Abstract: Herein disclosed is an x-ray florescence (XRF) test system which comprises an XRF test instrument used for testing a test target's responses to X-rays, the instrument including a test window allowing the X-ray and its responsive energy to pass through, and at least one window protecting film allowing X-rays to pass through and providing protections to the window, the film being configured to be coupled with the window in a fashion to be removed from or applied or reapplied over the window. The corresponding calibration mode can be manually or automatically applied according to the specific film presently in use.

Abstract: A rotary bolt hole eddy current inspection scanner using a differential eddy current probe, the circuitry of the scanner is embodied with a filtering circuit with three filters: FIR (Finite Impulse Response), a low pass filter, and a phase control filter (by means of a Hilbert transform). The result from a scan of a bolt hole is an output signal on an impedance plane exhibiting a “backwards 6” shape of stable size when the scanner changes its rotating rate significantly.

Abstract: Disclosed is a sample handling assembly facilitating a sample holding cell used for XRD analysis. The assembly holds the sample cell upright during sample loading and analysis phases. The sample handling assembly is vibrated, partly by a tuning fork, to allow the powder to flow into the sample cell. After the XRD analysis, a rotating arm holding the sample cell is rotated 180° to orient the sample cell completely upside down so that the sample can be emptied. Also disclosed are jets of air that are pulsed onto the sample cell, and/or into the sample cell funnel-tube assembly, to shake and clean the components.

Abstract: Disclosed is a Hall Effect instrument with the capability of compensating for temperature drift consistently, accurately and in real time of operation. The instrument embodies a four-point ohmmeter circuit measuring Hall Effect sensor resistance and tracking the effect of temperature on the Hall Effect sensor. The instrument takes into account a relationship between the temperature and a temperature compensation index on a per probe basis, which has exhibited a deterministic difference observed by the present inventor.

Abstract: Disclosed is an attachable spacer applied to the front base plate of a hand-held and self-contained XRF testing device that holds the face plate at a forwards tilt towards a test sample, and ensures that only the top rim of the face plate ever touches a test sample. The resulting triangular gap minimizes contact between the front plate window and the test surface, prevents the transfer of heat to the XRF testing device's circuitry, and locks in a fixed distance between the face plate of the XRF testing device and the sample being tested.

Abstract: Disclosed are a method of and an apparatus devising a packet based DDS circuitry for performing packet based a direct digital synthesizing (DDS) function within an electronic testing instrument. The circuitry comprising a DDS logic circuit configured to execute direct digital syntheses on a plurality of consecutive packets of sine-like waves, each packet having a length of a period precisely chosen such that the sine wave at the end of one packet matches up with the sine wave at the start of the immediate subsequent packet. Also disclosed is an eddy current testing circuitry using multiple outputs of the single packet based DDS, one of the output is used in a circuit producing reference signals approximating the response signals. With the usage of the packet based DDS, the reference signal can be highly effective in nulling the unchanging portion of the response signals.

Abstract: Disclosed is an ultrasonic IRIS inspection system and a method of providing automatically compensated concentric B-scans by means of curve-fitting the unadjusted tube boundaries from inspection data, and from the curve fitted theoretical circle, using non-linear regression analysis to determine an adjusted center. The off-center distance between the adjust center and the misaligned center is then used to produce concentric inspection result by compensating the unadjusted inspection result with the off-center distance.

Abstract: A non-destructive testing and inspection (NDT/NDI) system and method operable to conduct an ultrasonic scanning test on a test object that synchronizes and merges the apertures of two or more NDT sub-instruments in frequency and phase. Disclosed are a method of using a Phased Lock Loop (PLL) as a synchronizing clock/trigger generator, and also a method of using a General Positioning Clock (GPS) and a pulse per second (PPS) output. Both methods combine ultrasonic scanning data acquisition from two or more NDT sub-instruments, and transform the sub-instruments into one bigger NDT instrument.

Abstract: Disclosed is a calibration method and system for non-destructive testing and inspection (NDT/NDI). The method and system involve establishment of a reference database by conducting FMC acquisition on a first calibration block having standardly known indications with a first series of depths and under a laboratory standard calibration condition. Then phased-array operation is conducted on a second calibration block, which is substantially the same as the first block, having indications with a series of corresponding user measured depths and under a second calibration condition as close to the laboratory condition as possible. The calibration is then made with the gain compensation calculated based on the response signals from the indications of the second block, the first series of gain data from the reference database, and the user measured depths for the corresponding indications under the second calibration condition.

