Abstract: Seismic wave sources and related methods are provided. A seismic wave source includes a housing, plural pillars and an excitation system. The housing is split in two halves along a plane including a longitudinal axis of the housing. The plural pillars are made of piezoelectric elements and are positioned inside the housing to have one end in contact with a semi-cylindrical middle portion of one half of the housing and another end in contact with a semi-cylindrical middle portion of the other half of the housing. The excitation system connected by wires to the plural pillars and is configured to provide electrical signals to the piezoelectric elements. Upon receiving the electrical signals from the excitation system, the pillars generate forces on the housing thereby generating seismic waves.

Abstract: An ultrasound sensor for distance detection includes a transducer external surface and a blockage sensor provided on the transducer external surface. The surface of the blockage sensor terminates flush with the transducer external surface and is sensitive to an electrical characteristic or is sensitive to a temperature present at the blockage sensor surface. In this way, the blockage sensor can determine whether the ultrasound transducer is blocked by a layer of ice or whether the sensor is free of blockage.

Abstract: An acoustic signal generation system may include a cylindrical-like object having a cylindrical-like surface which is configured to reflect an acoustic signal directed to a location on the surface in substantially different directions as the cylindrical-like object is rotated. The cylindrical-like surface may be on the exterior of the cylindrical-like object or form an interior surface of the cylindrical-like object. The cylindrical-like surface may be formed by a plurality of substantially flat surfaces connected to one another in a substantially cylindrical configuration. The flat surfaces may have different angular orientations with respect to the axis of rotation. An acoustic transducer may be configured and oriented so as to direct an acoustic signal to a location on the cylindrical-like surface as the cylindrical-like object rotates. A motor may be configured to cause the cylindrical-like object to rotate.

Abstract: A measuring apparatus includes an acoustic wave detecting unit that detects acoustic waves generated from a subject irradiated with light, and a member that is disposed between the acoustic wave detecting unit and the subject and that has an acoustic speed value smaller than an average acoustic speed value inside the subject. The thickness of the member is greater than a value obtained by dividing the acoustic speed value inside the subject by the minimum frequency detectable by the acoustic wave detecting unit.

Abstract: Provided is a transducer in which electrodes in a movable region are less likely to affect the mechanical characteristics of the movable region and in which nonuniform electrical potential distribution of the surface of the electrodes in the movable region is suppressed. The transducer includes first electrodes and second electrodes opposing the first electrodes with gaps interposed between therebetween. The resistance per unit area of the first electrodes differs in a movable region relative to the second electrodes and an unmovable region relative to the second electrodes. The first electrodes in the movable region and the first electrodes in the unmovable region have different thicknesses.

Abstract: An array of ultrasonic transducers is formed on a piezoelectric polymer foil. Ultrasonic transducer electrodes are formed on a first side of the foil and a ground layer is formed on a second side of the foil.

Abstract: A three-dimensional mechanical ultrasound probe includes a base; a transducer for emitting an ultrasonic signal; a driven wheel with a hole, the driven wheel being connected to the transducer, the transducer being swung by the driven wheel; a motor fixed on the base; and a transmission system connected to the motor and a first rope, the transmission system being driven by the motor, the first rope being driven by the transmission system, wherein the first rope is connected to the transmission system and a rope adjusting dowel; and wherein the adjusting dowel is pivotably inserted into the hole of the driven wheel.

Abstract: An object of the invention is to provide an ultrasonic diagnostic apparatus that can scan a region of interest at high speed and other regions at low speed. In the ultrasonic diagnostic apparatus of the invention, a two-dimensional array probe 1 formed by arranging a plurality of ultrasonic elements two-dimensionally transmits an ultrasonic beam to a three-dimensional region and receives a reflected signal. The ultrasonic beam scans a region on a pyramid, and the scan region is divided into a main scan region Am of a region of interest and a subscan region. The subscan region is divided into small regions As1, As2, As3, and As4. The number of main scanning times of the main scan region is larger than the number of subscanning times of the subscan region.

