The switching characteristics of SITh are not only determined by the conductance modulation in channel between the gate regions,but also affected by the external gate driving circuit.The physical mechanism and behavior of switching process are studied deeply based on the fabrication practice of SITh.The dependence of switching performances of SITh on material,geometric structure and technological parameters are analytically discussed by using two-dimensional dynamical model firstly proposed in this paper.A series of optimum matching technological approaches have been developed for improving the switching characteristics of SITh.A versatile testing circuit is designed to get more accurate switching parameters and more stable switching-off process with lower power consumptions.The switching times ton and toff are reduced from 0.2μs and 1.2μs to 0.08μs and 1.0μs,respectively,and the dynamic dv/dt value of more than 1000 V/μs at switching-off is obtained. The switching characteristics of SITh are not only determined by the conductance modulation in channel between the gate regions, but also affected by the external gate driving circuit. The physical mechanism and behavior of switching process are studied deeply based on the fabrication practice of SITh. dependence of switching performances of SITh on material, geometric structure and technological parameters are negotiated by using two-dimensional dynamical model first proposed in this paper. A series of optimum matching technological approaches have been developed for improving the switching characteristics of SITh. A versatile the testing circuit is designed to get more accurate switching parameters and more stable switching-off process with lower power consumptions. The switching times ton and toff are reduced from 0.2μs and 1.2μs to 0.08μs and 1.0μs, respectively, and the dynamic dv / dt value of more than 1000 V / μs at switching-off is obtained.