IMU plays a core role in unmanned systems and provides key data for the carrier. It can help unmanned systems achieve multiple functions such as attitude control, navigation, and guidance control.
Now we have a mini version of IMU ER-MIMU-04Mini, which is not only small in size and light in weight, but also has low power consumption, making it very suitable for use in drones and robots.
**Small size, high performance**
The volume is 40*40*42(with shell)/27*26*34(without shell), and the weight is 120g(with shell)/80g(without shell).
The gyroscope measurement range is 400°/s, and the bias instability is 1°/h. The accelerometer bias stability is <50μg, and the bias repeatability is 100μg.
**OEM customization service**
Every requirement is unique. We provide OEM customization service for this.
This IMU adopts modular design, removable shell and base plate, and is directly integrated into the user system. The data cable can be soldered on the motherboard to directly obtain data.
**Attitude control**
IMU can provide acceleration and angular velocity data for carrier attitude control, help unmanned systems achieve precise control, and help carriers maintain stable attitude and balance. This function is particularly important in uneven or dynamically changing environments.
**Positioning and navigation**
Accurate positioning and navigation are essential for drones and robots to perform complex tasks. IMU can combine external positioning information such as GPS to achieve more accurate and reliable autonomous navigation through algorithm fusion.
**Guidance control**
IMU can measure and track the trajectory of the carrier to ensure that the carrier can move according to the predetermined trajectory and make adjustments when necessary to achieve the mission objectives.
Have you used an IMU in your projects? What challenges or breakthroughs have you experienced? Let’s connect and share insights in the comments below.
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