Application

MEMS Gyroscope: Why Does ER-MG-067 Have Such a Remarkable Market Performance?  

Many people are not familiar with angular velocity sensors, but if you mention their other name—gyroscopes—I believe many are acquainted with them. Gyroscopes can sense and measure the rotational motion of objects, thereby obtaining information about changes in their posture. In the era of rapid technological iteration, MEMS gyroscopes have gradually replaced traditional gyroscopes in many industries with their advantages of small size, light weight, low cost, ultra-low power consumption, and high reliability, becoming the leaders of the new era.

 

Facing users' higher requirements for the accuracy, performance, and cost-effectiveness of MEMS gyroscopes, the market has long lacked gyroscope products that combine high quality and high cost-effectiveness due to industry-wide challenges such as technical barriers, accuracy bottlenecks, and cost control. ERICCO has precisely responded to this need by launching the ultra-high cost-effective MEMS gyroscope ER-MG-067. Since its launch, the product has attracted widespread attention and even sparked a procurement boom in the drone industry.

Why is this gyroscope so favored by users?

Why Does Er Mg 067 Have Such A Remarkable Market Performance

**Ultra-high Cost-effectiveness: Redefining the Optimal Standard for UAV Core Components**

ER-MG-067 adopts a 11x11x2mm sealed ceramic LCC surface-mount package, with excellent core performance parameters: bias instability < 0.3°/h, angular random walk < 0.125°/√h, and bias stability of 3°/h. Compared with other tactical-grade products under ERICCO, it achieves a golden balance between accuracy and cost; compared with consumer-grade products, its accuracy advantage is significantly superior; and compared with traditional navigation-grade devices, it is more cost-competitive. This characteristic of "high accuracy, low threshold" makes it an ideal choice for UAV core components.

 

**High Reliability: Enabling Stable Operation in Complex Environments**

Since the working environment of drones can be extremely harsh, such as high/low temperatures and vibrations, an excellent gyroscope needs to have high reliability to operate stably in various harsh environments and ensure the safe flight of drones. ER-MG-067 itself has anti-shock and anti-vibration characteristics and can operate within a temperature range of -40°C to +85°C, fully ensuring the stable flight and precise navigation of drones.

 

**Suitable Measurement Range: Meeting Diverse Flight Control Needs**

 

The measurement range is critical for ensuring drone stability and accuracy across diverse flight states. With a range of ±400°/s, the ER-MG-067 gyroscope enables rapid and precise attitude detection, allowing drones to maintain stable flight even during complex maneuvers.

 

Thanks to its ultra-high cost-effectiveness, high reliability, and optimized measurement range, the ER-MG-067 has gained widespread market recognition. Its deep integration into drone attitude detection and stable flight control sets a new benchmark for the safety and reliability of intelligent flight devices.

 

For more information on the prices and technical parameters of other MEMS gyroscope products, please feel free to leave a comment or send me a private message.


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


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