With the development of the Internet of Things, wireless devices are widely used, and powering these devices is a problem. If using a battery, we must replace the battery at regular intervals. In addition, discarded batteries can also cause environmental pollution. Therefore, we collect energy from environmental energy to extend battery life and ultimately achieve the goal of battery-free IOT equipment. Indoors, the ambient vibration source provides the highest power density, so we use a piezoelectric energy harvesting system to collect this energy. Synchronized switch harvesting on inductor (SSHI) and synchronous electric charge extraction (SECE) are two common interface circuits. Compared to standard interface circuits, SSHI has the advantage of high power gain, while power gain depends on loading impedance. In contrast, the SECE has a medium power gain, but the power gain is independent of the loading impedance. This thesis proposes a synchronous inversion and charge extraction (SICE) interface circuit for piezoelectric energy harvesting, combined with the SSHI and the SECE circuits, under the given number of inversions, the peak voltage of piezoelectric voltage is reversed (bias flip action), and then the total energy is extracted through the SECE circuit. Therefore, the advantages of high power gain and load independence can be obtained at the same time. According to the measurement results, when the peak of the piezoelectric voltage is 10 V and the number of inversions is 0, the extraction power is 130μW, and the power gain is 628%; When the peak of the piezoelectric voltage is 2.8 V and the number of inversions is 3, the extraction power is 22μW and the power gain is 628%.