Abstract: A signal transmitter device comprises an electrical acoustic signal transmitter signal, which has a piezoceramic disk on a metal membrane, on a printed circuit board. The printed circuit board has an opening in the region of the piezoceramic disk or the metal membrane, wherein the metal membrane extends over the opening for the purpose of bearing on the printed circuit board in an edge region of the opening. The piezoceramic disk arranged on the metal membrane is arranged towards the opening and substantially in the region of the opening, wherein a contact projection as part of the printed circuit board for electrical contact-connection to the signal transmitter is provided at the edge region of the opening. Separate parts can thus be obviated.

Abstract: An acoustic source on a logging tool is used to generate acoustic waves in a borehole. Acoustic detectors on the logging tool measure the generated acoustic waves. Electrodes on the logging tool are used to measure the potential resulting from the generated acoustic wave. The output of the hydrophones and the electrodes corresponding to Stoneley wave components of the acoustic wave are processed to provide an estimate of formation permeability, acoustoelectric constant, and a velocity of a propagating second compressional wave in the formation.

Abstract: An acoustic wave device built-in module includes: a multilayer wiring board formed by stacking an insulating layer and a wiring layer; an acoustic wave device embedded in the multilayer wiring board; and an electronic component located on the multilayer wiring board and electrically coupled to the acoustic wave device, wherein the acoustic wave device includes: an electrode that is located on a substrate and excites an acoustic wave; and a sealing portion that includes a frame body located on the substrate so as to surround the electrode and a lid located on the frame body so as to form an air space above the electrode, and the lid is recessed toward the substrate.

Abstract: One feature pertains to an apparatus for communicating signals across an electromagnetic (EM) shield. The apparatus includes a first communication interface positioned at a first side of the EM shield that receives a first signal containing data, where the first signal is incapable of being transmitted across the EM shield. The apparatus also includes a processing circuit positioned at the EM shield's first side that generates a control signal based on the first signal. The apparatus further includes a transducer positioned at the EM shield's first side that receives the control signal, generates a second signal containing the data based on the control signal, and transmits the second signal across the EM shield to a second side of the EM shield. The apparatus may further include a second signal receiver positioned at the second side of the EM shield that receives the transmitted second signal from the first transducer.

Abstract: An ultrasound transducer includes an array of acoustic elements, an integrated circuit, and an interposer. The interposer includes conductive elements for electrically connecting the acoustic elements to the integrated circuit. The conductive elements are electrically connected to the integrated circuit. Solder is engaged between the acoustic elements and the conductive elements of the interposer such that the conductive elements of the interposer are electrically connected to the acoustic elements through the solder.

Abstract: An ultrasound transducer array according to an embodiment includes a substrate, a plurality of groove-like recesses arranged at a predetermined interval on one surface of the substrate, a cell region arranged between the recesses on the one surface side of the substrate, a flexible film configured to cover the substrate and the cell region and having fragility lower than fragility of the substrate, and a dividing groove having a width smaller than a width of the recess and reaching from the other surface of the substrate to the flexible film in the recess.

Abstract: A vibrating element manufacturing method by which adhesion is stabilized and yield is improved, a vibrating element, a vibrating actuator, a lens barrel and a camera system. A vibrating element manufacturing method is provided with a first step of arranging an elastic body on a holding member, a second step of forming an electromechanical transducing element by injection molding on the surface of the elastic body, and a third step of sintering the electromechanical transducing element by heating and bonding the elastic body with the electromechanical transducer element.

Abstract: The present invention generally relates to high frequency piezoelectric crystal composites, devices, and method for manufacturing the same. In adaptive embodiments an improved imaging device, particularly a medical imaging device or a distance imaging device, for high frequency (>20 MHz) applications involving an imaging transducer assembly is coupled to a signal imagery processor. Additionally, the proposed invention presents a system for photolithography based micro-machined piezoelectric crystal composites and their uses resulting in improved performance parameters.

Abstract: A close-proximity thermoacoustic sensor that can determine radiated ultrasound intensities by directly coupling a transducer via a coupling medium. The sensor captures the beam, converts the ultrasound power into heat, and indirectly measures the spatial average time average ultrasound intensity (Isata) by dividing the calculated power by the beam-cross-section (or the nominal area of the transducers).

