The quartz resonator can be used as the sensing element of sensor. In order to reduce the interference of temperature and other factors as well as improve the force sensitivity of quartz crystal resonators, a cluster of multielectrode forcesensitive resonators is designed on the same wafer based on the energy trapping theory and the calculation of the resonant energy distribution curve of the thicknessshearing quartz crystal. According to the principle of common mode suppression, the output frequency signal of the resonator cluster is subjected to differential frequency processing to suppress the interference of temperature and other factors, and then the differential frequency signals are superimposed to improve the overall force sensitivity of the quartz crystal resonator cluster. The experimental results show that the temperaturefrequency characteristics of the differential frequency output of the quartz resonator cluster are significantly better than the conventional singleelectrode resonator, and the overall force sensitivity coefficient of the quartz crystal resonator cluster is increased to 9 992 Hz/N.