Moneypro’s Inertial Navigation Systems, from MEMS to tactical-grade FOG, deliver exceptional stability and ultra-low drift for precise positioning in GNSS-denied environments, ensuring mission continuity.

Types of China Moneypro Inertial Navigation MEMS/IMU/Gyroscopes Wholesale

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China Moneypro Db Single-degree-of-freedom angular rate sensor module MOPKT-EX1-4 (domestically produced); MOPKT-EX1-2 MOPKT-EX1-4 (domestically produced); MOPKT-EX1-2

This high-performance MEMS gyroscope-based sensor system integrates MEMS gyro chips, temperature sensors, digital signal processing circuits, mechanical structure, and embedded software. It adopts flexible connection technology and advanced compensation algorithms, including full temperature compensation, installation misalignment compensation, and non-linear error correction. The system delivers highly stable and accurate angular velocity data under static, dynamic, and harsh environmental conditions. It outputs reliable, error-compensated data via a high-speed RS-422 serial interface for professional applications.

China Moneypro DD Dual Degree of Freedom Angular Rate Sensor Module MOPKT-EX2-2 (domestically produced) MOPKT-EX2-5

This high-performance MEMS gyroscope system is built with a MEMS gyro chip, temperature sensors, digital signal processing (DSP) circuitry, structural design, and embedded software. It adopts flexible interconnection technology and integrates advanced compensation algorithms, including full temperature compensation, installation misalignment compensation, and nonlinear error correction. The system delivers stable and accurate angular rate data even under static, dynamic, and harsh environmental conditions, and outputs real-time compensated signals via a high-speed RS-422 serial interface.

China Moneypro DD Three-Degree-of-Freedom Angular Rate Sensor Module MOPKT-EX3-20 (domestically produced); MOPKT-EX3-6 Product model: MOPKT-EX3-20 (domestically produced); MOPKT-EX3-6

This high-precision MEMS gyroscope system is composed of a MEMS gyro chip, temperature sensors, digital signal processing circuitry, structural design, and embedded software. It integrates full-temperature compensation, installation misalignment correction, and nonlinear error compensation algorithms. The system maintains stable and reliable performance under static, dynamic, and harsh environmental conditions, and outputs compensated angular rate data through a high-speed RS-422 serial interface.

China Moneypro Full-Temperature Automatic Test Component

This advanced automated test system is designed for evaluating quartz inertial devices under various temperature conditions. It accurately measures bias (K0), scale factor (K1), second-order nonlinear coefficient (K2), and calculates temperature-dependent drift parameters such as ΔK0 and ΔK1 across a temperature range of -55°C to +85°C. The system supports full temperature characterization, including temperature hysteresis, multi-temperature repeatability, and 0g warm-start drift testing. It features fully automated operation with data acquisition, storage, analysis, and multi-device batch testing capability.

China Moneypro Functional Centrifugal Testing Component

The Functional Centrifugal Testing Component is designed for qualitative performance evaluation of quartz inertial devices within their measurement range. It ensures the qualification rate during precision range testing. By generating controlled centrifugal force through rotational motion, the system allows real-time analysis of sensor output characteristics under varying acceleration conditions.

China Moneypro Functional Dynamic Integrated Test Component

This Quartz Inertial Device Functional & Dynamic Test and Analysis System is designed for both full-unit testing and separated component testing of high-performance quartz inertial sensors. The system allows independent or combined testing of the sensor head and circuit board, enabling precise matching and performance evaluation.

It supports functional testing such as ±1g and 0g output verification, as well as dynamic parameter analysis including natural frequency, cutoff frequency, overshoot, half-wave oscillation cycles, and damping characteristics. It also measures noise performance and installation errors. The system features a simple one-switch operation to toggle between functional testing and dynamic testing modes.

China Moneypro Integrated Automatic Test Component

This automated quartz inertial device testing system is a high-precision integrated solution designed for simultaneous testing of up to 24 high-performance quartz inertial components. It combines a dual-layer temperature control insulation system, multi-channel data acquisition, programmable control, and industrial computing units. The system enables fully automated testing, data acquisition, storage, analysis, and reporting, ensuring high efficiency, stability, and measurement accuracy in inertial sensor calibration and evaluation.

China Moneypro Low-Pressure Testing Component

This specialized low-pressure testing system is designed for high-performance quartz inertial devices used in aerospace applications. It enables detection of ultra-low pressure levels down to the mPa range, ensuring sealing integrity and long-term reliability of epoxy resin encapsulated structures. Developed by Baoding Ketu Precision Instrument Manufacturing Co., Ltd., the system meets the stringent testing requirements of space-grade quartz inertial devices. It supports dynamic testing of up to 12 devices simultaneously with an interlocked 12-channel keyboard switch design for efficient operation.

China Moneypro MEMS Inertial Measurement Module MOPKT6475

This high-performance inertial measurement module (IMU) provides real-time measurement of three-axis angular rate and three-axis acceleration. It integrates advanced compensation algorithms, including full-temperature and nonlinear compensation, ensuring excellent dynamic response and stability. Designed with an industry-standard BGA package and SPI interface, it allows direct PCB mounting and seamless system integration. The module is widely used in autonomous driving, robotics, mobile mapping, IoT, field exploration, infrastructure inspection, and industrial control. It is pin-compatible with ADIS16475 for easy replacement and upgrade.