In this study, a focused ultrasound system for skin tightening therapy was developed with piezoelectric-composite. High intensity focused ultrasound has the ability to concentrate acoustic power to generate a steep temperature elevation at the subcutanous tissue and superficial muscular aponeurotic system (SMAS) to cause collagen denaturation, contraction and remodeling. Ultrasound has a higher absorption coefficient for a higher driving frequency. For the skin tightening, the focus position is reached the skin tissue and the driving frequency of the transducer was set to 5.0 MHz . In this study, the surface area of ultrasound transducer is four times larger than the previous one (Diameter of 20.0 mm, a radius of curvature of 16.0 mm and operated at a frequency of 5.0 MHz). A two-dimensional (2-D) mechanical scanning system was also developed to couple with the ultrasound transducer for a 2-D sequential heating. The use of 2-D scanning can increase treatment accuracy and reduce the treatment time for a large skin area treatment. The results showed that the electro-acoustic transfer ratio was only about 15% for a PZT-841 transducer and it was not able to reach the lower critical solution temperature (LCST) of the thermo-sensitive hydrogel. While the electro-acoustic transfer ratio was about 46-57 % for a transducer made of PZT-880, and it could reach LCST at the transducer focal zone to produce an effective thermal response. In this study, we use the homemade focused ultrasound transducer with the previously designed one-dimensional mechanical scanning system for multi-point treatment in hydrogel. We also developed a 2-D mechanical scanning system and used Labview software with NI myRIO system integration, to achieve a wide-area scanning and confirmed 2-D scanning therapy in the silicone.