Abstract: An ultrasonic transducer element chip includes a substrate, ultrasonic transducer elements and a reinforcing member. The substrate defines openings arranged in an array pattern. The ultrasonic transducer elements are respectively disposed at the openings on a first surface of the substrate. The reinforcing member is fixed on a second surface of the substrate opposite to the first surface of the substrate. The reinforcing member includes linear groove parts formed on a surface of the reinforcing member fixed on the substrate so that internal spaces of the openings and an external space of the substrate are in communication with each other via the linear groove parts. The linear groove parts extend along a plane of the surface of the reinforcing member, and they are arranged at an interval in a first direction smaller than a width of each opening on the second surface of the substrate in the first direction.

Abstract: A diaphragm includes a carbon nanotube film structure and an amorphous carbon structure composited with the carbon nanotube structure to form a stratiform composite structure. The carbon nanotube film structure defines a plurality of micropores therein. The amorphous carbon structure comprises a plurality of amorphous carbon particles received in the micropores.

Abstract: A multi-array type ultrasonic probe apparatus includes n tiles which transmit and receive an ultrasonic beam; and a substrate having n guide portions on which the n tiles are mounted, respectively, to be aligned in a multi-array. The multi-array ultrasonic probe apparatus may align tiles in identical directions and at identical levels to control a direction and a time for transmitting and receiving an ultrasonic beam to be transmitted and received at the tiles, thereby providing a stable ultrasonic beam.

Abstract: An ultrasound probe is provided that may improves specific desensitization of the frequency observed in the frequency characteristics and/or directional characteristics. The ultrasound probe related to this embodiment comprises an ultrasound transducer 10 and a plurality of acoustic matching layers 20 arranged in layers in the direction of irradiation irradiated from the ultrasound transducer 10, wherein, the plurality of acoustic matching layers 20 form a film and each of the adjacent acoustic impedance of longitudinal waves is substantially the same and has a different poisson's ratio.

Abstract: An ultrasonic device includes an ultrasonic element group, a first to an Nth driving electrode lines, first and second terminals. The ultrasonic element group includes a plurality of ultrasonic elements forming “N” columns arranged along a second direction intersecting with a first direction with each of the “N” columns including a plurality of the ultrasonic elements arranged along the first direction, “N” being a natural number that is equal to or more than 2. The first to the Nth driving electrode lines are arranged along the first direction. An ith driving electrode line is connected to the ultrasonic elements constituting an ith column among the “N” columns, with “i” being a natural number equal to or less than “N”. The first terminal is connected to one end of the ith driving electrode line, and the second terminal is connected to the other end of the ith driving electrode line.

Abstract: A head unit for an ultrasonic probe includes a connecting section, an element chip and a supporting member. The connecting section is configured to electrically connect the head unit to a probe main body of the ultrasonic probe. The element chip is configured to be electrically connected to the probe main body through the connecting section. The element chip includes a substrate and an ultrasonic element array. The substrate defines a plurality of openings arranged in an array pattern. The ultrasonic element array includes a plurality of ultrasonic transducer elements, with each of the ultrasonic transducer elements being provided in each of the openings of the substrate. The supporting member supports the element chip.

Abstract: An ultrasonic transducer element chip includes a substrate, a plurality of ultrasonic transducer elements, a wiring part and an additional wiring part. The substrate defines a plurality of openings arranged in an array pattern. Each of the ultrasonic transducer elements is provided in each of the openings. The wiring part is connected to the ultrasonic transducer elements. The additional wiring part is disposed in a peripheral region between an outline of the array pattern of the openings and an outer edge of the substrate in a plan view as viewed along a thickness direction of the substrate. The additional wiring part is electrically insulated from the wiring part. The additional wiring part is longer than a shortest distance between the outline of the array pattern and the outer edge of the substrate in the plan view.

Abstract: A method of monitoring laser shock peening of a material includes forming an ablative layer on the material, directing the laser beam at the ablative layer to produce an acoustic wave in the material, converting the acoustic wave in the material to thermal energy external to the material and measuring the thermal energy.

