High Intensity Focused Ultrasound (HIFU) can achieve a non-invasive treatment using sound wave transmission to heat the desired region. In this study, we tried to develop a ring-shaped HIFU transducer for breast tumors to generate thermal lesions in the tip region of the breast and to execute thermal therapy in the bottom of the breast. Using piezocomposite material for ultrasonic transducer can lower the acoustic impedance as well as increase the electro-mechanical coupling factor. The size of transducer is 100 mm in radius, 100 mm in radius of curvature, 25 mm in height and 2.5 MHz in working frequency. The transducer consists of 16 elements. To verify the output efficiency and stability, we measured the piezoelectric parameter d33, acoustic impedance and electro-acoustic efficiency. At the present, the high frequency ring-shaped ultrasound transducer cannot reach the requirements for a HIFU, while it can heat fresh pork tissues. This ultrasound transducer can transmit the acoustic power to the center of a 6 cm gelatin phantom to effectively raise the temperature.