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Robotics at Home with Raspberry Pi Pico

You're reading from   Robotics at Home with Raspberry Pi Pico Build autonomous robots with the versatile low-cost Raspberry Pi Pico controller and Python

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Product type Paperback
Published in Mar 2023
Publisher Packt
ISBN-13 9781803246079
Length 400 pages
Edition 1st Edition
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Author (1):
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Danny Staple Danny Staple
Author Profile Icon Danny Staple
Danny Staple
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Table of Contents (20) Chapters Close

Preface 1. Part 1: The Basics – Preparing for Robotics with Raspberry Pi Pico
2. Chapter 1: Planning a Robot with Raspberry Pi Pico FREE CHAPTER 3. Chapter 2: Preparing Raspberry Pi Pico 4. Chapter 3: Designing a Robot Chassis in FreeCAD 5. Chapter 4: Building a Robot around Pico 6. Chapter 5: Driving Motors with Raspberry Pi Pico 7. Part 2: Interfacing Raspberry Pi Pico with Simple Sensors and Outputs
8. Chapter 6: Measuring Movement with Encoders on Raspberry Pi Pico 9. Chapter 7: Planning and Shopping for More Devices 10. Chapter 8: Sensing Distances to Detect Objects with Pico 11. Chapter 9: Teleoperating a Raspberry Pi Pico Robot with Bluetooth LE 12. Part 3: Adding More Robotic Behaviors to Raspberry Pi Pico
13. Chapter 10: Using the PID Algorithm to Follow Walls 14. Chapter 11: Controlling Motion with Encoders on Raspberry Pi Pico 15. Chapter 12: Detecting Orientation with an IMU on Raspberry Pi Pico 16. Chapter 13: Determining Position Using Monte Carlo Localization 17. Chapter 14: Continuing Your Journey – Your Next Robot 18. Index 19. Other Books You May Enjoy

An introduction to pulse width modulation speed control

Pulse Width Modulation (PWM) is how we control motor speeds from a digital control system. Instead of varying the voltage supplied to a motor, we use pulses to control it. The pulses are usually at a fixed rate, but the ratio of time-on to time-off changes. We call this the duty cycle. Controlling how much time per cycle the signal is on versus off will control the power getting to a motor. If the pulse is on for longer, the motor will go faster. The motor will go slower if the pulse is on for less time. So, at 50% time-on, the motor will be about 50% of its maximum speed.

The following diagram shows visual examples of this:

Figure 5.6 – PWM signals

The preceding diagram shows graphs of PWM signals. The top is a signal for driving a motor at half speed. The pulses on and off time are the same. The X axis is the level, and the Y axis is for time, with a solid line for the PWM signal and a dashed...

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