It is not difficult to see from the National Day drone show in Saudi Arabia that drone technology has evolved from a simple flying toy to a multifunctional high-tech product, especially in the field of aerial performances, its precise flight control and formation performances have become the highlight that attracts the audience's attention. Behind all this, it is inseparable from the support of a high-precision navigation system.
Today, the ER-GNSS/MINS-05 GNSS combined navigation system we introduce is born to meet this demand:
High cost performance, excellent performance
ER-GNSS/MINS-05 has built-in high-reliability and low-cost MEMS gyroscopes (bias instability <2°/h) and accelerometers (bias instability <24ug), its attitude accuracy can reach 0.1°, post-processing can reach 0.03°, heading accuracy 0.1°, post-processing 0.05°, such a high-precision navigation system, its price is also very economical, enough to make many drone industries excited.
High reliability, precise positioning
ER-GNSS/MINS-05 has a wide operating temperature range of -40℃~+80℃, ensuring that the drone can fly stably in various extreme environments. In addition, its built-in full-band full-system dual-antenna GNSS module supports single-antenna high-precision positioning and speed measurement and dual-antenna rapid orientation functions, providing comprehensive and accurate location information for the drone.
Multi-interface design, easy integration
Taking into account the needs of different users, ER-GNSS/MINS-05 provides a variety of communication interfaces, including RS422/RS232 and CAN, making system integration more convenient and quick. The precision aluminum alloy shell is not only beautiful, but also improves the reliability of the system.
Integratednavigation, leading the future
By integrating the advantages of the inertial navigation system (INS) and the satellite navigation system (GNSS), ER-GNSS/MINS-05 can not only provide key information such as attitude, heading, and altitude to the flight control system, but also help the flight control system to achieve autonomous flight and stable fuselage attitude, greatly improving the flexibility and accuracy of the drone in aerial performances.
With the continuous advancement of UAV technology, ER-GNSS/MINS-05 will undoubtedly become the preferred navigation system for UAV aerial performances due to its high cost-effectiveness and high reliability. It can not only meet the needs of the current market, but also lead the development direction of future navigation technology.
More Technical Questions
1. What Is GNSS-aided MEMS INS and How Does It Work?
2. How to Improve the Performance of MEMS Inertial Navigation Systems?
3. Full-temperature Performance Optimization Method For MEMS accelerometer
4. Classification And Performance Improvement Of MEMS Gyroscope
5. MEMS Accelerometer Packaging Technology
6. Performance Analysis of GNSS RTK Timing