Patent application number | Description | Published |
20120092488 | PRECISION SOLDER RESIST REGISTRATION INSPECTION METHOD - A method is disclosed for operating a machine vision inspection system to determine a fluorescent imaging height for acquiring a fluorescent image for repeatably determining the location of a feature within the fluorescent material. The height of an exposed workpiece portion exposed outside of the fluorescent material is determined (e.g., using a height sensor or autofocus operations). The determined height is repeatable. The exposed portion has a characteristic height relative to the fluorescent material and/or features located therein. The fluorescent imaging height, which may be inside the fluorescent material, is determined relative to the determined height of the exposed portion. The fluorescent imaging height is determined such that it enhances the detection of the desired feature located within the fluorescent material in the resulting fluorescent image. For a variety of workpieces, the method provides automatic acquisition of appropriately focused fluorescent image more reliably than previously known methods. | 04-19-2012 |
20120243790 | EDGE LOCATION MEASUREMENT CORRECTION FOR COAXIAL LIGHT IMAGES - A method for correcting coaxial light image edge location errors in a precision machine vision inspection system is disclosed. The method comprises comparing an edge position measurement of a workpiece edge feature using coaxial light and stage light. Edge position measurements using stage light have a lower uncertainty than that of coaxial light. Position correction factors may be determined from the difference between the two edge position measurements. The position correction factors may be stored for correcting subsequent edge position measurements that are based on images acquired using coaxial light. In some embodiments, position correction factors may be determined based on comparing edge position measurements for a plurality of edges. | 09-27-2012 |
20130076892 | METHOD UTILIZING IMAGE CORRELATION TO DETERMINE POSITION MEASUREMENTS IN A MACHINE VISION SYSTEM - A method utilizing image correlation to determine position measurements in a machine vision system. In a first operating state, the machine vision system utilizes traditional scale-based techniques to determine position measurements, while in a second operating state, image correlation displacement sensing techniques are utilized to determine position measurements. The image correlation techniques provide for higher accuracy for measuring distances between features that are separated by more than one field of view. The user may toggle between the operating states through a selection on the user interface, and guidance may be provided regarding when the image correlation mode is likely to provide higher accuracy, depending on factors such as the distance to be measured and the characteristics of the surface being measured. | 03-28-2013 |
20130162806 | ENHANCED EDGE FOCUS TOOL - A method for operating an edge focus tool to focus the optics of a machine vision inspection system proximate to an edge adjacent to a beveled surface feature is provided. The method comprises defining a region of interest (ROI) including the edge in a field of view of the machine vision inspection system; acquiring an image stack of the ROI over a Z range including the edge; generating a point cloud including a Z height for a plurality of points in the ROI, based on determining a best focus Z height measurement for the plurality of points; defining a proximate subset of the point cloud comprising points proximate to the beveled surface feature and corresponding to the shape of the beveled surface feature; defining a Z-extremum subset of the proximate subset of the point cloud; and focusing the optics at a Z height corresponding to the Z-extremum subset. | 06-27-2013 |
20140055604 | MACHINE VISION INSPECTION SYSTEM COMPRISING TWO CAMERAS HAVING A ROTATIONAL OFFSET - A machine vision inspection system comprises an optical portion providing an image of a field of view of a workpiece which may be a magnified image. A first camera and a second camera provide first and second images of a shared or common field of view of the workpiece and are arranged such that the orientation of the common field of view imaged in the first camera is rotated relative to the orientation of the common field of view imaged in the second camera. Signal processing provides an edge measurement of an edge feature within the common field of view and determines which of the first and second images is used as a basis for the edge measurement based on whether their respective edge orientation (with respect to the pixel array of each camera) differs from the pixel array orientation of their associated camera by an orientation difference threshold amount. | 02-27-2014 |
20140126804 | EDGE MEASUREMENT VIDEO TOOL AND INTERFACE INCLUDING AUTOMATIC PARAMETER SET ALTERNATIVES - A user interface for setting parameters for an edge location video tool is provided. In one implementation, the user interface includes a multi-dimensional parameter space representation with edge zones that allows a user to adjust a single parameter combination indicator in a zone in order to adjust multiple edge detection parameters for detecting a corresponding edge. The edge zones indicate the edge features that are detectable when the parameter combination indicator is placed within the edge zones. In another implementation, representations of multiple edge features that are detectable by different possible combinations of the edge detection parameters are automatically provided in one or more windows. When a user selects one of the edge feature representation, the corresponding combination of edge detection parameters is set as the parameters for the edge location video tool. | 05-08-2014 |
20140362203 | Structured Illumination Projection With Enhanced Exposure Control - A method for controlling a structured illumination pattern generating portion is provided for illuminating a workpiece during an image acquisition by a camera in a precision machine vision inspection system. A controllable spatial light modulator (e.g., a digital light processing projector) is part of the generating portion for generating the structured illumination pattern. The pattern may comprise an array of stripes including a sinusoidal gray level intensity variation across each stripe. An overall image exposure is increased by repeating a complete structured illumination pattern generation iteration, including gray level variation, a plurality of times during an image integration period. Structured illumination microscopy techniques for determining a workpiece surface profile may benefit, wherein multiple (e.g., 3 or 4) images are acquired at respective focus positions to be analyzed, by using the method to project a different phase of a structured light pattern for each of the multiple images. | 12-11-2014 |
20150015696 | Focus Height Repeatability Improvement in a Machine Vision Inspection System - A method improves focus height repeatability in a machine vision inspection system. A region of interest is defined within a field of view imaged by a camera portion, wherein an aligned edge feature in the region of interest may introduce a focus height sensitivity that varies depending on the aligned edge feature offset relative to the image pixels. A first set of focus-determining operations determines a focus height for the region of interest, and comprise at least one of: (a) operations that reduce the sensitivity of the focus height determination to the offset of the aligned edge feature relative to the image pixels; and (b) operations that adjust the offset of the aligned edge feature relative to the image pixels according to a predetermined offset repeatability criteria, such that the image data used in the focus height determination fulfills the offset repeatability criteria. | 01-15-2015 |