Optical sensing apparatus for detecting linear displacement of an object and method of operation thereof with detector matrix and centroid detection
First Claim
1. A sensing apparatus for detecting linear displacement of an object between first and second locations along an axis, said sensing apparatus comprising:
- a light source for projecting an incident light beam along an incident light path to said object;
a reflector affixed to said object to reflect said light beam along a reflective light path;
a photo-receptor array comprising an x-y matrix of photo-sensor elements located in said reflective light path and sufficiently closely spaced such that the reflected light beam impinges on a grouping of said photo-sensor elements of said array;
centroid determining means coupled to said photo-receptor array for determining a first centroid of said reflected light beam impinging on a first group of said photo-sensor elements of said photo-receptor array when said object is situated at said first location and for determining a second centroid of said reflected light beam impinging on a second group of said photo-sensor elements of said photo-receptor array when said object is displaced to said second location; and
processor means responsive to said centroid determining means for calculating the displacement of said object between said first and second locations by determining the difference between said first and second centroids.
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Accused Products
Abstract
Apparatus for sensing linear displacement of an object between first and second locations along an axis is used to sense conditions that can be made to vary displacement of an object in accordance with the condition, such as temperature, pressure and rotary motion. A light beam projected along an incident light path to the object is reflected along a reflective light path by a reflector affixed to the object. A photo-sensor array in the reflective light path intercepts the reflected light beam and produces samples of the intensity of the reflected image at multiple positions along a line across the array. An imager coupled to the array converts the light samples to representative electrical samples. The resultant light intensity information is provided to an electronic processor which determines a first centroid of the reflected image when the object is at a first location and a second centroid when the object is at a second location, and employs the difference between the first and second centroids to determine the displacement of the object.
24 Citations
13 Claims
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1. A sensing apparatus for detecting linear displacement of an object between first and second locations along an axis, said sensing apparatus comprising:
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a light source for projecting an incident light beam along an incident light path to said object; a reflector affixed to said object to reflect said light beam along a reflective light path; a photo-receptor array comprising an x-y matrix of photo-sensor elements located in said reflective light path and sufficiently closely spaced such that the reflected light beam impinges on a grouping of said photo-sensor elements of said array; centroid determining means coupled to said photo-receptor array for determining a first centroid of said reflected light beam impinging on a first group of said photo-sensor elements of said photo-receptor array when said object is situated at said first location and for determining a second centroid of said reflected light beam impinging on a second group of said photo-sensor elements of said photo-receptor array when said object is displaced to said second location; and processor means responsive to said centroid determining means for calculating the displacement of said object between said first and second locations by determining the difference between said first and second centroids. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of sensing linear displacement of an object between first and second locations along an axis comprising the steps of:
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providing an incident light beam to a reflector affixed to said object such that said reflector reflects said light beam onto a grouping of photo-receptors in a two-dimensional array of photo-receptors; determining a first centroid of the reflected light beam on a first group of said photo-receptors of said array of photo-receptors when said object is situated at said first location; determining a second centroid of the reflected light beam on a second group of said photo-receptors of said array of photo-receptors when said object is displaced to said second location; and calculating the displacement of said object between said first and second locations by determining the difference between said first and second centroids.
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12. A method of sensing linear displacement of an object along an axis comprising the steps of:
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affixing a mirror to said object such that when said object is displaced along said axis from a first location to a second location said mirror also moves along said axis; providing a light beam from a stationary source to said mirror such that said light beam is reflected by said mirror onto a grouping of photo-receptors in a two-dimensional array of photo-receptors; determining a first centroid of the light beam on a first group of said photo-receptors of said array of photo-receptors when said object is situated at said first location; determining a second centroid of said light beam on a second group of said photo-receptors of said array of photo-receptors when said object is displaced to said second location; and calculating the displacement of said object between said first and second locations by determining the difference between said first and second centroids.
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13. A method of sensing linear displacement of an object between first and second locations along an axis, said method comprising the steps of:
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projecting a light beam onto said object, said light beam being projected along an incident light path; reflecting said light beam from a mirror affixed to said object and situated in said incident path, said light beam being reflected along a reflective light path; intercepting the reflected light beam with a two-dimensional array of photo-receptors situated in said reflective light path, such that said reflected light beam impinges on a grouping of photo-receptors in said two-dimensional array; determining a first centroid of said reflected light beam impinging on a first group of said photo-receptors of said array of photo-receptors when said object is situated at said first location; determining a second centroid of said reflected light beam impinging on a second group of said photo-receptors of said array of photo-receptors when said object is displaced to said second location; and calculating the displacement of said object between said first and second locations by determining the difference between said first and second centroids.
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Specification