Displacement sensing production process
Release Date:2025-05-14 Source: View count115
1. Eddy current probe
The structural design of the probe greatly reduces the influence of thermal deformation of plastic and adhesive on the position of the coil plane, leaving only a small amount of estimable error based on external dimensions. The design of the detection coil enables it to have a larger measurement range, with a probe diameter of D corresponding to a measurement range of approximately 0.4D, and maintaining high stability and linearity throughout the entire measurement range.
2. Capacitive probe
The capacitive sensor probe adopts advanced materials and high stability probe technology, with extremely low surface roughness of the probe, minimizing the impact of temperature and humidity changes on the probe, and controlling the probe temperature drift and time drift at the nanometer level. The probe supports vacuum environment applications and displacement measurement in high-pressure environments.
1. Eddy current probe
The structural design of the probe greatly reduces the influence of thermal deformation of plastic and adhesive on the position of the coil plane, leaving only a small amount of estimable error based on external dimensions. The design of the detection coil enables it to have a larger measurement range, with a probe diameter of D corresponding to a measurement range of approximately 0.4D, and maintaining high stability and linearity throughout the entire measurement range.
2. Capacitive probe
The capacitive sensor probe adopts advanced materials and high stability probe technology, with extremely low surface roughness of the probe, minimizing the impact of temperature and humidity changes on the probe, and controlling the probe temperature drift and time drift at the nanometer level. The probe supports vacuum environment applications and displacement measurement in high-pressure environments.
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