Application

How MEMS gyroscopes shape the world of precision control?

At the forefront of the pursuit of dynamic stability and precise control - whether it is the smooth flight of drones, the agile movement of robots, the reliable positioning of autonomous driving, or the precise operation of industrial equipment - a miniaturized core component plays an indispensable role. This is the microelectromechanical system (MEMS) gyroscope, also known as an angular rate sensor, which continuously senses the attitude, rotation state and orientation of the device.

 

The ER-MG-056 single-axis MEMS gyroscope is an innovative representative of this field. It uses a compact 11x11x2mm sealed ceramic LCC surface mount package to break the inherent impression that high performance must be accompanied by high cost, while providing tactical-grade performance and showing an attractive price-performance ratio.

 

The core advantages of the ER-MG-056: tactical-grade accuracy, economical investment

 

Excellent stability and low noise: Its zero bias instability is only 3°/h and the angle random walk is as low as 0.25°/√h, ensuring the continuous reliability of measurement data during long-term dynamic operation and significantly suppressing the deviation caused by random noise. 5°/h zero bias stability further improves its performance in complex and harsh environments.

 

Wide measurement range: Capable of capturing angular velocity changes up to ±400°/s, fully meeting the needs of most applications for angular velocity perception.

 

Empowering intelligent applications: Driving the wave of precision

 

UAV field:

 

Accurately measuring yaw, pitch, and roll angular rates is the key to achieving stable hovering, autonomous flight and precise landing.

 

Provide high-speed and high-precision attitude feedback for aerial photography stabilization gimbals, supporting smooth and anti-shake image capture.

 

Autonomous driving and smart cars:

 

Provide core data for obtaining continuous vehicle attitude (roll, pitch) and heading changes, and work with wheel tachometers and global navigation satellite systems (GNSS) to achieve seamless positioning and navigation.

 

Assist electronic stability control systems (ESC) to provide highly dynamic yaw angular velocity information.

 

Robotics field:

 

Provide accurate steering angular rate data to assist robots in sensing tilt and maintaining balance and motion control.

 

Combined with the odometer, it provides reliable inertial motion information and achieves accurate dead reckoning when environmental features are missing or the SLAM (simultaneous localization and mapping) system is initialized.

 

Real-time monitoring of the rotation speed of robot joints helps achieve faster, smoother and more precise motion control.

 

Industrial field: Accurately monitor and control the motion status of various industrial equipment to ensure the accuracy and efficiency of the production process.

 

With its excellent performance and cost-effectiveness, the ER-MG-056 MEMS gyroscope is widely penetrating and profoundly affecting the core technology field that requires precise motion perception and control.


Application Techniques

1.MEMS Gyroscope: Error Compensation By Allan Variance Method
2.Bandwidth test method of MEMS gyroscope
3.Basic Knowledge of Bias Stability of MEMS Gyroscope
4.Research on scale factor nonlinearity of MEMS gyroscope
5.Integrated method of three-axis MEMS gyroscope
6.MEMS Gyroscope: The Third Generation Of Gyroscopes Is Leading The Way


More Products

High Precision MEMS Gyroscope
High Performance North Seeking MEMS Gyroscope
High Precision Navigation MEMS Gyroscope
High Precision Navigation MEMS Gyroscope
High Performance North Seeking MEMS Gyroscope
High Performance MEMS Gyroscope
Economical MEMS Gyroscope
Economical MEMS Gyroscope
North Seeking Mems Imu For Gyro Tools North Seeking Mems Imu For Gyro Tools
High Accuracy 3-Axis MEMS GyroHigh Accuracy 3-Axis MEMS Gyro

Share article:

Ask a Question



    Menu