An overview of capacitive sensors helps to understand their working principle and characteristics. Capacitive sensors operate based on the principle of measuring changes in capacitance caused by the presence or absence of an object. They consist of two conductive plates separated by a dielectric material. When an object enters the sensing field, it alters the capacitance, triggering a change in the sensor’s output. Capacitive sensors can detect both conductive and non-conductive objects and are suitable for various materials. Their high resolution, fast response time, and non-contact nature make them ideal for applications requiring precision and reliability. https://www.rechner-sensors.com/en
The importance of customization in capacitive sensors lies in the ability to tailor the sensor’s parameters and features to specific application requirements. No two applications are alike, and customization ensures optimal sensor performance and compatibility. Rechner sensors understands the significance of customization and offers a wide range of options to meet diverse needs. Through customization, sensors can be adjusted for sensitivity, output type, response time, and other parameters to achieve desired results. This customization allows for seamless integration into existing systems, promotes efficiency, and ensures accurate and reliable sensing. https://www.rechner-sensors.com/en