Description
Get ready to take your motion-sensing applications to the next level with 7Semi's ADXL335 3-axis Accelerometer Breakout Analog Out! This incredible sensor module boasts a triple-axis accelerometer, capable of measuring acceleration along the X, Y, and Z axes with outstanding accuracy. With a 5V power supply and compact 21x16mm dimensions, this breakout board is designed for easy integration into your projects, without taking up too much valuable space. The ADXL335 features built-in self-test and adjustable sensitivity, providing a hassle-free experience when calibrating the sensor. Whether you're building a drone, a robot, or a gaming controller, the ADXL335 3-axis Accelerometer Breakout Analog Out by 7Semi is the ideal solution for all your motion sensing needs. Get yours today and take your projects to new heights!
The board measures acceleration with a minimum full-scale range of +-3 g. It can measure the static acceleration of gravity in tilt sensing applications, as well as dynamic acceleration resulting from motion, shock, or vibration.
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3-axis sensing
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10,000 g shock survival
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Low power - 350 uA (typical)
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5V power supply
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21x16 mm dimensions
ADXL335 Breakout Board Dimensions
- Datasheet ADXL335
- User Guide, Arduino Code etc
- Evelta ADXL335 3D STEP File Downlaod
- ADXL335 Quickstart Guide Web
ADXL335 Breakout Board I2C Connection to Arduino
ADXL345, ADXL335 and LIS3DH 3-Axis Accelerometer Breakout Comparison Table
A triple-axis accelerometer breakout with analog output is a type of sensor module designed to measure acceleration along three axes: X, Y, and Z. The module contains three accelerometers, each oriented along a different axis, and outputs analog signals proportional to the acceleration detected along each axis. These signals can be used to determine the orientation, motion, and vibration of the module or object it is attached to. This type of sensor breakout is commonly used in robotics, gaming controllers, and other applications where motion sensing is required. Analog outputs provide a more precise measurement than digital outputs, making this type of sensor breakout ideal for applications that require high accuracy.