![]() ![]() ![]() Output data rate (ODR): 0.10 Hz to 3200 Hz.Resolution: 10-bit or 13-bit, user-selectable.Sensitivity: User-selectable, ☒g, ±4g, ☘g, or ☑6g.The ADX元45 is a triple-axis accelerometer with the following key specifications: ![]() Thanks to its low power consumption and small form factor, the ADX元45 is ideal for battery-powered and space-constrained applications. The ADX元45 communicates with microcontrollers using either I2C or SPI interfaces, which makes it compatible with a wide range of development platforms, such as Arduino, Raspberry Pi, and others. The ADX元45 has adjustable sensitivity, enabling it to cater to a range of applications with different acceleration requirements. This accelerometer is capable of detecting both static acceleration, such as the force of gravity, and dynamic acceleration resulting from motion or vibrations. It is particularly popular in the fields of robotics, gaming, virtual reality, wearables, and IoT devices, among others. This sensor is designed to accurately measure acceleration in the X, Y, and Z axes, making it suitable for various applications. The ADX元45 is a 3-axis accelerometer developed by Analog Devices. We need the following components for this guide. By the end, you’ll know how to use the Raspberry Pi 4 and ADX元45 together and be ready to start your own projects. We’ll walk through the steps to connect the two devices, then show you how to write simple Python code to read data from the accelerometer. When combined, they make a great pair for all sorts of fun projects like motion alarms or interactive games. The Raspberry Pi is a small, powerful computer, and the ADX元45 is a sensor that can detect motion. In this guide, we’ll learn how to connect the ADX元45 accelerometer to the Raspberry Pi and measure acceleration using Python. ![]()
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