KR-200-V1 from Volfa is a displacement sensor. Displacement sensors are widely used in engineering to measure the displacement or amount of displacement of an object. It helps engineers monitor and control the motion status of mechanical systems and provide accurate measurement results. The VOLFA KR-200-V1 displacement sensor works on the basis of the piezoelectric effect. When an external force or pressure is applied, the sensor produces an electric charge whose magnitude is proportional to the applied force or pressure. The sensor measures the amount of displacement by converting the charge into an electrical signal. This conversion process is achieved through internal electronic components and circuitry.
The VOLFA KR-200-V1 displacement sensor has the characteristics of high precision, high sensitivity and fast response. It can measure tiny displacements, even less than 1 micron. The sensor uses non-contact measurement technology and does not cause damage or influence on the object being measured. It also has the advantages of high stability and strong anti-interference ability.
In addition, the VOLFA KR-200-V1 displacement sensor has a wide range of applications. It can be used to measure and control displacements in mechanical systems, aerospace, materials testing, and more. Sensors can be integrated with other devices and systems for automated control and data logging.
In conclusion, the German Volfa KR-200-V1 displacement sensor is a high-precision, high-performance sensor with a wide range of applications. It helps engineers accurately measure and control the displacement of objects, thereby improving the performance and efficiency of mechanical systems.
Germany Volfa KR displacement sensor related models
kr-10-v1
kr-50kr-25-a1
kr-50-a1
kr-50-v1
kr-75-a1
kr-100
kr-100-v1
kr-200-v1
kr-200-a1
VOLFA KR-200-V1 displacement sensor is a sensor used to measure the displacement of objects. Its working principle is based on electromagnetic induction.
The sensor contains a coil and a magnet. When the magnet is close to the coil, the magnetic field of the magnet generates an induced current through the coil. The magnitude of this induced current is related to the distance between the magnet and the coil. When the distance between the magnet and the coil changes, the magnitude of the induced current also changes.
The sensor determines the change in the distance between the magnet and the coil by measuring the magnitude of the induced current, so as to obtain the displacement information of the object. Typically, the sensor converts the induced current into a voltage signal, which is amplified and processed by appropriate circuitry, resulting in a displacement-dependent voltage signal.
By measuring displacement, the German Volfa KR-200-V1 displacement sensor can be applied in many fields, such as mechanical industry, aerospace, etc., for monitoring and controlling the position and movement of objects in the system.