Neodymium Disc Magnetic sensors are used in critical applications that drive the economy, facilitate rapid communication and transport of goods and people, and keep us safe in our everyday lives.
A magnetic sensor works by converting magnetic or magnetically encoded information into electrical signals. Then, electronic circuits process this information. In a magnetic sensor, a permanent magnet’s role is to provide a magnetic field in an air gap, which can be either constant and extremely precise or highly variant in direction and magnitude.
For example, sensors in a standard vehicle are able to detect a vehicle’s velocity, position, and directional movement. Magnetic sensors are able to operate with no need for contact, meaning that there is no physical wear or tear to the sensor.
They are able to work through sealed barriers while maintaining high reliability in performance, making them an extremely valuable piece of technology.
Magnetic sensors are used in critical applications to measure a variety of essential variables, such as rotation angle, alignment, field strength, direction, proximity, and speed.
In order to perform at their highest level, a magnetic sensor must be evaluated for several factors, including its sensitivity, selectivity, reliability, environmental resistance, self-adaptability, size, weight, resistance against overload, and power consumption.
When designing a magnetic sensor, it is important to select the optimal magnetic material as well as to create an optimally designed sensor.
Do not hesitate to contact us,as an professional Sm2Co17 Magnet manufacturer, We will offer the best service for every customer.