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Internet of Things with Python

You're reading from   Internet of Things with Python Create exciting IoT solutions

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Product type Paperback
Published in May 2016
Publisher Packt
ISBN-13 9781785881381
Length 388 pages
Edition 1st Edition
Languages
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Author (1):
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Gaston C. Hillar Gaston C. Hillar
Author Profile Icon Gaston C. Hillar
Gaston C. Hillar
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Table of Contents (13) Chapters Close

Preface 1. Understanding and Setting up the Base IoT Hardware FREE CHAPTER 2. Working with Python on Intel Galileo Gen 2 3. Interacting with Digital Outputs with Python 4. Working with a RESTful API and Pulse Width Modulation 5. Working with Digital Inputs, Polling and Interrupts 6. Working with Analog Inputs and Local Storage 7. Retrieving Data from the Real World with Sensors 8. Displaying Information and Performing Actions 9. Working with the Cloud 10. Analyzing Huge Amounts of Data with Cloud-based IoT Analytics A. Exercise Answers Index

Wiring a digital accelerometer to the I2C bus


Digital accelerometers usually provide a better precision, higher resolution and more sensitivity than analog accelerometers. Now, we will work with a digital 3-axis accelerometer with a full sensing range from -16g to +16g. We will use a breakout board that uses the I2C bus to allow the board to communicate with the accelerometer.

We will use the two pins labeled SDA and SCL to connect the data and clock lines of the I2C bus to the corresponding pins in the digital accelerometer breakout board. After we finish the necessary wirings, we will write Python code to measure and display the acceleration for the three axis: x, y and z. This way, we will read the result of sending commands to the accelerometer through the I2C bus, reading the responses and decoding them into the appropriate acceleration values expressed in g-force (g).

We need a SparkFun triple axis accelerometer breakout ADXL345 to work with this example. The following URL provides detailed...

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