Abstract: An automatic parts counter with an x-ray imaging system to image parts disposed in at least one of a component reel, component trays, cut tape; an image processing algorithm to count the image parts; and a docking interface for docking to a storage unit.

Abstract: An automatic parts counter with an x-ray imaging system to image parts disposed in at least one of a component reel, component trays, cut tape; an image processing algorithm to count the image parts; and a docking interface for docking to a storage unit.

Abstract: An automatic parts counter with an x-ray imaging system to image parts disposed in at least one of a component reel, component trays, cut tape; an image processing algorithm to count the image parts; and a docking interface for docking to a storage unit.

Abstract: An automatic parts counter with an x-ray imaging system to image parts disposed in at least one of a component reel, component trays, cut tape; an image processing algorithm to count the image parts; and a docking interface for docking to a storage unit.

Abstract: An automatic x-ray inspection system and method for inspecting objects, containing a cabinet, a path for an object to roll within the cabinet, from an entry point to an exit point, wherein the path utilizes gravity to alter the position and orientation of the object as it travels along the path, an x-ray imaging system to image the object along the path within the cabinet, wherein the x-ray imaging system has a field of view that captures views of the object along the object's travel, and a computer algorithm to determine a thickness of at least one of a shell and center of the object, wherein if a uniform thickness is determined, the object is tagged as passed or non-passed.

Abstract: An automatic x-ray inspection system and method for inspecting objects, containing a cabinet, a path for an object to roll within the cabinet, from an entry point to an exit point, wherein the path utilizes gravity to alter the position and orientation of the object as it travels along the path, an x-ray imaging system to image the object along the path within the cabinet, wherein the x-ray imaging system has a field of view that captures views of the object along the object's travel, and a computer algorithm to determine a thickness of at least one of a shell and center of the object, wherein if a uniform thickness is determined, the object is tagged as passed or non-passed.

Abstract: A method for mitigating parallax for component reels being x-ray inspected, containing an x-ray inspection system and a plurality of reels circularly arranged in a conical field of view of an x-ray source of the x-ray inspection system, wherein a reels' inner edge is disposed higher than a reels' outer edge, wherein a plane of a reel is substantially parallel to a ray distances from the x-ray source.

Abstract: A system and method for automating programming of an industrial use x-ray inspection machine, utilizing an artificial intelligence (AI) engine in both a navigator level and planner level stage of an x-ray parts inspection machine, the AI engine performing at least one of identifying, classifying and counting a sample, assessing location(s) to be inspected on the sample, and implementing a test or count criteria for each assessed location on the sample. The AI engine removes the typical interactions and setup procedures performed by the machine operator, thus enabling a higher degree of system automation and accuracy.

Abstract: A system and method for automating programming of an industrial use x-ray inspection machine, utilizing an artificial intelligence (AI) engine in both a navigator level and planner level stage of an x-ray parts inspection machine, the AI engine performing at least one of identifying and classifying a sample, assessing location(s) to be inspected on the sample, and implementing a test criteria for each assessed location on the sample. The AI engine removes the typical interactions and setup procedures performed by the machine operator, thus enabling a higher degree of system automation and accuracy.

Abstract: A method for mitigating parallax for component reels being x-ray inspected, containing an x-ray inspection system and a plurality of reels circularly arranged in a conical field of view of an x-ray source of the x-ray inspection system, wherein a reels' inner edge is disposed higher than a reels' outer edge, wherein a plane of a reel is substantially parallel to a ray distances from the x-ray source.

Abstract: A system and method for automating programming of an industrial use x-ray inspection machine, utilizing an artificial intelligence (AI) engine in both a navigator level and planner level stage of an x-ray parts inspection machine, the AI engine performing at least one of identifying and classifying a sample, assessing location(s) to be inspected on the sample, and implementing a test criteria for each assessed location on the sample. The AI engine removes the typical interactions and setup procedures performed by the machine operator, thus enabling a higher degree of system automation and accuracy.

