Class / Patent application number | Description | Number of patent applications / Date published |
356400040 | Of degree of defocus | 7 |
20080285007 | SYSTEM AND METHOD FOR MEASUREMENT OF THICKNESS OF THIN FILMS - A measurement system that uses a laser triangulation device to measure the thickness of transparent and/or opaque layers of a multilayer film. The triangulation device has a laser device that projects a beam perpendicularly to a surface of the multilayer film and first and second detectors that image first and second reflected rays of the beam at first and second distances offset from first and second optical axes to produce first and second measurement signals. A controller processes the measurement signals using a triangulation procedure and a simultaneous equation procedure to provide a thickness of an outer transparent layer. For a multilayer film having an opaque layer sandwiched between outer transparent layers, first and second triangulation devices are disposed on opposed sides of the film to measure the thickness of each outer film. Knowing the distance between the two devices, the thickness of the opaque layer can be derived. | 11-20-2008 |
20100283989 | DYNAMIC COMPENSATION OF CHROMATIC POINT SENSOR INTENSITY PROFILE DATA SELECTION - In a chromatic point sensor, distance measurements are based on a distance-indicating subset of intensity profile data, which is selected in a manner that varies with a determined peak position index coordinate (PPIC) of the profile data. The PPIC indexes the position a profile data peak. For profile data having a particular PPIC, the distance-indicating subset of the profile data is selected based on particular index-specific data-limiting parameters that are indexed with that same particular PPIC. In various embodiments, each set of index-specific data-limiting parameters indexed with a particular PPIC characterizes a distance-indicating subset of data that was used during distance calibration operations corresponding to profile data having that PPIC. Distance-indicating subsets of data may be compensated to be similar to a corresponding distance-indicating subset of data that was used during calibration operations, regardless of overall intensity variations and detector bias signal level variations. | 11-11-2010 |
20110228250 | LENS CONFIGURATION FOR A THERMALLY COMPENSATED CHROMATIC CONFOCAL POINT SENSOR - A chromatically dispersive lens configuration including thermal compensation may be utilized in chromatic confocal point sensor optical pens for chromatic range sensing. The lens configuration may include a negative power doublet lens and a positive power lens portion. The positive power lens portion comprises at least two lens elements which compensate for the overall thermal sensitivity of a chromatic confocal point sensor optical pen. The lens elements of the positive power lens portion which compensate for thermal sensitivity have an average coefficient of thermal defocus which is in a range that is at lowest 10 ppm per 10° C. The lens configuration can be implemented with dimensions which fit a standard commercial chromatic confocal point sensor optical pen, while maintaining a level of optical performance sufficient for chromatic range sensing. | 09-22-2011 |
20120069320 | OPTICAL RANGEFINDER AND IMAGING APPARATUS WITH CHIRAL OPTICAL ARRANGEMENT - An optical rangefinder having a photosensor adapted to transform the image projected thereon into an electronic image, an imaging system for projecting an image of an object on the photosensor, an optical arrangement to modulate the incoming light forming the image on the photosensor, means for providing the spatial spectrum of the image and means for deriving the distance from the object to the rangefinder on the degree of defocus of the image, wherein the optical arrangement is adapted to modulate the incoming light such that the degree of defocus of the image on the photosensor relative to the in-focus image plane results in displacement of the spatial spectrum of the image relative to a reference pattern and wherein the rangefinder has means for deriving the degree of defocus from the degree of displacement. | 03-22-2012 |
20120120383 | DISTANCE MEASURING DEVICE AND IMAGING DEVICE - A distance measuring device including a polarizing element disposed on a plane conjugate with a pupil of an objective lens, an optical rotatory plate rotating a polarizing axis of light which has passed through the polarizing element, a polarization separation element separating light which has passed through the optical rotatory plate into a first light beam and a second light beam, a first imaging element forming a first image by the first light beam, a second imaging element forming a second image by the second light beam, and a focus detector detecting a focus state based on relative deviation between the first image and the second image which correspond to a same region of a subject. | 05-17-2012 |
20150346341 | Method and Device for Determining the Position Coordinates of a Target Object - Method for determining the position coordinates (X | 12-03-2015 |
20150346342 | Method and Device for Determining the Two-Dimensional Positional Coordinates of a Target Object - A method for determining the positional coordinates (X | 12-03-2015 |