Linear Variable Differential Transformers (LVDTs) are sensors that are widely used in aerospace applications to measure linear displacement. They are precise, reliable, and rugged, making them an ideal choice for use in harsh environments such as those found in aerospace systems. In this article, we will discuss some of the most common aerospace LVDT applications.
1. Flight Control Systems
LVDTs are used in critical flight control systems to measure the position of control surfaces such as flaps, ailerons, and elevators. They are also used to measure the position of landing gears, which is critical for aircraft safety during takeoff and landing. LVDTs are able to measure the position of these components with high accuracy and repeatability, ensuring that the aircraft is always under precise control.
2. Engine Control Systems
LVDTs are also used in engine control systems to measure the position of various engine components such as valves, pumps, and actuators. They are able to accurately measure the position of these components, which is critical for controlling and optimizing the engine's performance.
3. Fuel Systems
LVDTs are used in fuel systems to measure the level of fuel in tanks. They are able to accurately measure the level of fuel, which is critical for ensuring that the aircraft has enough fuel to reach its destination.
4. Landing Gear Systems
LVDTs are used in landing gear systems to measure the position of landing gear components such as wheels and struts. They are able to accurately measure the position of these components, which is critical for ensuring that the aircraft is stable during takeoff and landing.
In conclusion, LVDTs are an important component in aerospace systems. They are widely used to measure linear displacement in a variety of aerospace applications such as flight control systems, engine control systems, fuel systems, and landing gear systems. LVDTs are precise, reliable, and rugged, making them an ideal choice for use in harsh environments such as those found in aerospace systems.