High Precision Stable-control MEMS Gyro
Introduction
The ER-3MG-11 3-Axis High Precision Stable-control MEMS Gyro has small volume, light weight, simple structure and good reliability. The biggest function of the three-axis gyroscope is to "measure the angular velocity to judge the motion state of the object, so it is also called a motion sensor". In other words, this thing can let our equipment know where we are and where we are going. "
Applications
Integrated Navigation Systems & Inertial Guidance System
Flight Control & Guidance System
Attitude Heading Reference Systems(AHRS)
Stabilization of Antennas, Cameras & Platforms
Specifications
| Parameter | ER-3MG-11A | ER-3MG-11B | ER-3MG-11C | Unit |
| Range | 400 | 400 | 400 | deg/s |
| Scale Factor at 25°C | 16000 | 20000 | 20000 | LSB/deg/s |
| Scale Factor Repeatability (1σ) | <50 | <100 | <50 | ppm |
| Scale Factor VS Temperature (1σ) | ±300 | ±500 | ±500 | ppm |
| Scale Factor Non-Linearity (1σ) | <300 | <300 | <300 | ppm |
| Bias Instability(1σ 25℃) | <0.3 | <0.3 | <0.1 | deg/hr |
| Bias stability (10s 1σ) | <3 | <2 | <1 | deg/hr |
| Angular Random Walk | <0.125 | <0.125 | <0.05 | °/ √h |
| Bias Repeatability(1σ 25℃) | <3 | <2 | <1 | deg/hr |
| Size | 120mm x Φ30mm | |||
| Weight | ≤150g | |||
| Operate temperature | -40~+80 | ℃ | ||
| Storage temperature | -55~+105 | ℃ | ||
Dimension
Application Techniques
1.Error Generation Mechanism of MEMS Gyroscope Under High Acceleration Condition
2.Bandwidth test method of MEMS gyroscope
3.Impact resistance technology of MEMS gyroscope
4.Error Analysis of MEMS Gyroscope
5.Bias Temperature Compensation Analysis of MEMS Gyroscope
6.Analysis of drive loop noise of MEMS gyroscope
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