Abstract: A self-contained ultrasound patch assembly for detecting fluid flow in a vessel includes piezo elements that can transmit ultrasonic energy and detect echo signals. A flex module has two support portions connected to respective ones of the elements with a hinged portion coupled to the support portions, allowing them to be positioned angularly relative to each other. Electronics that direct the elements to transmit ultrasonic energy and process detected echo signals are in communication with the elements through the flex module. A transducer frame includes an alignment portion engaging a flex module alignment portion to retain the flex module in an aligned position. The frame supports the elements at a fixed angular position with respect to each other. A housing encloses the electronics and frame, and fixedly retains the frame to position the elements to transmit toward a bottom surface and away from a top surface of the housing.

Abstract: An ultrasound patch includes one or more transmit and receive piezoelectric transducer elements. In some embodiments, the transducer elements are positioned on a ramp on a patient pad of the patch that is configured to fit within an anatomic space between the trachea and the sternocleidomastoid muscle to orient the transducer elements toward a carotid artery. In some embodiments, a flexible phased array transducer includes a number of pillar piezoelectric elements joined by a flexible adhesive with metal electrodes deposited thereon. The phased array transducer is mounted to a flexible circuit board that allows the transducer to bend and conform to a subject's anatomy.

Abstract: A self-contained ultrasound patch assembly for detecting fluid flow in a vessel includes piezo elements that can transmit ultrasonic energy and detect echo signals. A flex module has two support portions connected to respective ones of the elements with a hinged portion coupled to the support portions, allowing them to be positioned angularly relative to each other. Electronics that direct the elements to transmit ultrasonic energy and process detected echo signals are in communication with the elements through the flex module. A transducer frame includes an alignment portion engaging a flex module alignment portion to retain the flex module in an aligned position. The frame supports the elements at a fixed angular position with respect to each other. A housing encloses the electronics and frame, and fixedly retains the frame to position the elements to transmit toward a bottom surface and away from a top surface of the housing.

Abstract: An ultrasound patch includes one or more transmit and receive piezoelectric transducer elements. In some embodiments, the transducer elements are positioned on a ramp on a patient pad of the patch that is configured to fit within an anatomic space between the trachea and the sternocleidomastoid muscle to orient the transducer elements toward a carotid artery. In some embodiments, a flexible phased array transducer includes a number of pillar piezoelectric elements joined by a flexible adhesive with metal electrodes deposited thereon. The phased array transducer is mounted to a flexible circuit board that allows the transducer to bend and conform to a subject's anatomy.

Abstract: An ultrasound patch includes one or more transmit and receive piezoelectric transducer elements. In some embodiments, the transducer elements are positioned on a ramp on a patient pad of the patch that is configured to fit within an anatomic space between the trachea and the sternocleidomastoid muscle to orient the transducer elements toward a carotid artery. In some embodiments, a flexible phased array transducer includes a number of pillar piezoelectric elements joined by a flexible adhesive with metal electrodes deposited thereon. The phased array transducer is mounted to a flexible circuit board that allows the transducer to bend and conform to a subject's anatomy.

Abstract: An ultrasound patch includes one or more transmit and receive piezoelectric transducer elements. In some embodiments, the transducer elements are positioned on a ramp on a patient pad of the patch that is configured to fit within an anatomic space between the trachea and the sternocleidomastoid muscle to orient the transducer elements toward a carotid artery. In some embodiments, a flexible phased array transducer includes a number of pillar piezoelectric elements joined by a flexible adhesive with metal electrodes deposited thereon. The phased array transducer is mounted to a flexible circuit board that allows the transducer to bend and conform to a subject's anatomy.