A Novel Micro-Pressure Power Generation System Based on Super Capacitor Energy Storage and PI Controller
Zhen-Tao Liu, Hui-Ting Wang, Dan-Yun Li†, Hao Zhou, and Zi-Han Zhou
School of Automation, China University of Geosciences
Wuhan, Hubei 430074, China
A novel micro-pressure power generation system (PPG) is proposed. It mainly consists of two parts: a piezoelectric ceramic power generation device and a super capacitor energy storage module (SCESM). The SCESM is composed of a conditioning circuit and a control circuit. The control circuit has a proportional-integral (PI) controller to smooth the voltage output with pulse-width modulation. The PPG system can generate power and conserve energy as well as support renewable and low-power energy. The superiority of the PPG system is verified through simulation and actual experiments. The process of storing energy takes 572 seconds, and the maximum error of the voltage output is 5%. In future research, we will be studying conversion efficiency optimization for the proposed system, an embedded power supply for wearable devices.
-  C. Qin, W.-Z. Yuan, L. Sun, and D.-Y. Qiao, “Development Summary of Micro Power,” Optoelectronic Technology, Vol.25, No.4, pp. 218-221, 2005.
-  H.-X. Qu and Z.-R. Mei, “The Position of Pressure Power Generation in the New Energy Flow,” Science & Technology Information, No.8, pp. 5-6, 2013.
-  T. Starner. “Human powered wearable computing,” IBM Systems J., Vol.35, No.34, pp. 618-629, 1996.
-  S. W. Arms, C. P. Townsend, D. L. Churchill, J. H. Galbreath, and S. W. Mundell, “Power Management for Energy Harvesting Wireless Sensors,” Proc. of Smart Structures and Materials2005: Smart Electronics, MEMS, BioMEMS, and Nanotechnology, San Diego, CA, March 06, 2005.
-  http://www.sipo.gov.en/sipo/zseqb/keji/t20020705_6586.htm.
-  C. S. Wu, “The Power Shoes” has been Developed in Japan which can Provide IPod Energy while Walking, Functional Materials Information, No.4, pp. 114, 2008.
-  J. Kymissis, C. Kendall, J. Paradiso, and N. Gershenfeld, “Parasitie Power Harvesting in Shoes,” Proc. of Int. Semantic Web Conf., Pittsburgh, PA, USA, Oct.19-20, 1998.
-  N. S. Shenck and J. A. Paradiso, “Energy Scavenging with Shoe-Mounted Piezoelectrics,” IEEE Micro, Vol.21, No.3, pp. 30-42, 2001.
-  S. J. Morris and J. A. Paradiso, “Shoe-integrated Sensor System for Wireless Gait Analysis and Real-Time Feedback,” Proc. of the Second Joint EMBS/BMES Conf., Houston, TX, USA, October, pp. 23-26, 2002.
-  Q.M. Yang, “Professor Wang Zhonglin developed the world’s smallest generator-nano generator,” Functional Materials Information, No.4, pp. 48, 2006.
-  D. Juan, “Design and Research of Intelligent Charger for Super Capacitor,” Master thesis, Southwest University, 2013.
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