Automated laminography system for inspection of electronics
First Claim
1. A solder connection inspection device comprising:
- an X-ray source comprising;
an electron source for producing a beam of electrons;
an anode having a surface upon which said electron beam impinges; and
an electrical steering device for deflecting said electron beam to different locations on said anode surface, said steering device capable of causing said electron beam to rotate about an axis and to trace a path upon said anode surface thus causing said X-ray source to move in a first pattern, said first pattern defining a first plane;
an X-ray detector for producing an X-ray cross-sectional laminographic image of a cutting plane of said solder connection, said detector positioned to receive X-rays produced by said X-ray source which have penetrated said solder connection, said X-ray detector comprising;
a converter screen for producing an optical image corresponding to an X-ray image formed by said penetrating X-rays;
means for moving said converter screen such that it rotates about said axis and travels along a path defining a second pattern, said second pattern defining a second plane which is substantially parallel to said first plane;
an optical derotation device for transmitting said optical image from said rotating converter screen to a stationary optical image plane; and
a camera located at said stationary optical image plane for detecting said optical image, said camera having an electronic output which corresponds to said optical image;
a control system for synchronizing the motions of said X-ray source and converter screen, such that said optical image representations of said X-ray cross-sectional laminographic images are formed at said stationary image plane, said control system comprising;
a sensor which monitors the position of said converter screen along said second pattern and transmits coordinates corresponding to the screen position; and
a look up table which receives said coordinates from said sensor and transmits corresponding signals to said steering device thus causing said motion of said X-ray source to be synchronized with said motion of said converter screen; and
a digital image processing system for analyzing said cross-sectional images and deriving from said cross-sectional images information which is indicative of features of said solder connection, said image processing system comprising;
an image digitizer for receiving said electronic image signal from said camera and forming a digital representation of said image which corresponds to said X-ray cross-sectional image of said solder connection; and
a programmably-controlled computational section programmed to access predetermined regions of said digital image and to analyze said regions in accordance with a predetermined set of instructions for specific features indicative of particular types of solder defects.
1 Assignment
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Accused Products
Abstract
A tomographic inspection system wherein the electron beam of a microfocus X-ray tube is deflected in a circular scan pattern onto the tube anode in synchronization with a rotating detector that converts the X-ray shadowgraph into an optical image and derotates the image so as to be viewed and integrated in a stationary video camera. A computer system controls an automated positioning system that supports the item under inspection and moves successive areas of interest into view. In order to maintain high image quality, a computer system also controls the synchronization of the electron beam deflection and rotating optical system, making adjustments for inaccuracies of the mechanics of the system. The computer system can also operate under program control to automatically analyze data, measure characteristics of the item under inspection and make decisions regarding the acceptability of the item'"'"'s quality. The invention produces high resolution images in rapid succession so as to be suitable for use in conjunction with manufacturing production lines and capable of inspecting electronic devices, solder connections, printed wiring boards and other assemblies.
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Citations
44 Claims
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1. A solder connection inspection device comprising:
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an X-ray source comprising; an electron source for producing a beam of electrons; an anode having a surface upon which said electron beam impinges; and an electrical steering device for deflecting said electron beam to different locations on said anode surface, said steering device capable of causing said electron beam to rotate about an axis and to trace a path upon said anode surface thus causing said X-ray source to move in a first pattern, said first pattern defining a first plane; an X-ray detector for producing an X-ray cross-sectional laminographic image of a cutting plane of said solder connection, said detector positioned to receive X-rays produced by said X-ray source which have penetrated said solder connection, said X-ray detector comprising; a converter screen for producing an optical image corresponding to an X-ray image formed by said penetrating X-rays; means for moving said converter screen such that it rotates about said axis and travels along a path defining a second pattern, said second pattern defining a second plane which is substantially parallel to said first plane; an optical derotation device for transmitting said optical image from said rotating converter screen to a stationary optical image plane; and a camera located at said stationary optical image plane for detecting said optical image, said camera having an electronic output which corresponds to said optical image; a control system for synchronizing the motions of said X-ray source and converter screen, such that said optical image representations of said X-ray cross-sectional laminographic images are formed at said stationary image plane, said control system comprising; a sensor which monitors the position of said converter screen along said second pattern and transmits coordinates corresponding to the screen position; and a look up table which receives said coordinates from said sensor and transmits corresponding signals to said steering device thus causing said motion of said X-ray source to be synchronized with said motion of said converter screen; and a digital image processing system for analyzing said cross-sectional images and deriving from said cross-sectional images information which is indicative of features of said solder connection, said image processing system comprising; an image digitizer for receiving said electronic image signal from said camera and forming a digital representation of said image which corresponds to said X-ray cross-sectional image of said solder connection; and a programmably-controlled computational section programmed to access predetermined regions of said digital image and to analyze said regions in accordance with a predetermined set of instructions for specific features indicative of particular types of solder defects. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A laminographic apparatus for inspecting an electrical connection comprising:
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a moveable source of penetrating radiation; a steering device for controlling the motion of said source; an imaging system for producing a cross-sectional image of a cutting plane of said electrical connection wherein said cross-sectional image displays specific features of said electrical connection, said imaging system comprising; a radiation detector having a variable position image forming region wherein the position of said image forming region is monitored by a position sensor which transmits coordinates corresponding to its position; and a look up table which receives said coordinates from said sensor and transmits corresponding signals to said steering device thus causing said motion of said radiation source to be synchronized with said motion of said image forming region; and an image analysis system for analyzing said image to detect said specific features, wherein said image analysis system searches said cross-sectional image for predetermined characteristics and performs predetermined analytical tests on said cross-sectional image. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
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28. A method of inspecting an electrical connection between electrical components mounted on a printed circuit board comprising the steps of:
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producing a cross-sectional image of a cutting plane of said electrical connection which lies in a plane that is adjacent to a surface of said printed circuit board, wherein said step of producing said cross-sectional image further comprises the steps of producing X-rays with an X-ray source and detecting X-rays with an X-ray detector; searching said cross-sectional image for predetermined features of said electrical connection; and performing predetermined analytical tests on said cross-sectional image. - View Dependent Claims (29, 30, 31, 32, 33, 34, 35)
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36. A method for identifyig features of a solder joint using X-ray laminographs comprising the steps of:
producing a cross-sectional image of a cutting plane of said solder joint comprising the steps of; providing a source of X-rays wherein X-rays are produced by an electron beam impinging upon a target; directing said electron beam to different portions of said target, thus moving a location wherein said X-rays are produced by said X-ray source; detecting X-rays produced by said X-ray source with an X-ray detector having a variable position image forming region; moving the location of said X-ray detector image forming region; and synchronizing the motion of said location of the production of said X-rays with the motion of said X-ray detector image forming region with a feedback system; searching said cross-sectional image for predetermined characteristics; and performing predetermined analytical tests on said cross-sectional image. - View Dependent Claims (37, 38)
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39. A method of determining the quality of an electrical connection formed between a component mounted on a circuit board and a connection pad on said circuit board comprising the steps of:
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producing a high resolution cross-sectional image of a cutting plane of said electrical connection wherein said electrical connection has a first volume and said image has sufficient resolution to permit detection of a physical feature of said connection having a second volume which is substantially smaller than said first volume of said connection; searching said cross-sectional image for said predetermined physical feature of said electrical connection; identifying said predetermined feature found in said searching step; and analyzing said predetermined feature to determine the effect it has on the quality of said electrical connection.
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40. An apparatus for inspecting an electrical connection formed between a component mounted on a circuit board and a connection pad on said circuit board to determine the quality of the electrical connection, said apparatus comprising:
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an imaging system for producing a high resolution cross-sectional image of a cutting plane of an electrical connection wherein said electrical connection has a first volume and said image has sufficient resolution to permit detection of a physical feature of said connection having a second volume which is substantially smaller than said first volume of said connection; an image analysis system for analyzing said high resolution image to detect said physical feature, wherein said image analysis system searches said high resolution cross-sectional image for a predetermined characteristic and performs a predetermined analytical test on said cross-sectional image to determine a measure of the quality of said electrical connection.
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41. An electrical connection inspection device comprising:
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an X-ray source comprising; an electron source for producing a beam of electrons; an anode having a surface upon which said electron beam impinges; and an electrical steering device for deflecting said electron beam to different locations on said anode surface; an X-ray detector for producing X-ray cross-sectional laminographic images of a cutting plane of an electrical connection, wherein said detector is positioned to receive X-rays produced by said X-ray source which have penetrated said electrical connection, said X-ray detector comprising; a converter screen having a variable position image forming region for producing an optical image corresponding to an X-ray image formed by said penetrating X-rays; an optical transformation device for transmitting said optical image from said variable position image forming region to a stationary optical image plane; and a camera for detecting said stationary optical image, said camera having an electronic output which corresponds to said optical image; a control system for synchronizing the motions of said X-ray source and variable position image forming region such that said optical image representations of said X-ray cross-sectional laminographic images are formed at said stationary image plane, said control system comprising; a sensor which monitors the position of said variable position image forming region and transmits coordinates corresponding to said image forming region position; and a look up table which receives said coordinates from said sensor and transmits corresponding signals to said steering device thus causing said motion of said X-ray source to be synchronized with said motion of said variable position image forming region; and a digital image processing system for analyzing said cross-sectional images of said electrical connection, said image processing system comprising; an image digitizer for receiving said electronic image signal from said camera and forming a digital representation of said image which corresponds to said X-ray cross-sectional image of said electrical connection; and a programmably-controlled computational section programed to access predetermined regions of said digital image and to analyze said regions in accordance with a predetermined set of instructions for specific features of said electrical connection.
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42. A method for determining the quality of an electrical connection comprising the steps of:
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producing a cross-sectional image of a cutting plane of said electrical connection; searching said cross-sectional image for a specific feature in accordance with a predetermined set of instructions; and analyzing said specific features in order to determine the quality of said electrical connection.
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43. An apparatus for measuring a physical characteristic of an electrical connection comprising:
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a radiation source for providing a beam of transmissive radiation; an imager which detects transmissive radiation which is transmitted through said electrical connection and generates a cross-sectional electronic image of a cutting plane of said electrical connection; an image converter for converting said electronic image into a gray scale coded image; and an image processor comprising a library of analysis algorithms and predetermined inspection parameters wherein said processor receives said gray scale coded image, analyzes said gray scale coded image utilizing said analysis algorithms from said library thus performing predetermined computational analysis on said gray scale coded image based upon each selected analysis algorithm, and provides an output corresponding to a physical characteristic of said electrical connection.
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44. A method of detecting and characterizing a structural feature of an electrical connection, comprising the steps of:
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exposing an electrical connection to a beam of transmissive radiation having sufficient energy to penetrate said electrical connection; detecting transmissive radiation which is transmitted through said electrical connection to create an electronic cross-sectional image of a cutting plane of said electrical connection; converting said electronic cross-sectional image into a gray scale coded image; providing an analysis algorithm; and performing a predetermined computational analysis on said gray scale coded image using said analysis algorithm.
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Specification