Abstract: A transducer for converting an input signal fed to a first input (2) into a corresponding electric output signal that is output via an output (3). The input signal can be processed via an analog transmission path (4) into an analog converter signal. The transducer allows for a quick conversion of the input signal into a corresponding output signal having a high accuracy and suitable for applications having increased safety requirements, wherein the input signal can be additionally processed via a separate digital transmission path (5) into a digital converter signal. The analog converter signal and the digital converter signal are evaluated by an evaluation unit (6) and the evaluation unit (6) generates the electric output signal based on the analog converter signal or the digital converter signal.

Abstract: A bobbin includes a carbon nanotube film structure and an amorphous carbon structure. The carbon nanotube film structure defines a number of micropores therein. The amorphous carbon structure is composited with the carbon nanotube structure. The amorphous carbon structure comprises a number of amorphous carbon particles received in the micropores.

Abstract: The present invention relates to a transducer (11) comprising—a membrane (31) configured to change shape in response to a force, the membrane (31) having a first major surface (16) and a second major surface (17),—a piezoelectric layer (18) formed over the first major surface (16) of the membrane (31), the piezoelectric layer (18) having an active portion,—first and second electrodes (19) in contact with the piezoelectric layer (18), wherein an electric field between the first and second electrodes (19) determines the mechanical movement of the piezoelectric layer (18),—support structures (40) at the second major surface (17) of the membrane (15) on adjacent sides of the active portion of the piezoelectric layer (18), at least part of the support structures (40) forming walls perpendicular, or at least not parallel, to the second major surface (17) of the membrane (31), so as to form a trench (41) of any shape underlying the active portion, so that an ultrasound transducer is obtained with a high output press

Abstract: A system and method to optimize the overall power output of a photovoltaic solar array. The solar panels are connected to software adjustable power optimizing devices, which in turn are connected to a mesh network with individual router devices. The individual router devices will send and receive data packets by creating or detecting vibrations in a solid vibration conducting media (such as the solar power wiring) that connects the individual photovoltaic solar panels. Often at least one centralized control device is used to periodically request sensor data packets from the individual router devices and solar panels. The centralized control device will typically compute the proper adjustments for the individual adjustable power optimizing devices that will optimize the overall power output from the photovoltaic solar array. The control device will then send adjustment data packets back to the individual router devices through the mesh network, thus optimizing overall power output.

Abstract: An ultrasound probe is provided that includes piezoelectric bodies, each of which is provided with electrodes on the front surface on the side from which ultrasound is emitted and a rear surface opposing the front surface. At least a part of the ultrasound probes is disposed in a curved manner. A flexible printed circuit board comprises a first part that is provided in parallel with the curved surface of the piezoelectric bodies in a circular direction on the rear surface side of the piezoelectric bodies, and a second part that extends from the first part near the end part of the arranged piezoelectric bodies and further extends to the electronic circuit, the electric circuit, or the interface. Furthermore, the flexible printed circuit board is provided with a wiring pattern that conducts between at least one electrode of the piezoelectric body and the electronic circuit, the electric circuit, or the interface.

Abstract: A micromachined ultrasonic transducer (MUT) circuit, which has a MUT with a MUT membrane that can vibrate back and forth to transmit an ultrasonic wave, electrically controls the movement of the MUT membrane by controllably transferring energy to the MUT membrane, thereby allowing the MUT membrane to transmit substantially any desired ultrasonic wave.

Abstract: An ultrasound diagnosis apparatus that can acquire ultrasound image data having excellent spatial resolution and contrast resolution by electrically controlling focusing points of transmission/reception waves so as to form transmitting beams and receiving beams having substantially uniform thin beam width along an elevation direction. Ultrasounds emitted from a prescribed number of transducers are focused at a hypothetical point sound source. Wave-fronts reflect at a plurality of observing points. Ultrasounds reflected at the observing points are received through a prescribed number of transducers generating a plurality of channels of receiving signals, which are focused by performing phase compensation and summation so that the observing point becomes a reception focusing point. The receiving signals are focused to correct transmitting delays due to propagation distances between the transmitting focusing point and the observing points.

