Investigation of 1.5 kW secondary side power controlled method in a inductive wireless power transfer system

B. Bhavsingh, Suresh Babu Gotluru, Mangu Bhukya, Ravikumar Bhukya
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Abstract

The contemporary and utilitarianism of the existing consumer world is advancing towards the better world technical benefits in the electrical world such as wired phase to wireless phase utilizing its volatile features. This paper addresses the battery performance in constant current (CC), constant voltage (CV) through inductive wireless power transfer (IWPT) systems. To analyze this workable mode, the researcher has proposed the series-series (S-S) compensation topology which is load independent current output. While charging the battery through wireless, the coil resistance is found to be affected by the battery's current and power. To figure out a practical solution, the researcher has introduced novel closed loop bi-directional switches with duty cycle control. The existing theoretical and simulated results have been analyzed with 1.5 kW, 120 mm air-gap and 85 kHz frequency. In this connection, the researcher has self-developed a prototype to better understand the theoretical perceptions of the proposed WPT system.
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感应式无线电力传输系统中 1.5 千瓦二次侧功率控制方法的研究
现有消费世界的现代性和功利性正朝着电气世界更美好的技术利益迈进,例如利用其不稳定的特性将有线阶段转换为无线阶段。本文探讨了通过感应式无线电力传输(IWPT)系统实现恒流(CC)、恒压(CV)的电池性能。为了分析这种工作模式,研究人员提出了与负载无关的电流输出串联(S-S)补偿拓扑结构。在通过无线方式为电池充电时,线圈电阻会受到电池电流和功率的影响。为了找出切实可行的解决方案,研究人员引入了具有占空比控制功能的新型闭环双向开关。在 1.5 kW、120 mm 气隙和 85 kHz 频率条件下,对现有的理论和模拟结果进行了分析。为此,研究人员自行开发了一个原型,以更好地理解拟议 WPT 系统的理论认知。
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