Anonymous
Mar 17, 2026
Rating: 5/5
Genuine Chip
Tested the register values, this is definitely an original MPU-9250. Low noise on the gyro output.
Description
Reviews
| Brand | - |
| Category | Electronic Components / Maker DIY / Computer Hardware, Monitors & Peripherals |
| Origin | - |
| Chip Model | MPU-9250 |
| Sensor Type | 9-Axis IMU (Accelerometer, Gyroscope, Magnetometer) |
| Communication Interface | I²C (400kHz) / SPI (1MHz) |
| Operating Voltage | 3.3V - 5V DC |
| Accelerometer Range | ±2/4/8/16g (Programmable) |
| Gyroscope Range | ±250/500/1000/2000°/s (Programmable) |
| Magnetometer Chip | AK8963 |
| PCB Size | 22mm x 17mm x 3mm |
| Weight | 2.5 grams |
| Mounting Holes | 4x 3mm Diameter |
Anonymous
Mar 17, 2026
Rating: 5/5
Genuine Chip
Tested the register values, this is definitely an original MPU-9250. Low noise on the gyro output.
Anonymous
Mar 12, 2026
Rating: 5/5
Fast Shipping and Well Packed
Arrived quickly. Anti-static bag included. Using it for a balancing robot project successfully.
Anonymous
Mar 03, 2026
Rating: 3/5
Works but docs are sparse
The module works fine but I had to search online for specific wiring diagrams for SPI mode. I2C was easier.
Anonymous
Feb 12, 2026
Rating: 5/5
Perfect for Arduino Projects
Works flawlessly with the standard MPU6050 libraries. The magnetometer adds great value for compass projects.
Anonymous
Jan 31, 2026
Rating: 4/5
Good module, tricky calibration
Hardware is solid. Getting the magnetometer calibrated took some time but once done, data is accurate.
Q: Does it come with pin headers soldered?
A: No, it ships without headers to allow for flexible mounting options. You will need to solder them separately.
Q: Is this compatible with 5V Arduino Uno?
A: Yes, the module includes a voltage regulator and level shifting, making it safe for 5V logic boards.
Q: Is there a library available for ESP32?
A: Yes, there are several open-source libraries available on GitHub compatible with ESP32 and this sensor.
Q: Can I use this with Raspberry Pi?
A: Absolutely. It works via I2C on the GPIO pins. Ensure you enable I2C in the Raspi-config settings.
Q: What is the power consumption?
A: Typical current consumption is around 3.9mA in full operation mode. It varies based on sample rate settings.