Method and apparatus for measuring variations in distances
First Claim
1. Method for measuring variations in the distance between a point of reference and a surface of an object, said method comprising:
- directing a beam emitted from a substantially monochromatic light source onto said surface of said body;
combining in an interferometer light reflected from said surface of said object with a reference beam having a known path and from the same light source to give a combined beam;
converting said combined beam into an electric signal by means of light sensitive means;
effecting a substantially momentary change of the length of the path of said reference beam with a value corresponding to 1/4 wave-length of said emitted beam from said monochromatic light source;
converting said electric signal into an output signal in digitized signal processing means for establishing whether a change in sign takes place with respect to a mean value of said electric signal, the same or the opposite sign being applied to the registered variation of the signal if the electrical signal is positive or negative after said momentary change, providing said momentary change is an increase of the length of the path and the opposite application of the sign, if the change is a decrease of the length of the path of said reference beam, said digitized signal processing means comprising means for effecting a continuous processing of the first derivative of the curve of the electric signal, said output signal being an expression for the said variation in distance.
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Abstract
Method and apparatus for measuring variations in the distance between a point of reference and the surface of an object. In the method light emitted from a substantially monochromatic light source is reflected from the surface of the body and in an interferometer is combined with a reference beam with a known path and from the same light source and by means of a light sensitive device is converted into an electric signal. The electric signal is converted into an output signal in a digitized signal processing device comprising for a continuous processing component of the first derivative of the curve of the electric signal, which output signal is an expression for the variation in distance being measured. In order in a simple way to determine the sign or polarity of variation of the distance without reducing the wide field of measurement obtained by the method, the length of the path of the reference beam is substantially momentarily changed with a value corresponding to 1/4 wavelength of the emitted light. The digitized signal processing device is adapted to establish whether a change in sign takes place with respect to a mean value for said signal, the same or the opposite sign being applied to the registered variation of the distance if the electrical signal is positive or negative after the momentary change, providing the momentary change is an increase of the length of the path and the opposite application of the sign, if the change is a decrease of the length of the path of the reference beam.
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Citations
7 Claims
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1. Method for measuring variations in the distance between a point of reference and a surface of an object, said method comprising:
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directing a beam emitted from a substantially monochromatic light source onto said surface of said body; combining in an interferometer light reflected from said surface of said object with a reference beam having a known path and from the same light source to give a combined beam; converting said combined beam into an electric signal by means of light sensitive means; effecting a substantially momentary change of the length of the path of said reference beam with a value corresponding to 1/4 wave-length of said emitted beam from said monochromatic light source; converting said electric signal into an output signal in digitized signal processing means for establishing whether a change in sign takes place with respect to a mean value of said electric signal, the same or the opposite sign being applied to the registered variation of the signal if the electrical signal is positive or negative after said momentary change, providing said momentary change is an increase of the length of the path and the opposite application of the sign, if the change is a decrease of the length of the path of said reference beam, said digitized signal processing means comprising means for effecting a continuous processing of the first derivative of the curve of the electric signal, said output signal being an expression for the said variation in distance. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification