🚨 Industry Pain Points
In traditional attitude measurement systems, users often face critical challenges:
- Measurement drift caused by temperature variations
- Errors introduced by installation misalignment
- Nonlinear sensor response affecting accuracy
- Unstable output under vibration or dynamic motion
- Limited reliability in harsh environmental conditions
- Dependence on imported sensor technologies
These limitations reduce system accuracy and stability, especially in aerospace, UAV, and industrial control applications.
⚙ Product Advantages
This system is designed to deliver high-precision and high-reliability attitude measurement:
- ✔ Fully domestically developed dual-axis attitude sensor
- ✔ Integrated temperature sensors for real-time thermal compensation
- ✔ Built-in digital signal processing (DSP) board for fast and stable computation
- ✔ Advanced full-temperature compensation algorithm
- ✔ Installation misalignment angle compensation for improved accuracy
- ✔ Nonlinear error correction algorithm for enhanced measurement linearity
- ✔ Stable performance in static, dynamic, and harsh environments
- ✔ Reliable and consistent output data after multi-layer error correction
🚀 Product Applications
This attitude sensing system is suitable for a wide range of industrial and aerospace applications:
- UAV flight control systems
- Fixed-wing and VTOL aircraft attitude measurement
- Industrial automation and motion control systems
- Marine and shipborne navigation systems
- Robotics and autonomous systems
- High-precision stabilization platforms
⭐ Why Choose Us
- Fully localized core sensing technology (domestic supply chain)
- Multi-layer error compensation for high-accuracy output
- Strong environmental adaptability (temperature, vibration, motion)
- Integrated hardware + software system design
- Stable performance in both static and dynamic conditions
- Suitable for high-reliability mission-critical applications
We focus on delivering robust, accurate, and fully autonomous attitude measurement solutions for demanding industrial and aerospace environments.
❓ Frequently Asked Questions (FAQ)
Q1: Does the system support harsh environments?
Yes, it is designed for stable operation under harsh temperature, vibration, and dynamic conditions.
Q2: What compensation algorithms are included?
It includes temperature compensation, installation misalignment compensation, and nonlinear error correction.
Q3: Is the system fully domestic?
Yes, it uses a domestically developed dual-axis sensor and localized system architecture.
Q4: Can it be used in UAVs?
Yes, it is widely used in UAV flight control and attitude measurement systems.
Q5: Does it require external calibration frequently?
No, built-in compensation algorithms significantly reduce the need for frequent recalibration.
| Parameter | unit | fundamental form |
| measuring range |
° |
±15 (customizable) |
| Measurement accuracy at room temperature |
° |
0.02 |
| tape width |
Hz |
10 |
| Stabilization start time |
s |
1 |
| Working voltage (DC) |
V |
5~24 |
| Working Current |
mA |
≤ 100 @18V |
| Data update rate |
Hz |
20 |
| working temperature | ℃ | -40~60 |
| storage temperature | ℃ | -45~70 |
|
weight |
g |
<300 |
|
size |
mm |
51*46.8*27 |
|
Interface |
RS-422 |
