ULTRASOUND TRANSDUCER AND METHOD FOR MAKING THE SAME

摘要

The present application provides a multilayer lateral mode coupling method for phased array construction and transducer devices built accordingly. This disclosure describes and demonstrates that the electrical impedance of a phased array can be substantially reduced and readily controlled to be close to the source impedance. The fabrication process is relatively simple and inexpensive. In addition, the elements are robust for use in 1.5, 2, 3 or other dimensional configurations, over an extended period of operation, without structural failure, and providing a high power output required for imaging and/or medical therapy applications.

主权项

1. An ultrasound transducer element comprising:
a piezoelectric stack comprising an even number of piezoelectric layers stacked along a first direction, said piezoelectric stack comprising a pair of outer electrodes formed on respective outer surfaces thereof, wherein each pair of adjacent piezoelectric layers within said piezoelectric stack are separated by, and mutually contact, a respective common electrode provided therebetween such that said outer electrodes and said common electrodes form a set of electrodes, each adjacent pair of electrodes having a respective piezoelectric layer provided therebetween; wherein odd-numbered electrodes, counted from a given side of said piezoelectric stack, are connected in parallel to form a common ground electrode, and even-numbered electrodes are connected in parallel to form a common signal electrode; such that, upon application of an electrical driving signal between said common ground electrode and said common signal electrode at a frequency associated with a lateral mode coupled resonance of said piezoelectric stack, lateral mode coupling causes said piezoelectric stack to be mechanically responsive along a second direction that is perpendicular to the first direction, thereby producing ultrasound emission along the second direction through an emitting surface of said ultrasound transducer element located at a first end of said ultrasound transducer element; and wherein said even-numbered electrodes extend from a second end of said piezoelectric stack in direction parallel to the second direction and are brought into electrical communication beyond the distal end of said piezoelectric stack.