An interconnect is provided for a multidimensional transducer array. An adaptor provides a 90-degrees or other non-zero angle transition of conductors from connection with the elements to connection with a printed circuit board. The adaptor is formed as a component that may surface mount on the printed circuit board and may provide a pitch change from the element pitch to a different pitch, such as a pitch of conductors of an integrated circuit also mounted to the printed circuit board. The adaptor allows stacking of modules where each module uses standardized or regular printed circuit board connections.

An ultrasound diagnosis apparatus includes a transformer, a first power source, a second power source, and a switching unit. The transformer includes a primary winding and a secondary winding, and drives an ultrasound transducer based on a voltage generated in the secondary winding. The first and second power sources cause a potential difference. The switching unit switches a connection path between the primary winding and at least one of the first and second power sources to a first connection path that connects the first power source to one end of the primary winding and the second power source to the other end, a second connection path that connects the first power source to the other end and the second power source to the one end, or a ground connection path that connects the first power source or the second power source to the ground through the primary winding.

Sub-performing elements of an ultrasound transducer array are detected. The power, such as current, used by or provided to the transmit driver is measured. By driving each element or group of elements separately, defective elements or groups of elements are detected from the amount of power used.

An ultrasound imaging system includes a transducer array. The array is configured for row-column addressing. The array of transducer elements includes a plurality of first 1-D arrays and a plurality of second 1-D arrays, which is orthogonal to the plurality of first 1-D arrays. The array of transducer elements further includes a plurality of front-end circuits. A single front-end circuit of the front-end circuits is in electrical communication with a single pair of 1-D arrays, which consists of a first 1-D array of the plurality of first 1-D arrays and a second 1-D array of the plurality of second 1-D arrays. The first and second 1-D arrays are either separate sets of 1-D arrays or part of a same 2-D array. In one instance, for N rows and N columns, a number of electrical connections between the elements and front-end electronics are less than 2N.

There are provided an ultrasonic apparatus and a beamforming method for the ultrasonic apparatus. According to an aspect, an ultrasonic apparatus includes a 2D array transducer in which a plurality of elements are arranged in a plurality of rows and columns; a signal supplier configured to supply an ultrasonic signal to the 2D array transducer; a first delayer configured to delay the ultrasonic signal to output a plurality of first delay signals corresponding to any one of the number of rows and the number of columns; and a second delayer configured to delay one of the plurality of first delay signals to output a plurality of second delay signals corresponding to the other one of the number of rows and the number of columns, and transmit the plurality of second delay signals to the 2D array transducer.

[Object] To provide an ultrasonic array oscillator, a method of producing an ultrasonic array oscillator, an ultrasonic probe, and an ultrasonic diagnostic apparatus having a high impedance matching effect and excellent productivity. [Solving Means] The ultrasonic array oscillator according to the present technology includes ultrasonic oscillators (130) and semiconductor chips (140). The ultrasonic oscillators (130) form an array. The semiconductor chips (140) are bonded to the respective ultrasonic oscillators (130) to form impedance matching circuits.

An ultrasound unit includes a plurality of elements each including N cells, in each of which a bottom electrode and a top electrode that constitutes a membrane are arranged facing each other with a cavity therebetween, wherein the element has N.sub.1 first cells and N.sub.2 (where N.sub.1N.sub.2, N.sub.1+N.sub.2=N) second cells having higher reception sensitivity and lower transmission sensitivity than the first cells.

A phased ultrasonic transducer and method for transmitting sound or ultrasound through a gaseous medium into a solid spectrum with ultrasound beam steering and focusing.

Provided are a method, a device and the like for driving a capacitance transducer that enable reduction of transmission sound pressure variation caused by variation in characteristics of a capacitance transducer used for, e.g., an ultrasound conversion element. A method for driving a capacitance transducer including a plurality of elements each including cells each having a structure in which a vibration membrane including one electrode of a pair of electrodes formed with a cavity therebetween is supported in such a manner that the vibration membrane can vibrate is provided.

A piezoelectric micromechanical ultrasonic transducer (PMUT) includes a diaphragm disposed over a cavity, the diaphragm including a piezoelectric layer stack including a piezoelectric layer, a first electrode electrically coupled with transceiver circuitry, and a second electrode electrically coupled with the transceiver circuitry. The first electrode may be disposed in a first portion of the diaphragm, and the second electrode may be disposed in a second, separate, portion of the diaphragm. Each of the first and the second electrode is disposed on or proximate to a first surface of the piezoelectric layer, the first surface being opposite from the cavity. The PMUT is configured to transmit first ultrasonic signals by way of the first electrode during a first time period and to receive second ultrasonic signals by way of the second electrode during a second time period, the first time period and the second time period being at least partially overlapping.