Abstract: Disclosed is an improved method of sizing a defect using a phased array system with a single probe orientation requiring only a simple one-pass scan. It is an improvement of the ADDT standard which is adapted to phased array systems with fixed probe orientations. Based on pre-configured parameters obtained from C-scans, the method as presently disclosed provides novel analysis on C-scans and more complete information on defects, including the orientation and sizes in length and depth or thickness of the defects. Phased array systems devised with the presently disclosed method can perform such inspection and complete sizing automatically for longitudinal, transverse and oblique defects in one pass of scan.

Abstract: A phased array ultrasonic inspection system configured for weld inspection includes a data analysis process with automated and optimized gating to take into account the actual distance between a phased array probe and a weld line. The system embodies a weld tracking module and a dynamic gating module. The tracking module produces dynamically corrected overlays of the weld line based on the echo signals, the dynamically corrected overlays having a series of offsets from the corresponding initial overlays. The dynamic gating module purposefully positions a plurality of data analysis gates to filter out noise signals caused by sources unrelated to the weld, and to provide dynamic target gating adjusted by at least part of the offset.

Abstract: Disclosed is a test stand that supports and stabilizes a handheld XRF analyzer, and holds a body of sample to be tested. The test stand allows both horizontal and vertical analysis positions of the analyzer. The preferred embodiment of the test stand comprises a shielded X-ray chamber in which samples are tested and which affixes to the XRF analyzer's window via a spring loaded handle, a stabilizing base to which the analyzer's handle is situated, and a stanchion for horizontal mounting of the XRF analyzer. In the horizontal orientation, the chamber contains an adjustable platform and soil sample retainer to facilitate the positioning of the sample to be tested. The stanchion can be stored under the base.

Abstract: Disclosed is a method and a phased array inspection device enabling calibration of the device with an optimized pulse rate, the pulse rate is derived based on the true adaptive value of the impedance of the specific phased array probe circuit or the pulser circuit and the circuit energy consumption limitations. The energy consumption limitations include the total energy made available by the power supply to the pulser and probe circuit and the pulser energy consumption with limitation due to pulser circuit's physical limit such as thermal limitation.

Abstract: A method of using a 1.5D array ultrasonic probe as a component of an inspection system intended for different diameter cylindrical parts without mechanical adjustments of the probe is presented. In particular, the method is presented as a way to improve the near surface resolution over an extended range of cylindrical parts diameter and inspection depths/tubes wall thickness with respect to usual 1D arrays of fixed curvature along the elevation axis. The method relies on a customizable concentric firing pattern of the acoustic pulses with respect to the cylindrical part surface, and on adjustment of the aperture size of the said array. The intended effect is to sharpen and minimize the extent of the front wall echo and to optimize the response from an eventual flaw in the inspected range.

Abstract: A system and method for overlaying, combining or connecting touch-screen input either in free-form or fixed form, with NDT/NDI inspection information. The resulting user interface functionality for digital NDT instrument allows users to make touch-screen input in unrestricted or restricted format and later review and analyze the touch screen input in a complete context of an inspection session such as timing, waveform and geometric information of a defect or measurement target.

Abstract: Disclosed is a Hall Effect instrument with the capability of compensating for temperature drift consistently, accurately and in real time of operation. The instrument embodies a four-point ohmmeter circuit measuring Hall Effect sensor resistance and tracking the effect of temperature on the Hall Effect sensor. The instrument takes into account a relationship between the temperature and a temperature compensation index on a per probe basis, which has exhibited a deterministic difference observed by the present inventor.

Abstract: Sample cell assemblies containing and holding powdered, granular, paste, or liquid samples are assembled and manufactured in a way that allows them to be inexpensive enough to be disposable and configured to be attached to a fork member for providing shaking or vibrating movement to the samples for X-ray Diffraction and X-ray Fluorescence testing. The sample cell assemblies include the usage of double-sided adhesive films and spacer for sealing the component of the sample cell assemblies, and latches as locking means for locking and unlocking the cell assemblies.

Abstract: Herein disclosed is an x-ray florescence (XRF) test system which comprises an XRF test instrument used for testing a test target's responses to X-rays, the instrument including a test window allowing the X-ray and its responsive energy to pass through, and at least one window protecting film allowing X-rays to pass through and providing protections to the window, the film being configured to be coupled with the window in a fashion to be removed from or applied or reapplied over the window. The corresponding calibration mode can be manually or automatically applied according to the specific film presently in use.