Senyd automation
HOME >> Products >> Optical sensor >> Magnetostrictive linear position sensors

Laser displacement sensor with triangulation principle


Senyd laser displacement sensor with the principle of triangulation use a laser beam to illuminate a target object and a sensor to detect the reflected light. The sensor measures the position of the reflected laser beam on a detector, and based on this information, calculates the distance between the sensor and the target object.

triangulation principle laser displacement sensor allows for highly accurate and precise distance measurements, making it a popular choice for applications where precise positioning and measurement are required.

Magnetostrictive linear position sensors

Senyd magnetostrictive linear position sensor is a type of sensor used to measure linear position by utilizing the magnetostrictive effect. This sensor consists of a magnetostrictive waveguide, which is a wire or rod made of a magnetostrictive material such as nickel or iron.The sensor works by sending a high-frequency electrical pulse down the magnetostrictive waveguide, which generates a magnetic field. When a movable magnet interacts with this magnetic field, it causes the magnetostrictive material to change its shape slightly, producing a mechanical wave that travels back to the sensor head. By measuring the time it takes for this wave to return to the sensor head, the sensor can accurately determine the position of the magnet along the waveguide.