Abstract: A device and method for detecting delamination in a panel of laminated composite. The device comprises an ultrasonic probe with a plurality of elementary transducers, an electronic device in communication with the elementary transducers, and a display device. The transducers emit an ultrasonic pulse and receive a pulse reflected by an element in the panel. The received pulses are grouped into clusters of healthy, or non-damaged, zones and damaged zones. The dimensions of the damaged zones are based upon the limits formed by healthy zones. A display of the defect with dimensions is produced on the display device. A scale image of the defect with dimensions, via paper or digital overlay, can be placed on the panel.

Abstract: The present disclosure relates to methodologies, systems and apparatus for cooling pump heads and providing balanced cooling and heat transfer between multiple pump heads. Multi-pump systems that are used to pump fluids that vary greatly in density with minor changes in temperature, such as the mobile phase of a CO2-based chromatography system, require highly stable temperature conditions. In order to achieve a substantially equal average heat transfer between multiple pump heads and a coolant fluid, coolant fluid may be flowed through coolant passageways within the pump heads in a recursive and/or parallel coolant flow patterns. Such recursive and/or parallel coolant fluid flow patterns provide increased stability in temperature, compressibility, and density of the fluids passing through a multi-pump system.

Abstract: The present invention relates to a system and method for molecular and/or atomic level detection of elements forming contraband such as concealed explosives, drugs, smuggled goods, etc., through the use of an acoustic frequency detector having a crystalline transducer module and elemental and mass comparator. The present invention can be employed in a non-destructive manner for the mobile and stationary inspection of objects such as luggage, persons, containers, etc., through a combination of computer-aided techniques and algorithms combined with a crystalline and oil enhanced transducer that, upon return of a system-generated acoustic signal, are used to screen and confirm explosive threats and/or other contraband.

Abstract: Methods and apparatus processing acceleration data of a sensing device to determine whether the device is located on an aircraft during landing or taking off or in the air or landed. Based on a state of the sensing device, such as take-off, the sensing device is prevented from transmitting signals. In embodiments, the sensing device compares network identifying information stored in memory of the sensing device and locally received network identifying information. For at least one positive comparison of the network identifying information stored in the memory and the locally received network identifying information, the sensing device is prevented from transmitting signals. In embodiments, the acceleration data and the network identifying information provide independent ways to selectively prevent the sensing device from transmitting signals.

Abstract: In some examples, a capacitive micromachined ultrasonic transducer (CMUT) array may include a plurality of CMUT elements arranged in a plurality of rows, each row including multiple CMUT elements. A bias voltage supply may be connected for supplying bias voltages to a first row, a second row, and a third row of the plurality of rows. In addition, a processor may be configured by executable instructions to control the bias voltages by applying a first bias voltage to the second row, and a second, different bias voltage to the first and third rows to configure the CMUT elements of the second row to at least one of transmit or receive ultrasonic energy with different efficiency than the CMUT elements of the first row and the third row. In some examples, individual contributions from different rows can be computed from different firing sequences for synthetic aperture beamformation in an elevation dimension.

Abstract: A load cell is provided with protection against damage from overload. The load cell has a load receiving member, a main member and a load transmitting member. The main member has a movable portion, a fixed portion and a first parallel guiding member for connecting the fixed portion and the movable portion. The load transmitting member has a first mounting portion for mounting the load receiving member, a second mounting portion for mounting the movable portion and a parallel guiding member for connecting the first mounting portion to the second mounting portion. The first mounting portion is movable vertically relative to the second mounting portion when a load being applied on the first mounting portion. The load-transmitting member is a single piece. The load cell also has a stop portion for preventing the first mounting portion from further moving downwardly for overload protection.

Abstract: A vibration sensor with a diaphragm that can be set into vibration, a piezo-electric drive for setting the diaphragm into vibration and for detecting vibrations in the diaphragm, with the drive having at least two serial mechanical piezo elements, a temperature sensor, with at least a first piezo element made from a first piezo-electric material and at least a second piezo element made from a second piezo-electric material.

Abstract: Provided herein are systems and methods for real time processing of signals from an array of transducers for detecting transient elastic waves originating from unknown locations in a body, which may propagate in a dispersive fashion. The systems and methods allow real time combination and analysis of signals, including decisions regarding storage as new data is received. The methods described herein include designing arrays of detectors and methods for processing signals in real time given the constraints of the body under test determining whether to store the set of information while a new set of information is received for processing within a real time environment. The methods described herein include methods which result in the determination or small time shifts which place all signals into a coherent time base which are then combined achieving a composite waveform that possesses an increased signal-to-noise ratio over any single element.

Abstract: A MEMS accelerometric sensor includes a bearing structure and a suspended region that is made of semiconductor material, mobile with respect to the bearing structure. At least one modulation electrode is fixed to the bearing structure and is biased with an electrical modulation signal including at least one periodic component having a first frequency. At least one variable capacitor is formed by the suspended region and by the modulation electrode in such a way that the suspended region is subjected to an electrostatic force that depends upon the electrical modulation signal. A sensing assembly generates, when the accelerometric sensor is subjected to an acceleration, an electrical sensing signal indicating the position of the suspended region with respect to the bearing structure and includes a frequency-modulated component that is a function of the acceleration and of the first frequency.