Abstract: An ultrasonic transducer includes a first flexible substrate, a plurality of ultrasonic elements and a substrate deforming part. The ultrasonic elements are disposed on the first flexible substrate, and configured and arranged to transmit and receive ultrasonic waves. The substrate deforming part is configured and arranged to flex the first flexible substrate in a first direction and in a second direction that intersects with the first direction.

Abstract: Methods and systems for transitioning a transducer voltage between a first voltage level and a second voltage level are provided. A method includes pulling a transducer voltage to the first voltage level, pulling the transducer voltage from the first voltage level to an intermediate voltage level, and pulling the transducer voltage from the intermediate voltage level to the second voltage level. The intermediate voltage level includes an intermediate voltage level between the first voltage level and the second voltage level.

Abstract: An ultrasonic transducer assembly for use in sensing the location of objects in proximity to the transducer. The ultrasonic transducer assembly includes a piezoceramic resonator plate and a coupler. The resonator plate is supported to the coupler in cantilever relation. The coupler extends transverse to the resonator plate for acoustically coupling the resonator plate to a medium in contact with the coupler.

Abstract: An ultrasonic sensor unit includes a transmission base plate and a reception base plate. The transmission base plate includes an ultrasonic transmission sensor configured and arranged to transmit ultrasonic waves. The reception base plate includes an ultrasonic reception sensor configured and arranged to receive the ultrasonic waves. One of the transmission base plate and the reception base plate define a through-hole at a position corresponding to one of the ultrasonic transmission sensor and the ultrasonic reception sensor provided in the other of the transmission base plate and the reception base plate so that the one of the ultrasonic transmission sensor and the ultrasonic reception sensor is exposed through the through-hole.

Abstract: A vehicle presence notification apparatus notifies a presence of a vehicle by providing easily-perceivable and less uncomfortable notification sound outside of the vehicle. The vehicle presence notification apparatus includes: a speaker and a controller. The controller is configured to cause the speaker to generate the notification sound that simultaneously has (i) at least one fundamental high frequency, which is easily perceivable, but annoying to human ears; and (ii) at least one auxiliary low frequency, which is less than the at least one fundamental high frequency and has a harmonic relation with the at least one fundamental high frequency.

Abstract: A CMUT on CMOS imaging chip is disclosed. The imaging chip can use direct connection, CMOS architecture to minimize external connections and minimize chip cross-section. The CMOS architecture can enable substantially the entire chip area to be utilized for element placement. The chip can utilize arbitrarily selected transmit (Tx) and receive (Rx) element arrays to improve image quality, while reducing sampling time. The chip can comprise a plurality of dummy elements dispersed throughout the Tx and Rx elements to reduce cross-talk. The chip can utilize batch firing techniques to increase transmit power using sparse Tx arrays. The chip can comprise hexagonal Tx and or Rx subarrays for improved image quality with reduce sample sizes. The chip can utilize electrode geometry, bias voltage, and polarity to create phased and amplitude apodized arrays of Tx and Rx elements.

Abstract: An ultrasound system that detects a characteristic of an ultrasound wave. The system includes a circuit member defining a sensing portion operable to be exposed to the ultrasound wave. The system also includes a current generating device that generates a current in the sensing portion of the circuit member. Furthermore, the system includes a voltage sensor that detects a voltage across the sensing portion due to the exposure to the ultrasound wave to thereby detect the characteristic of the ultrasound wave.

Abstract: Apparatus or techniques can include obtaining information indicative of energy, such as ultrasonic energy, reflected from a tissue region, forming respective input matrices representative of the obtained information, the input matrices respectively comprising an ensemble-of-interest and at least one ensemble corresponding to a spatial location nearby a spatial location corresponding to the ensemble-of-interest, performing respective singular value decompositions on the respective input matrices to obtain respective sets of singular values corresponding to respective sets of singular vectors, obtaining respective output matrices including weighting a respective projection of a respective ensemble-of-interest onto at least one of the singular vectors included in a respective set of singular vectors, and, using the respective output matrices, at least one of determining a characteristic, or constructing an image, of at least a portion of the tissue region.

