 9781804610121
Length 292 pages
Edition 1st Edition
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Authors (3):
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Sandeep Saini Sandeep Saini
Author Profile Icon Sandeep Saini
Sandeep Saini
Ashwin Pajankar Ashwin Pajankar
Author Profile Icon Ashwin Pajankar
Ashwin Pajankar
Abhishek Sharma Abhishek Sharma
Author Profile Icon Abhishek Sharma
Abhishek Sharma
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Table of Contents (22) Chapters Close

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 21. Other Books You May Enjoy

PWM using an RGB LED

In the previous section, we observed the use of write_analog() for PWM signal generation. The same principle can be employed to achieve different color intensities through an RGB LED. An RGB LED differs from the usual LED in multiple ways; the first difference is the number of pins; in a standard LED, two pins are provided, whereas an RGB LED has four pins. In Figure 9.10, an RGB LED is depicted. It is visible that an RGB LED has red, green, and blue pins, which indicate the colors, and a positive pin connects to the ground:

Figure 9.10 – An RGB LED (courtesy: https://en.wikipedia.org/wiki/Light-emitting_diode)

The most extended pin, as shown in Figure 9.10, indicates an anode. By providing the PWM signal, the LED will glow in various colors. Hence, an RGB LED is used in applications where several light hues are required from a single LED. As we have done in the case of handling the potentiometer and servo motor, we are now going...

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