Abstract: Certain embodiments described herein are directed to devices that can be used in purging and loading applications. In some examples, a device configured to purge a sorbent tube until a desired water level is reached is provided. In other examples, a device configured to load a sorbent tube with a desired water level is provided. Systems and methods using the devices are also described.

Abstract: A support leg weighing sensor, comprising a support leg, a weighing sensor being arranged in the support leg, and the upper end of the support leg being provided with a connecting part connected to an object where the support leg is needed to be installed; an elastic body (40) in the weighing sensor is a section of the support leg; one end of the elastic body (40) has a concave spherical surface (5) or a concave arc surface; and the end, having the concave spherical surface (5) or the concave arc surface, of the elastic body is supported on a support ball (13) in the support leg, or the support ball (13) is supported on the concave spherical surface (5) or the concave arc surface.

Abstract: A vibrating member adapted for use in a vibrating densitometer is provided. The vibrating member comprises a base and a vibrating tube portion affixed to the base. The vibrating tube portion comprises an inner diameter and an outer diameter, wherein the inner diameter is axially shifted from the outer diameter such that the inner diameter is not concentric with the outer diameter, and wherein the axial shift increases a frequency separation between vibration modes in the vibrating tube portion.

Abstract: An electromagnetic acoustic transducer (EMAT) system for inspecting a part includes an EMAT sensor and a power supply for supplying an output power to the EMAT sensor. The power supply includes a DC/DC converter to boost an input DC voltage into a boosted DC voltage, a DC/AC inverter having Silicon Carbide (SiC) Mosfet power switches to invert the boosted DC voltage into an AC square voltage, and an output filter to filter the AC square voltage into an AC sinusoidal voltage. The AC sinusoidal voltage is the output power from the power supply to the EMAT sensor.

Abstract: Method, system, and device for ultrasonic signal emission and reception of reflected ultrasonic signal enabling non-destructive analysis of solid material such as in roads, bridges, and other constructions. The device being formed as a wheel (1) where the wheel (1) comprises an array of transducers (20) arranged on a base (3) attached to an axis (2) and a tire section (10) providing a sealed enclosure (7) around the array of transducers (20) where the tire section comprises a plurality of circular protruding sections (12) comprising a tire tread section (11, 22, 24, 25), and a coupling fluid (26) in the sealed enclosure (7) providing an acoustic transparency between the array of transducers and contact points (27) for the tire tread section (11, 24) towards a test material (15).

Abstract: A device which detects and locates an impact on a structure. The device includes at least three acoustic sensors so that an acoustic wave emitted at any point of a measurement space can be received through direct propagation by each of the sensors. The device also includes command controller configured to process the signals corresponding to the acoustic waves received by the acoustic sensors, to detect the occurrence of an impact, and to locate a point of the structure that is the source of an acoustic wave. At least one optical pointer is actuated by the command controller so as to designate an impact point located on the structure by illuminating a corresponding site of the structure.

Abstract: A method for measuring the concentration of a gas includes heating a first gas with a pulse of light, the pulse of light having a wavelength absorbed by the first gas, wherein the first gas exerts pressure on a flexible membrane. The method includes receiving a first signal indicating a first deflection of the membrane, wherein the first deflection is due to a change in pressure of the first gas and receiving a second signal indicating a second deflection of the membrane occurring after the first signal, wherein the second deflection is due to the change in pressure of the first gas. The method includes determining a difference between the first signal and the second signal and, based on the difference between the first signal and the second signal, determining a first concentration of the first gas.

Abstract: A scale and scanner system includes a controller to control operation of the scale and scanner system. A scale calibration parameter memory for storing scale calibration parameters is coupleable to the controller. A scanning module and a scale module are coupleable to the controller. When the controller is not coupled to the scanning module or scale module, the scale calibration parameter memory remains in the system.

Abstract: A weight measurement system able to hold a plurality of articles and measure the respective weight thereof. A weight measurement system includes a robot arm, a weight measurement device attached to the robot arm, a plurality of hand movement mechanisms attached to the weight measurement device, and a plurality of hands separately moved by respective motions of the plurality of hand movement mechanisms, wherein the weight measurement device measures a weight of a first article held by a first of the hands moved by a motion of a first of the hand movement mechanisms and a weight of a second article held by a second of the hands moved by a motion of a second of the hand movement mechanisms.

Abstract: Reelable sensors arrays are independently fabricated separate from a downhole tubular. The sensor arrays are then reeled together onto a spool. At the well site, the sensor array is unreeled from the spool and attached to the tubular as it is deployed downhole, resulting in a fast and efficient method of sensor deployment.

Abstract: A ball drop iris is provided for use in a ball drop testing apparatus. Included on the iris is a lower housing having an upper mounting flange having a ball opening and a body depending from the flange, the body defining a passage through which a test ball passes. A control ring is disposed on the upper mounting surface for sliding, rotating action relative to the lower housing. A plurality of iris petals is provided, each operationally connected to the control ring and to the upper mounting flange to pivot between a closed position in which the ball opening is blocked, and an open position in which the petals are simultaneously retracted and the opening is clear for passage of a test ball.