A 1D ultrasonic transducer unit for material detection, comprising a housing having securing device for securing to a surface and having at least three discrete ultrasonic transducers designed to decouple sound waves with a consistent operating frequency between 20 kHz and 400 kHz in a gaseous medium, and a control unit designed to control each ultrasonic transducer individually, wherein two ultrasonic transducers, directly adjacent to one another, are spaced apart by a distance, the 1D ultrasonic transducer unit has a sound channel per ultrasonic transducer with an input opening, associated with exactly one respective ultrasonic transducer, and an output opening, the output openings are arranged along a straight line, a distance from the directly adjacent output opening corresponds at most to the full or half the wavelength in the gaseous medium and is smaller than the corresponding distance.

The ultrasonic oscillator unit has: an ultrasonic oscillator array in which a plurality of ultrasonic oscillators are arranged; an electrode part having a plurality of electrodes provided on an end surface side of the ultrasonic oscillator array and electrically connected to the plurality of ultrasonic oscillators, respectively; a backing material layer that is disposed on a back surface of the ultrasonic oscillator array, has an outer surface having a circular-arc cross-section and is provided with a recess on the inside thereof opposite to the outer surface; a wiring board having a plurality of wiring lines electrically connected to the plurality of electrodes of the electrode part; and a cable wiring part in which a plurality of cables connected to the plurality of wiring lines, respectively, are wiring-connected; at least a portion of the cable wiring part being included in the recess of the backing material layer.

The present disclosure provides an ultrasound transducer (UT) assembly for ultrasonic and photoacoustic dual-mode imaging of an endoscope, including a UT and a microlens integrated in the UT. The microlens is used for beam collimation or focusing and accommodated in an aperture of the UT. A probe/catheter including the UT assembly, an endoscopy system including the probe/catheter, and a method of manufacturing the UT assembly are also provided. The present application uses a photocurable glue and mold to form the microlens integrated in the UT and adopts the coaxial arrangement of the devices to solve the problems of light supply and device dimensions (rigid length and diameter), thereby simplifying the manufacturing process of intravascular photoacoustic (IVPA) probe/catheter.

Ultrasound devices, and associated methods of assembly thereof, are disclosed whereby an annular electrode array of an ultrasound transducer is electrically connected to a flexible printed circuit board in a compact configuration. The flexible circuit board includes an elongate flexible segment and a distal distribution segment, where the distribution segment is attached to a peripheral support ring that surrounds at least a portion of the ultrasound transducer. The distribution segment includes a plurality of spatially distributed contact pads, and electrical connections are provided between the contact pads and the annular electrodes of the annular array. A backing material may be provided that contacts and extends from the annular array electrodes, and a distal portion of the elongate flexible segment may be encapsulated in the backing material, such that the distal portion extends inwardly from the peripheral support ring, without contacting the electrical connections and without contacting the array surface.

A method for designing a piezoelectric element unit, a ultrasonic element having the piezoelectric element manufactured using the method, a method for manufacturing the ultrasonic element, and an acoustic pressure focusing device having the ultrasonic element are provided. In the method for designing a piezoelectric element unit, a target position and a target distance are selected. A basic information of a piezoelectric element base material is inputted. Each of a plurality of grids is grouped into a unit grid group. A size of an output acoustic pressure outputted at each unit grid group is calculated. The unit grid group outputting the output acoustic pressure included in a range of a reference acoustic pressure among a plurality of the unit groups is decided. The plurality of ring patterns being concentric is determined based on a pattern shape information.

Ultrasound transducer element arrays using acoustic ensonification drive patterns via a patient interface for sonosensitizer activation in sonodynamic therapy. Incoherent acoustic field generation varying phase, frequencies, and/or amplitude via controlled delivery of low intensity planar acoustic waves. Method includes generating a first and a second signal to generate respective acoustic ensonification drive patterns with phase, frequency, and amplitude and generating at least one relative phase, frequency or amplitude difference to generate a third incoherent acoustic ensonification pattern to activate a sonosensitizer. Calibration and complementary therapy procedures to improve cell susceptibility of cells to sonodynamic therapy are disclosed.

Piezoelectric devices having small dimensions and which can operate at high frequencies with high penetration depths for a given applied voltage are described. The devices may be well suited for integration into medical devices, such as intravascular ultrasound (IVUS) catheters, to provide high resolution ultrasound images.

Piezoelectric devices having small dimensions and which can operate at high frequencies with high penetration depths for a given applied voltage are described. The devices may be well suited for integration into medical devices, such as intravascular ultrasound (IVUS) catheters, to provide high resolution ultrasound images.

An ultrasonic cellular stimulation device includes: an ultrasonic transducer for generating a vibration wave; an upper cap having a fixing portion disposed on a lateral surface thereof; and a lower cap having a first surface and a second surface, and including: a recess indenting the first surface; an abutment portion located at a bottom of the recess; and an opening formed in the second surface and being in communication with the recess. The upper cap is partially received in the recess. The ultrasonic transducer is clamped and fixed between the fixing portion and the first surface. A glass piece is disposed on the abutment portion and fixed between the upper cap and the lower cap, such that the vibration wave is conveyed from the first surface into the abutment portion and the glass piece and a uniform and controllable sound field is generated above the glass piece.

A transceiver apparatus for maximizing voltage. A voltage booster or transformer is implemented using piezoelectric thin films in substrates, preferably CMOS substrates where active processing of RF signals can lead to highly integrated and inexpensive ICs. The voltage gain is achieved by cascading multiple transducers, formed in the same piezoelectric thin film, or films cascaded in series on top of each other. An array of transducers are connected in parallel or series, connected to the input or output port electrodes. Other approaches include placing the receive transformer in a location where the diffracting field from the transmitter transducer is incident on the receive transducer generating a higher ultrasonic field at the receive transformer and increasing the voltage is to connect an array of transducers, formed in the same layer, or different layers of piezoelectric layer in parallel in drive mode when the pulse is transmitted.