13.56MHz全集成1X/2X有源整流器,补偿偏置电流,用于电感供电设备

Yan Lu, Xing Li, W. Ki, C. Tsui, C. Yue
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引用次数: 74

摘要

无线电力传输具有广泛的应用范围,从移动电话充电器到生物医学植入物。对于耳蜗植入体[1]和视网膜假体[2]来说,具有小型化的外形因素和无电池是非常可取的。此类器件要求实时功率传输范围在10 ~ 100mW[3]之间,由于人体组织比吸收率(SAR)随频率的增加而增加,因此通常采用工作在13.56MHz或更低ISM频段的电感耦合功率链路,如图4.2.1所示。然而,较低的传输频率意味着更大的匹配和滤波电容器,体积庞大。此外,接收到的交流输入幅度VAC,Peak会由于耦合线圈之间的距离和方向的变化而波动。因此,比较器控制的功率开关(有源二极管)被用来取代二极管,使整流器可以在较低的VAC,Peak下工作,并且仍然实现高电压转换比(VCR)和功率转换效率(PCE)[4]。在这项研究中,我们提出了第一个在30mW范围内完全集成的1X/2X有源整流器,所有电容器都是片上制造的,如图4.2.1所示。这是通过避免在2X模式下串联连接输出电容的开关安排实现的。通过与输出直流电压成准反比的偏置电流,减少了交流电的反向电流,峰值范围从1.25到4V,如稍后所述;通过插入一个传感电阻和一个额外的电容器来减少失真,仔细地测量了效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A 13.56MHz fully integrated 1X/2X active rectifier with compensated bias current for inductively powered devices
Wireless power transfer has a broad range of applications ranging from mobile phone chargers to biomedical implants. For cochlear implants [1] and retinal prostheses [2], having a miniaturized form factor and being battery-less are highly desirable. Such devices require real-time power transfer in the range of 10 to 100mW [3], and as human tissue specific absorption rate (SAR) increases with frequency, inductively-coupled power links that operate at 13.56MHz or lower in ISM bands are commonly used, as shown in Fig. 4.2.1. However, lower transmission frequency means larger matching and filtering capacitors that are bulky. In addition, the received AC input amplitude VAC,Peak would fluctuate due to changes in distance and orientation between the coupling coils. Hence, comparator- controlled power switches (active diodes) are used to replace diodes so that the rectifier could work at a lower VAC,Peak and still achieve a high voltage conversion ratio (VCR) and power conversion efficiency (PCE) [4]. In this research, we present the first fully integrated 1X/2X active rectifier in the 30mW range with all capacitors fabricated on-chip, also shown in Fig. 4.2.1. This is made possible by a switching arrangement that avoids connecting the output capacitors in series in the 2X mode. Reverse current is reduced for VAC,Peak that ranges from 1.25 to 4V by a bias current that is quasi-inversely proportional to the output DC voltage, as explained later; and efficiency is carefully measured by the insertion of a sensing resistor plus an additional capacitor to reduce distortion.
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