Germany Novotechnik T-0075 displacement sensor is used to measure the displacement or motion of objects. The sensor adopts advanced technology and precise design with high accuracy and stability. The T-0075 displacement sensor uses the inductive principle for measurement. When an object is displaced or in motion, the coils in the sensor sense the changing magnetic field and convert it into an electrical signal. This electrical signal can be used to measure the magnitude of the displacement.
The Novotechnik T-0075 displacement sensor has the following features:
1.High accuracy: The sensor has high accuracy and can measure small displacements.
2.High stability: The sensor has stable performance and is not affected by environmental factors.
3.Non-contact measurement: The measuring principle of the sensor is based on magnetic field perception and does not require direct contact with the object, so there is no damage to the object being measured.
4.Wide temperature range: The sensor can operate in a wide temperature range and is suitable for a wide range of environmental conditions.
The German Novotechnik T-0075 displacement sensor is widely used in various industrial fields, such as automobile manufacturing, mechanical engineering, aerospace, etc. It can be used to measure the displacement of mechanical motion, changes in liquid level, and other applications that require displacement measurement.
Models related to Novotechnik T displacement transducers
t-0025
t-0050
t-0075
t-0100
t-0150
German Novotechnik T-0075 Displacement sensor is a displacement sensor that is used to measure the displacement or position of an object. Its working principle is based on capacitive sensing technology.
The sensor consists of a fixed electrode and a moving electrode. When the object moves, the moving electrode also moves with it and forms a capacitance with the stationary electrode. By measuring this change in capacitance, the displacement or position of the object can be determined.
Calibration methods can vary depending on the specific sensor model and usage requirements. In general, the calibration process consists of the following steps:
1.Install the sensor: Install the sensor on the object where the displacement needs to be measured, and make sure that there is good contact between the sensor and the object.
2.Connect the power supply: Connect the sensor to the appropriate power source to ensure that the sensor is working properly.
3.Zero calibration: Moves an object to a known zero position and records the value output by the sensor. This zero can be the starting position of the object or any known position.
4.Measurement calibration: Moves the object to another known location and records the value output by the sensor. Based on these known positions and the values of the sensor output, a relationship, such as a linear or other function, can be established between the displacement and the sensor output.
5.Verify calibration: Move the object to a different location and use the relationship resulting from the calibration to ** the value of the sensor output. The ** value is compared to the actual measured value, and if the difference is small, the calibration is successful.
It is important to note that calibration methods may vary depending on the specific sensor model and usage requirements. It is recommended to refer to the sensor's manual or contact the manufacturer for specific calibration methods and instructions.