• Title of article

    Correcting capacitive displacement measurements in metrology applications with cylindrical artifacts

  • Author/Authors

    Smith، نويسنده , , Philip T. and Vallance، نويسنده , , R. Ryan and Marsh، نويسنده , , Eric R.، نويسنده ,

  • Issue Information
    فصلنامه با شماره پیاپی سال 2005
  • Pages
    12
  • From page
    324
  • To page
    335
  • Abstract
    Metrology applications commonly require non-contact, capacitive sensors for displacement measurements due to their nanometer resolution. In some metrology applications, for example, the measurement of roundness and spindle error motion, the displacements of stationary and rotating cylindrical artifacts are measured. Error from using a conventionally calibrated sensor with a non-flat (e.g., cylindrical) target is typically neglected, but these errors cannot be ignored for nanometer-level accuracy. The capacitance between a sensor and a cylindrical target is less than that of a sensor with a flat target, which causes four effects. As the diameter of the target shrinks, the sensitivity of the sensor increases, the sensing range decreases, the sensing range shifts towards the target, and the nonlinearity increases. These errors can be greatly reduced by either calibrating sensors with the correct target surface or by determining corrections for post-processing data. This paper quantifies and experimentally verifies these errors for a commonly used sensor, and a simulation of a nanometer-level measurement of out-of-roundness and spindle error motion demonstrates that measurement accuracy is improved with corrected sensitivities.
  • Keywords
    Displacement sensors , artifact , Metrology , Cylinder
  • Journal title
    Precision Engineering
  • Serial Year
    2005
  • Journal title
    Precision Engineering
  • Record number

    1429051