Patent ID: 6226036
Filing Date: 2001-05-01
Classification: G01B,G06T

Abstract:
An apparatus for optical investigation of an object, said apparatus comprising:a two-dimensional illuminating grid located in an illuminating plane, said grid producing a plurality of points of light for illuminating an object to be observed,a lens system that images the illuminating grid in a focal plane at the location of object and images an object light grid radiated from the object into a receiver plane as an imaged light grid, said receiver plane being arranged to be optically conjugate to the illuminating grid;a two-dimensional receiver array of receiver pixels, said array of receiver pixels being an array of photosensitive areas that are separated from one another and associated with light points of the object light grid, said photosensitive areas registering light points transmitted by the lens system;a prism grid that is two-dimensional and is associated with and located in front of the receiver array, said prism grid including a plurality of wedge-shaped prism pairs that deflect light laterally; anda processor,wherein during operation the prism grid is illuminated by the object light grid so that each light point of the object light grid is associated with a different corresponding prism pair of said plurality of prism pairs,wherein the prism grid is located at a distance from receiver array, at which, for each prism pair the light emerging from the associated light point of the object light grid when that associated light point lies in said focal plane falls into an aperture defined by that prism pair,wherein the photosensitive areas of the receiver array directly adjoin one another and a different at least two receiver pixels of the receiver array are associated with each prism pair, and wherein for each prism pair, the light emerging from the associated light point of the object light grid when that associated light point lies out of said focal plane is imaged symmetrically between receiver pixels that are associated with that prism and receiver pixels are impacted increasingly asymmetrically as the associated light point is located further outside the focal plane, andwherein the processor is programmed to determine individually for each of the light points of the object light grid a deviation from a focus position and hence a depth value for asymmetrically impacted at least two receiver pixels.