JSSC 2009第1期RF & Wireless0.35μm CMOSEnergy Harvesting

A Full-Wave Rectiﬁer With Integrated Peak Selection for Multiple Electrode Piezo

提出一种用于多电极压电换能器的全波整流器，集成峰值选择电路以提高能量收集效率

98.3%功率效率，90W输出，0.007mm²面积

能量收集压电换能器全波整流器无线传感器高效率

▸创新点1：多电极压电换能器的全波整流技术，通过集成多个电极的相位选择功能，实现了对低频交流电压的高效整流，显著提升了能量收集效率（98.3%）。这一方法创新解决了传统二极管桥式整流器电压下降的问题。

▸创新点2：集成峰值选择电路的设计，通过动态选择多电极压电换能器的输出峰值，有效减少了整流输出的纹波，提升了能量传输的稳定性。这一电路创新优化了系统的整体性能。

▸创新点3：高效率能量收集系统，结合多电极压电换能器和集成峰值选择电路，实现了90W的能量输出，同时仅占用0.007mm²的芯片面积。这一系统创新为无线传感器等低功耗嵌入式设备提供了可持续的能源解决方案。

▸创新点4：采用0.35μm CMOS工艺实现的整流器，不仅具有高集成度，还通过优化的电路设计降低了功耗，进一步延长了无线设备的使用寿命。这一工艺创新为大规模生产提供了可行性。

Abstract

Member , IEEE, Rajeevan Amirtharajah , Member , IEEE, and Paul J. Hurst , Fellow, IEEE Abstract—Piezoelectric transducers are a viable way of har- vesting vibrational energy for low power embedded systems such as wireless sensors. A proposed disk-shaped piezoelectric trans- ducer with several electrodes enables increased energy harvesting from multiple mechanical resonances. T o rectify the low-frequency AC voltage from harvested vibrational energy, a full-wave rectiﬁer has been fabricated in 0