Sensor technology empowers the aviation/aerospace field, ushering in a new era of intelligent flight

In the aerospace field, every technological breakthrough is inseparable from the pursuit of precise perception and efficient control. Sensors are one of the key components of modern aviation/aerospace technology, featuring excellent performance and broad application prospects. They are an important guarantee for the safe and efficient operation of aircraft and are of great significance for promoting the development of China's aerospace industry.-Dedicated sensor for aviation

Fan control

The sensor is applied in fan control and can monitor the health status of the fan in real time, including online real-time monitoring of physical quantities such as strain and cracks. This sensor has advantages such as zero load, no energy consumption and easy implantation. It can accurately perceive the operating status of the fan without affecting its normal operation, promptly detect potential problems and prevent faults from occurring.Special sensor for fan control in aerospace field

Electromagnetic valve

Among the numerous systems in aviation/aerospace, the precise control of electromagnetic valves is of vital importance. High-precision solenoid valve position sensors can monitor the opening and closing status of the valve in real time, ensuring the precise delivery and control of fluids such as fuel oil and hydraulic oil.

By precisely controlling the electromagnetic valve, the sensor can ensure the normal operation of the engine's fuel supply system and hydraulic system, avoid system failure caused by valve failure, and thus ensure the safety and reliability of the aircraft.

Test equipment

Test equipment in the aerospace field needs to precisely measure various complex physical parameters. Various types of sensors, such as pressure sensors, temperature sensors, and vibration sensors, are widely used in testing equipment, capable of collecting real-time operational data of key components like engines and flight control systems.

These data provide an important basis for the design optimization, performance evaluation and fault diagnosis of aircraft. The application of sensors in testing equipment not only enhances R&D efficiency and reduces R&D costs, but also lays a solid foundation for the long-term maintenance and reliability improvement of aircraft.

Antenna

In aviation/aerospace communication systems, the precise pointing and attitude control of antennas are crucial for ensuring the stable transmission of communication signals. High-precision sensors such as inclinometers are widely used in fields like communication antenna vehicles and satellite communication antennas. These sensors can monitor the Angle and attitude changes of the antenna in real time, and achieve automatic alignment and stable tracking of the antenna through an intelligent control system, ensuring the efficient and reliable operation of the communication link.

Whether it is a communication base station on the ground, an aircraft in flight or a satellite in space, sensors can provide precise positioning and control for antennas, ensuring the uninterrupted transmission of communication signals and providing strong support for the smooth execution of aviation/aerospace missions.

Engine control

The aero engine is the "heart" of an aircraft, and the precise monitoring and control of its operating status is the key to ensuring flight safety. Sensors are widely used in engine control, including various types such as temperature sensors, pressure sensors, vibration sensors, and displacement sensors. These sensors can monitor key parameters of the engine in real time, such as the combustion chamber temperature, fuel pressure, blade vibration, and piston position, providing accurate data support for the engine's intelligent control system.

By precisely controlling parameters such as the combustion process, fuel injection volume, and blade Angle of the engine, sensors can optimize the engine's performance, enhance fuel efficiency, reduce pollutant emissions, and promptly detect potential faults to prevent engine failures from posing a threat to flight safety.

Switch

In aviation/aerospace equipment, the reliability and accuracy of various switches are directly related to the normal operation of the system. The switch sensor can operate stably in the complex aerospace environment and achieve the automatic operation and fault protection of the equipment through the intelligent control system.

For instance, in key components of an aircraft such as the landing gear system, door control system, and engine control system, switch sensors can ensure that the equipment operates at the correct time and position, avoiding potential safety hazards caused by misoperation or malfunctions, and enhancing the operational efficiency and safety of the aircraft.

As one of the core technologies in the aviation/aerospace field, sensors are providing all-round support for the safe and efficient operation of aircraft with their outstanding performance and wide application. From fan control to solenoid valves, from test equipment to antennas, from engine control to switch operations, sensors are everywhere and play an indispensable role.