An adaptive load-line tuning IC for photovoltaic module integrated mobile device with 470µs transient time, over 99% steady-state accuracy and 94% power conversion efficiency

Wen-Chuen Liu, Yi-Hsiang Wang, T. Kuo
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引用次数: 17

Abstract

Many modern mobile devices have a touchscreen and are powered by a rechargeable battery. To extend battery usage time before recharge, harvesting energy from ambient light provides an elegant solution if the photovoltaic (PV) modules can be integrated with mobile devices [1]. However, mobile devices are frequently finger operated and/or in motion, so light-harvesting should consider fast-changing shading and partial shading problems. Previous IC works [2-4] have reported on the implementation of maximum power point tracking (MPPT) for light-harvesting, none of them have concurrently addressed these two problems. Although one of these works [3] considered the mobile device issue, it targets high MPPT steady-state accuracy without considering fast-changing shading problem. Hence, there is still room for improvement with respect to short MPPT transient time to harvest more energy for extending battery usage time.
一种用于光伏组件集成移动器件的自适应负载线调谐IC,具有470µs瞬态时间,超过99%的稳态精度和94%的功率转换效率
许多现代移动设备都有触摸屏,并由可充电电池供电。为了延长电池在充电前的使用时间,如果光伏(PV)模块可以与移动设备集成,则从环境光中收集能量是一种优雅的解决方案[1]。然而,移动设备经常是手指操作和/或运动的,所以光收集应该考虑快速变化的阴影和部分阴影问题。以前的IC工作[2-4]已经报道了用于光收集的最大功率点跟踪(MPPT)的实现,但没有一个同时解决这两个问题。虽然其中一项工作[3]考虑了移动设备问题,但它的目标是高MPPT稳态精度,而没有考虑快速变化的阴影问题。因此,在缩短MPPT暂态时间以获取更多能量以延长电池使用时间方面仍有改进的空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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