Abstract: A distance sensor equipped with a mount for mounting the sensor in a mount hole of a bumper of a vehicle. The mount includes a casing with a sensor holder, a bezel, and a resin-made retainer. The bezel is made up of a cylindrical member joined to the sensor holder and a flange having an outer diameter greater than an inner diameter of the mount hole. The retainer includes an annular base joined to the bezel, a plurality of arms, and a plurality of protrusions. The protrusions extend from ends of the arms radially outward of the base and serve to establish a snap-fit on a peripheral edge of the mount hole, thereby nipping a wall of the bumper between the protrusions and the flange tightly to secure the distance sensor to the bumper.

Abstract: Electro-acoustic transducers and methods of manufacturing the electro-acoustic transducer are provided. An electro-acoustic transducer includes: a first wafer including a first substrate in which a plurality of electro-acoustic transducer cells are formed; and a second wafer disposed in a lower portion of the first wafer, and including a second substrate in which a plurality of through wafer vias are formed. A method of manufacturing an electro-acoustic transducer includes: forming a plurality of electro-acoustic transducer cells in a first substrate of a first wafer; forming a plurality of through wafer vias in a second substrate of a second wafer; and bonding the first and second wafers to each other.

Abstract: Devices are disclosed for obtaining data of a sample, particularly data capable of being processed to produce an image of a region of the sample. An exemplary device includes a light-beam source, an acoustic-wave source, an optical element, and an acoustic detector. The optical element is transmissive to a light beam produced by the light-beam source and reflective to acoustic waves produced by the acoustic-wave source. The optical element is situated to direct the transmitted light beam and reflected acoustic wave simultaneously along an optical axis to be incident at a situs in or on a sample to cause the sample to produce acoustic echoes from the incident acoustic waves while also producing photoacoustic waves from the incident light beam photoacoustically interacting with the situs. The acoustic detector is placed to receive and detect the acoustic echoes and the photoacoustic waves from the situs. The acoustic detector can comprise one or more hydrophones exploiting the acousto-electric effect.

Abstract: Direct digital speaker apparatus receiving a digital input signal and generating sound accordingly, the apparatus comprising an array of pressure-producing elements and a controller operative to compute a timing pattern determining if and when each pressure-producing element is actuated so as to achieve a desired directivity pattern.

Abstract: The present invention is directed to a transducer module including a first transducer and a second transducer. The second transducer is disposed between the first transducer and a first plate.

Abstract: A sparker array includes a plurality of sparker sources of sound and light emissions, the plurality of sparker sources arranged in a geometric pattern with respect to a region, the array configured to deliver a maximal acoustic output to the region. Sparker sources may include reflectors. A single electrical source to drive a sparker array may be employed. A sparker system may include two or more sparker arrays. A time delay may be employed to trigger electrical circuits of the sparker arrays. Sparker arrays may be used to deliver shock waves with increased operational life, consistency and efficacy for specific applications.

Abstract: In an ultrasonic transducer unit comprising a plurality of ultrasonic transducers, each of the ultrasonic transducers is provided with a recess formed in one face of an insulating substrate, and a substrate-side electrode is buried in a bottom of the recess, and a vibrating membrane is formed so as to cover the recess.

Abstract: An integrated acoustically generator-based system having a substrate, a plurality of micro generators (conversion apparatus) disposed on the substrate, the micro generators each generating a voltage output in response to acoustic vibrational energy received from the acoustic source, and at least one power processor disposed on the substrate, and the power processor being electrically coupled to outputs of the plurality of micro generators.

Abstract: An ultrasonic assembly for pool cleaners which applying ultrasonic energy. According to various embodiments of the present invention, such ultrasonic assembly may optionally be applied to enhance and improve cleaning operation of pools, removing contaminators and handle unneeded biological organisms and waste.

Abstract: A pressure wave generator includes a silicon substrate, a hole formed in the silicon substrate, and a film covering the hole. The film includes a multilayer film of a heat generating member and a heat insulating layer.