Abstract: An ultrasonic transducer particularly useful in medical imaging includes a transducer comprising a transducer body having a major front surface for radiating ultrasonic energy to a propagation medium responsive to mechanical vibration of the transducer. The transducer includes a piezoelectric member having a curved shape including a curved front surface. The curved shape is produced by deforming a planar piezoelectric composite member to produce the desired curvature and returning the curvature using suction forces. A graded frequency region is created by grinding the curved front surface of the piezoelectric element along a grinding plane. This region is defined by the area of intersection of the grinding plane and the front surface of the curved piezoelectric member and in different implementations, covers all or less than all of the total front surface.

Abstract: A catheter-based ultrasonic transducer array is provided which includes a piezoelectric member sandwiched between matching layers and a backing member. A flexible stiffening element or elements is embedded in the backing member. The element is opaque to radio frequencies and integrated along the azimuthal axis of the array so as to enable a user to view the element in an image of the array derived from the array output and thus determine the angular position of the array. A flexible interconnection assembly provides an electrical connection between the electrodes of the piezoelectric member and external cabling. Different methods are provided for adding a surrounding protective cover to the array.

Abstract: A catheter-based ultrasonic transducer array is provided which includes a piezoelectric member sandwiched between matching layers and a backing member. A flexible stiffening element or elements is embedded in the backing member. The element is opaque to radio frequencies and integrated along the azimuthal axis of the array so as to enable a user to view the element in an image of the array derived from the array output and thus determine the angular position of the array. A flexible interconnection assembly provides an electrical connection between the electrodes of the piezoelectric member and external cabling. Different methods are provided for adding a surrounding protective cover to the array.

Abstract: An ultrasonic transducer particularly useful in medical imaging includes a transducer comprising a transducer body having a major front surface for radiating ultrasonic energy to a propagation medium responsive to mechanical vibration of the transducer. The transducer includes a piezoelectric member having a curved shape including a curved front surface. The curved shape is produced by deforming a planar piezoelectric composite member to produce the desired curvature and returning the curvature using suction forces. A graded frequency region is created by grinding the curved front surface of the piezoelectric element along a grinding plane. This region is defined by the area of intersection of the grinding plane and the front surface of the curved piezoelectric member and different implementations, covers all or less than all of the total front surface.

Abstract: A method is provided for making an ultrasonic transducer particularly useful in medical imaging. The transducer includes a transducer body having a major front surface for radiating ultrasonic energy to a propagation medium and is formed by a piezoelectric member having a curved shape including a curved front surface. The curved shape is produced by deforming a planar piezoelectric composite member to produce the desired curvature and retaining the curvature using suction forces. A graded frequency region is created by grinding the curved front surface of the piezoelectric element along a grinding plane. This region is defined by the area of intersection of the grinding plane and the front surface of the curved piezoelectric member and in different implementations of the method, covers all or less than all of the total front surface.

Abstract: An ultrasonic probe is provided for medical applications which can be used both in high resolution imaging and therapy or other high intensity applications. The probe includes a primary ultrasonic transducer array operating at first resonant frequency and formed by a plurality of elements arranged linearly along a coordinate axis, and a secondary ultrasonic transducer array operating at second resonant frequency and comprising a plurality of elements arranged linearly along the coordinate axis and being interdigitated with the elements of the primary ultrasonic transducer array. In one embodiment, separate transducer units are joined to form the probe while in a further embodiment, the two arrays are produced from a common piezoelectric member.

Abstract: An ultrasonic probe is provided for medical applications which can be used both in high resolution imaging and therapy or other high intensity applications. The probe includes a primary ultrasonic transducer array operating at first resonant frequency and formed by a plurality of elements arranged linearly along a coordinate axis, and a secondary ultrasonic transducer array operating at second resonant frequency and comprising a plurality of elements arranged linearly along the coordinate axis and being interdigitated with the elements of the primary ultrasonic transducer array. In one embodiment, separate transducer units are joined to form the probe while in a further embodiment, the two arrays are produced from a common piezoelectric member.

Abstract: An ultrasonic transducer particularly useful in medical imaging includes a transducer comprising a transducer body having a major front surface for radiating ultrasonic energy to a propagation medium responsive to mechanical vibration of the transducer. The transducer includes a piezoelectric member having a curved shape including a curved front surface. The curved shape is produced by deforming a planar piezoelectric composite member to produce the desired curvature and returning the curvature using suction forces. A graded frequency region is created by grinding the curved front surface of the piezoelectric element along a grinding plane. This region is defined by the area of intersection of the grinding plane and the front surface of the curved piezoelectric member and different implementations, covers all or less than all of the total front surface.