• news_bgg


JD-M202 MEMS dual-axis gyroscope

Short Description:

XC-M202 MEMS dual-axis gyroscope, using high-precision gyroscope, high-performance temperature compensation algorithm and inertial device calibration algorithm, output the vehicle’s pitch and heading two axes of angular velocity and product internal temperature information in real time. This model gyroscope measures is Φ 22mm*30.5mm, using ±15V power supply and the communication interface type is RS422 serial interface. The gyroscope has the advantages of small size, high precision, impact resistance, good repeatability, short start-up time, etc. and is suitable for seeker, photoelectric pod, turntable and so on so forth.

Product Detail


Product Tags


Application scope: It can be applied to multi-field servo systems.

Environmental adaptation: Strong vibration and shock resistance. It can provide accurate angle Speed information at -40 °C ~ +85 °C.

Application fileds:

Aviation: seeker, optoelectronic pod

Land: turret, turntable

图片 1
图片 7

Product performance parameters

Metric Category

Metric Name

Performance Metric


Gyroscope parameters

measuring range



Scale factor repeatability

< 50ppm

Scale factor linearity


Biased stability


National military standard 10s smooth

Biased instability


Allan Curve

Biased repeatability


National military standard

Angular random walk (ARW)


Bandwidth (-3dB)


Data latency


Communication delay is not included.

Interface Characteristics

Interface type


Baud rate

 230400bps (customizable)

Data update rate


Environmental Adaptability

Operating temperature range 


Storage temperature range


Vibration (g)

6.06g (rms), 20Hz~2000Hz

Electrical Characteristics

Input voltage (DC) 


Physical Characteristics





Product Introduction

The JD-M202 MEMS dual-axis gyroscope is equipped with a high-precision gyroscope, which provides excellent accuracy and stability. The gyroscope measures the angular velocity of the vehicle's pitch and yaw axes, ensuring you get accurate and reliable readings every time. The gyroscope is also equipped with a high-performance temperature compensation algorithm and an inertial unit calibration algorithm. This ensures that the output from the gyroscope is stable and accurate, even under the most challenging conditions.

Additionally, the JD-M202 MEMS dual-axis gyroscope is designed to operate on a ±15V supply, which makes it compatible with a wide variety of different vehicles. The communication interface type of this product is RS422 serial interface, which can realize fast and reliable real-time data transmission. This feature helps you instantly view your vehicle's pitch and heading information, allowing you to make informed decisions quickly.

One of the most important selling points of the JD-M202 MEMS dual-axis gyroscope is its compact size. The small size of this gyroscope makes it easy to install even in tight spaces. The size of the product is intentionally compact for greater flexibility and compatibility with various vehicle systems. In addition to size, the JD-M202 MEMS dual-axis gyroscope can withstand shock and vibration, making it a rugged, reliable and durable choice even in the harshest conditions.

In summary, the JD-M202 MEMS dual-axis gyroscope is the perfect solution for users who need to accurately measure vehicle pitch and heading. Its excellent accuracy, high-performance algorithms, and accurate calibration make it an excellent choice for a variety of different applications. Small size, resistance to shock and vibration, and compatibility with a range of different power and communication interfaces make it a versatile solution for a variety of different needs. We highly recommend the JD-M202 MEMS Dual-Axis Gyroscope to those looking for a robust and reliable solution for their pitch and heading measurement needs.

  • Previous:
  • Next:

    • Size and Structure Can Be Customized
    • Indicators Cover the Whole Range from the Low to the High
    • Extremely Low Prices
    • Short Delivery Time and Timely Feedback
    • School-Enterprise Cooperative Research Develop the Structure
    • Own Automatic Patch and Assembly Line
    • Own Environmental Pressure Laboratory