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Practical Python Programming for IoT

You're reading from   Practical Python Programming for IoT Build advanced IoT projects using a Raspberry Pi 4, MQTT, RESTful APIs, WebSockets, and Python 3

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Product type Paperback
Published in Nov 2020
Publisher Packt
ISBN-13 9781838982461
Length 516 pages
Edition 1st Edition
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Author (1):
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Gary Smart Gary Smart
Author Profile Icon Gary Smart
Gary Smart
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Table of Contents (20) Chapters Close

Preface 1. Section 1: Programming with Python and the Raspberry Pi
2. Setting Up your Development Environment FREE CHAPTER 3. Getting Started with Python and IoT 4. Networking with RESTful APIs and Web Sockets Using Flask 5. Networking with MQTT, Python, and the Mosquitto MQTT Broker 6. Section 2: Practical Electronics for Interacting with the Physical World
7. Connecting Your Raspberry Pi to the Physical World 8. Electronics 101 for the Software Engineer 9. Section 3: IoT Playground - Practical Examples to Interact with the Physical World
10. Turning Things On and Off 11. Lights, Indicators, and Displaying Information 12. Measuring Temperature, Humidity, and Light Levels 13. Movement with Servos, Motors, and Steppers 14. Measuring Distance and Detecting Movement 15. Advanced IoT Programming Concepts - Threads, AsyncIO, and Event Loops 16. IoT Visualization and Automation Platforms 17. Tying It All Together - An IoT Christmas Tree 18. Assessments 19. Other Books You May Enjoy

How a servo is controlled using PWM

Servos typically require around a 50 Hz PWM signal (some variation around 50 Hz is okay, but we'll stick with 50 Hz as this is the common reference point), and a pulse width between 1.0 milliseconds and 2.0 milliseconds that determines the angle of rotation. The relation between pulse widths, duty cycles, and angle is illustrated in Figure 10.4. Don't worry if all this does not sink in just yet. It should become more clear as we see our servo in action and review our servo-related code in the next section:

Figure 10.4 – Servo's pulse width, duty cycle, and angles

We have not covered pulse width in relation to our earlier coverage of PWM; however, it's just another way of describing the duty cycle.

Here is an example:

  • If we have a PWM signal at 50 Hz (that is, 50 cycles per second), then this means that 1 PWM cycle takes 1 / 50 = 0.02 seconds, or 20 ms.
  • Thus, a pulse width of 1.5 ms expressed as a duty cycle is 1.5 ms...
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