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The Best Accelerometer Sensor Arduino of 2023 – Reviewed and Top Rated
After hours researching and comparing all models on the market, we find out the Best Accelerometer Sensor Arduino of 2023. Check our ranking below.
2,313 Reviews Scanned
- MPU-6050 MPU6050 6-axis Accelerometer Gyroscope Sensor
- Communication mode: standard IIC communication protocol
- Chip built-in 16bit AD converter, 16bit data output
- Gyroscopes range: +/- 250 500 1000 2000 degree/sec
- Acceleration range: ±2 ±4 ±8 ±16g
- ADXL345 3-Axis Accelerometer Sensor Module: Measures static gravitational acceleration in tilt detection applications as well as dynamic acceleration due to motion or shock
- Voltage: 3-5V(5V is Recommended)
- Accelerator Range:+/-2G, +/-4G, +/-8G, +/-16G
- Communication method: SPI (3- and 4-wire) and I2C digital interfaces
![[Bluetooth 5.0 Accelerometer+Inclinometer] WT9011DCL MPU9250 High-Precision 9-axis Gyroscope+Angle(XY 0.2° Accuracy)+Magnetometer with Kalman Filter, Low-Power 3-axis AHRS IMU Sensor for Arduino](https://m.media-amazon.com/images/I/312IrxypF4L._SL160_.jpg)
- 【 High Performance 】Accurate output data: 3-axis XYZ (Pitch Roll Yaw) Acceleration + Gyro + Angle+ Magnetic field + Quaternion + Port status. Bluetooth coverage range: within 50meters (Open area without obstruction)
- 【 Robust Design 】low consumption Bluetooth 5.0 (battery life about 10 hours), compatible with Andriod & iOS phone App, Windows computer(Support multiple-connection up to 4 sensors)
- 【 WITMOTION Advantage 】8-year Professional Attitude Measuring Solution Provider, sensors integrated R&D dynamic fusion algorithm and Kalman Filtering ensuring stable data output and excellent bias stability, low noise level, increasing measurement accuracy
- 【 What You Get 】1*WT9011DCL BLE 5.0 sensor Type-C interface, 1*BLE5.0 Adapter, 1*Type-C Charging Cable, 1 x Welcome Guide. (Free development kit:Phone APP & Window Software, Python sdk, Android sdk, Protocol etc.)
- 【 Worry-free Support 】Enjoy 12-month warranty, lifetime friendly customer service by WitMotion team. Access support through three options: 1) Find the tutorial link on the guide card inside the package. 2) Visit wit-motion(dot)com to download the complete tutorial. 4) Contact us for any assistance, support (at) wit-motion (dot) com
- Parameter range: the MPU-6050's angular velocity range is ±250, ±500, ±1000 and ±2000°/sec (dps) for accurate fast and slow motion, and user-programmable accelerator full-frame sensing the range is ±2g±4g±8g and ±16g; Transmission can pass I2C up to 400kHz or SPI up to 20MHz.
- Communication method: standard IIC communication protocol
- Chip built-in: with three 16-bit analog-to-digital converters (ADCs) for digitizing the gyroscope outputs and another three ones for digitizing the accelerometer outputs;The accelerometer can be operated at both 3.3V and 5V,Current:5mA.
- Package includes:1pcs MPU-6050 Module+2pcs Pin headers+1pcs female-male DuPont cable+1pcs female-female DuPont cable
- The sensor can be used to develop various entertaining applications and systems. Ideal for projects with gaming and virtual reality devices, GPS navigation (for drones and RC planes) and DIY robots.
![[Arduino Accelerometer Sensor+Inclinometer] WT901 High-Accuracy 3-axis Acceleration+Gyroscope+Tilt Angle +Magnetometer with Kalman Filtering, 9-axis MPU9250 USB 200Hz IMU Raspberry Pi AHRS Module](https://m.media-amazon.com/images/I/41Gb9qj2oaL._SL160_.jpg)
- 【 High Performance 】Rock-solid data output: 3-axis XYZ (Pitch Roll Yaw) Acceleration+ Gyro+ Angle+ Magnetic field+Quaternion, measurement range and output rate ( 0.2-200Hz) selectable
- 【 Robust Design 】 Cortex-M0 core processor, highly-integrated MEMS, and Kalman Algorithm combine to deliver measurement accuracy at 0.05 degree(X, Y-axis), small in size, diverse interface, professional for customer's integration project
- 【 WITMOTION Advantage 】8-year Professional Attitude Measuring Solution Provider, sensors integrated R&D dynamic fusion algorithm and Kalman Filtering ensuring stable data output and excellent bias stability, low noise level, increasing measurement accuracy
- 【 Worry-free Support 】12-month warranty, lifetime friendly customer service by WitMotion team. Option 1. The tutorial link is printed on the guiding card inside the package. Option 2. search wit-motion(dot)com and download the complete tutorial. Option 3. contact us if you need any help, support (at) wit-motion (dot) com
- 【 What You Get 】1 x WitMotion WT901 TTL Accelerometer sensor+ 2* Six pin male header (1x6) +1 x Welcome guide (USB-UART converter not included )
Last update on 2025-08-15 / Affiliate links / Product Titles, Images, Descriptions from Amazon Product Advertising API
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- Customer Reviews: Closely related to ratings, these paragraphs give you first-hand and detailed information from real-world users about their Accelerometer Sensor Arduino.
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FAQ:
Q: How do you connect an accelerometer to an Arduino?
A: Connect X of the accelerometer to the analog pin A3 of the Arduino board. Connect Y of the accelerometer to the analog pin A2 of the Arduino board. Connect X of the accelerometer to analog pin A1 of the Arduino board. Connect Vcc of the accelerometer to analog pin A5 of the Arduino board.
Q: What kind of sensor is an accelerometer?
A: An accelerometer is a sensor that measures inclination, shock, and vibration. The 3-axis accelerometer KXR94-2050 that we’ll be using monitors the state of the device on the XYZ planes and the acceleration in any given direction. The accelerometer by ROHM Group’s “ Kionix ” is soldered such that it can be inserted directly into a breadboard.
Q: What is the sensitivity of the adxl335 accelerometer?
A: The sensitivity of ADXL335 accelerometer is: Gravity force per ADC (Analog to Digital Converter) unit is: It is because the sensors need 3.3V to operate. The accelerometer at rest will read half of its maximum analog voltage. Note: Some accelerometers work at 5V while some at 3.3V.
Q: How does the accelerometer work on a laptop?
A: Acceleration, as we all know, is the measurement of the change in velocity upon a given time. A laptop hard drive also uses an accelerometer. Suppose when a laptop falls, the accelerometer detects and turns off the hard drive to prevent it from being damaged to prevent data loss.