Abstract: A microphoning assembly having a plurality of individual, sound directing, substantially parabolic structures are adjacently arranged to form a single structured acoustic, hemispherically directed array. The parabolic structures' absorption factor is less than 0.3. MEMS microphones of less than 2 mm in size are situated at each focus to pick up sound reflected from the parabolic structures, wherein a 10 dB gain is experienced. A microprocessor, a signal conditioning module, and an analog-to-digital converter is embedded in the array. The microprocessor contains instructions to perform a statistical analysis of among random variables to automatically separate sound sources received by the microphones and automatically determine a distance and direction of a source of the incoming sound.

Abstract: Systems and methods are described for a compact x-ray system that uses optical energy for triggering x-ray generation rather than a traditional filament. A photocathode is illuminated and the ensuing electrons are directed to an anode resulting in x-ray generation, resulting in increased x-ray source durability. Pulsing, beam forming, scanning, varying x-ray characteristics, longevity of source and other desirable attributes not currently available in the state of the art are achievable, through the use of shaped, multi-materialed photocathodes, shaped, multi-materialed anodes, arrays of optical lines, and so forth, as some examples. Inexpensive, highly controllable sources such as solid-state lasers can be used, permitting a wide variety of applications and power levels.

Abstract: Systems and methods are described for a sound focusing apparatus and method that permits directional sensitivity and increased amplitude sensitivity in very compact form factor. Advanced detection, localization, and identification of sources of sound that are an extended distance away can be accomplished using systems whose form factor are small enough to be used in teleconferencing, while providing superior acoustic performance characteristics.

Abstract: A smart device “plug-in” radiation module(s) and/or methods are described wherein the bulk of non-sensor radiation circuitry is off-loaded to the smart device. By attaching the radiation module to the smart device via a power/communication port (for example, the smart device's headphone/microphone jack) robust attachment can be achieved as well as uniformity of attachment across different smart devices. A very small radiation module form factor is obtainable, not to mention a very significant cost reduction, allowing widespread adoption of radiation detectors as well as radiation geo-mapping. Power for the radiation module can be obtained from the smart device's headphone plug, utilizing the audio out (speaker) signal's power. Similarly, input to the smart device can be facilitated via the audio in (microphone) signal. Further, output of the radiation module can be visualized on the smart device, as well as control functions.

Abstract: Systems and methods are described for a compact x-ray system that uses optical energy for triggering x-ray generation rather than a traditional filament. A photocathode is illuminated and the ensuing electrons are directed to an anode resulting in x-ray generation, resulting in increased x-ray source durability. Pulsing, beam forming, scanning, varying x-ray characteristics, longevity of source and other desirable attributes not currently available in the state of the art are achievable, through the use of shaped, multi-materialed photocathodes, shaped, multi-materialed anodes, arrays of optical lines, and so forth, as some examples. Inexpensive, highly controllable sources such as solid-state lasers can be used, permitting a wide variety of applications and power levels.

Abstract: A reel-like format for transporting devices under test (DUT) into low power x-ray inspection system allows for high speed transportation and inspection that is several orders of magnitude faster than conventional systems. The system can be configured with a conveyor belt for handling of non-reel suitable DUTs. A stabilizing control mechanism precisely and accurately brings the tape (with components) into the x-raying window, that allows spatial displacement of a portion of the to-be-viewed tape.

Abstract: A cap for a radiation detection device of the type that utilizes a semiconductor medium includes a bias connection pad, a steering electrode, and a shielding layer. The steering electrode may be a grid steering electrode positioned parallel to the bias connection pad opposite a medium, or may be an electrode disposed perpendicular to the bias connection pad along the edge of a medium. The bias connection pad may be electrically connected or equipotent to the steering electrode. The cap may be formed of flexible circuit board, which may also connect the semiconductor detector to bias, detection or processing circuitry. The bias connection pad and the shielding layer can be maintained with fixed spacing to prevent vibration. A mezzanine card may be used to connect multiple detectors in a modular fashion.