🚨 Industry Pain Points
In modern inertial navigation and motion sensing applications, users commonly face the following challenges:
- Measurement drift caused by temperature variation
- Errors introduced by installation misalignment
- Nonlinear sensor response affecting accuracy
- Poor stability under dynamic or high-vibration conditions
- Inconsistent output signals in harsh environments
- Limited reliability of low-cost MEMS sensors in precision systems
These issues significantly affect system accuracy, stability, and long-term operational reliability.
⚙ Product Advantages
This MEMS gyroscope system is designed to overcome the above limitations with advanced engineering technology:
- ✔ Integrated MEMS gyroscope chip with high sensitivity
- ✔ Built-in temperature sensors for full thermal compensation
- ✔ Digital signal processing (DSP) for real-time correction
- ✔ Flexible connection design improves structural reliability
- ✔ Full-temperature compensation algorithm ensures stable performance across wide temperature ranges
- ✔ Installation misalignment compensation reduces assembly errors
- ✔ Nonlinear compensation improves measurement accuracy
- ✔ High-speed RS-422 communication interface for robust data transmission
- ✔ Provides stable and reliable angular rate output in static, dynamic, and harsh environments
🚁 Product Applications
This MEMS gyroscope system is widely used in high-precision motion and navigation fields, including:
- UAV flight control systems
- Inertial navigation systems (INS)
- Robotics and autonomous vehicles
- Aerospace and aviation stabilization systems
- Marine navigation and stabilization platforms
- Industrial motion control systems
- High-precision attitude measurement systems
⭐ Why Choose Us
- Advanced MEMS sensing and signal processing integration
- High reliability under extreme environmental conditions
- Strong compensation algorithms for long-term stability
- Industrial-grade RS-422 output for anti-interference transmission
- Designed for precision navigation and control applications
- Proven performance in dynamic and high-vibration environments
We focus on delivering stable, accurate, and engineering-grade inertial sensing solutions for professional applications.
❓ Frequently Asked Questions (FAQ)
Q1: Does the system support operation in extreme temperatures?
Yes, it includes full-temperature compensation to maintain stable performance across wide temperature ranges.
Q2: How does it handle installation errors?
It includes installation misalignment compensation algorithms to reduce system-level errors caused by mounting deviation.
Q3: What type of output interface is used?
The system uses a high-speed RS-422 serial communication interface for reliable data transmission.
Q4: Is it suitable for dynamic motion environments?
Yes, it is designed for both static and dynamic conditions, including high-vibration environments.
Q5: What makes it different from standard MEMS gyroscopes?
It integrates advanced DSP processing, multi-level compensation algorithms, and industrial-grade output stability for higher accuracy and reliability.
| Parameter | unit | fundamental form |
| Measurement range (customizable) | ° /s | ±400 |
| Zero-level offset | ° /h | 108 |
| Zero-pitch instability (@ALLAN variance) | ° /h | 4 |
| Zero offset stability (10-second smoothing, 1σ, room temperature) | ° /h | 5 |
| Zero bias repeatability | ° /h | 10 |
| Zero bias error across the entire temperature range | ° /h | 50 |
| random walk | ° / √ h | 0.08 |
| Zero-zero acceleration sensitivity | ° /h/g | 18 |
| resolution ratio | ° /s | 0.0005 |
| Output noise (half-maximum) | ° /s | 0.1 |
| tape width | Hz | 250 |
| Nonlinear scaling factor | ppm | 100 |
| Scale factor repeatability | ppm | 100 |
| cross coupling | % | 0.2 |
| Stabilization start time | s | 2 |
| Data update rate | Hz | 4000 |
| voltage | V | 5±0.2 |
| starting current | mA | 200 |
| steady state power consumption | W | < 0.5 |
| ripple wave | mV | 100 |
| working temperature | ℃ | -45~85 |
| storage temperature | ℃ | -55~105 |
| weight | g | 10.5±2 |
| size | mm | 22.4×22.4×8 |
| Interface | — | RS-422 |
