A novel method of energy conversion and storage in Photoelectric Micro-power Supply

H. Yong-tai, Wang Lei
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Abstract

In wireless sensor nodes integrated with photoelectric micro-power supply, the efficiency of energy conversion and storage of Photoelectric Micro-power Supply (PMPS) determines their lifetime and adaptability to the environment. Therefore, it is important to improve the efficiency of the energy conversion and storage in the PMPS. However, traditional methods to improve the efficiency of the energy conversion and storage of the photovoltaic power system are not suitable in the PMPS due to the special requirement of wireless sensor nodes in the application. In this study, we propose a novel method to improve the efficiency of energy conversion and storage in the PMPS. In the method, the hybrid energy storage structure composed of super-capacitors and polymer lithium-ion batteries is used. The output power of solar cells is controlled by the circuitry of optimal voltage control. Likewise, Because of high-cycle and high-power density of super-capacitors, they are used as energy buffer. Polymer lithium-ion batteries are used as storage devices based on their high-energy density and low self-discharge rate. Polymer lithium-ion batteries are charged by super-capacitors under control of the circuitry of optimal voltage control. The mode of intermittent charge meets the requirement of rational charge of polymer lithium-ion batteries. Moreover, experiment results show the efficiency energy conversion and storage of the solar cells are improved nearly two times, compared with the method of direct energy storage.
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一种新型的光电微电源能量转换与存储方法
在与光电微电源集成的无线传感器节点中,光电微电源的能量转换和存储效率决定了其寿命和对环境的适应能力。因此,提高PMPS的能量转换和存储效率是非常重要的。然而,由于应用中对无线传感器节点的特殊要求,提高光伏发电系统能量转换和存储效率的传统方法并不适用于PMPS。在这项研究中,我们提出了一种新的方法来提高PMPS的能量转换和存储效率。该方法采用由超级电容器和聚合物锂离子电池组成的混合储能结构。太阳能电池的输出功率由最优电压控制电路控制。同样,由于超级电容器的高周期和高功率密度,它们被用作能量缓冲器。聚合物锂离子电池因其高能量密度和低自放电率而被广泛应用于存储设备。聚合物锂离子电池在最优电压控制电路的控制下由超级电容器充电。间歇充电方式满足聚合物锂离子电池合理充电的要求。实验结果表明,与直接储能相比,太阳能电池的能量转换和存储效率提高了近两倍。
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