一种采用片上延迟补偿倍压整流器和多个ldo的CMOS 13.56 mhz高效低压降40mw感应链路电源,用于植入式医疗设备

Xin-Hong Qian, Ming-Seng Cheng, Chung-Yu Wu
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引用次数: 5

摘要

设计并测试了一种采用铁氧体铁芯螺旋线圈和CMOS功率调节器的近场13.56 mhz 20mA感应能量传输装置。该功率调节器由有源倍压整流器(VD)和低压差调节器(ldo)组成。为了避免在植入式医疗器械(imd)中线圈对空间的要求过大,进一步提高线圈的效率,采用铁氧体铁芯的螺旋结构构造线圈。在带比较器的VD中,输入偏置电压可调以补偿延迟,并增加启动控制电路以实现鲁棒启动机制。采用片内延迟补偿控制,防止反向电流传导,提高效率。实现了三种完全集成的LDO,整流输出电压为2V至1.8V:模拟电路LDO (ALDO),数字电路LDO (DLDO)和参考电压电路LDO (RLDO)。因此,单个LDO的性能可以得到优化。ALDO和RLDO都具有来自DLDO的低串扰噪声。实测整流器输出纹波电压为10.4mV。功率转换效率(PCE)为85%,输出电流为20mA。测量的压降电压为384mV。与其他设计相比,该电感链路电源具有较低的纹波电压和降压,以及较高的PCE。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A CMOS 13.56-MHz high-efficiency low-dropout-voltage 40-mW inductive link power supply utilizing on-chip delay-compensated voltage doubler rectifier and multiple LDOs for implantable medical devices
A near-field 13.56-MHz 20mA inductive energy transmission device with ferrite core spiral coils and CMOS power regulator is designed and tested. The power regulator is composed of active voltage doubler (VD) rectifier and low-dropout regulators (LDOs). In order to avoid large space requirement of coil and further increase its efficiency in the implantable medical devices (IMDs), the coils are constructed in the spiral shape with a ferrite core. In the VD with the comparator, the input offset voltage is adjustable for delay compensation and a start-up control circuit is added to achieve robust start-up mechanism. On-chip delay compensation control is implemented to prevent from reverse current conduction and increase the efficiency. Three fully-integrated LDOs with rectifier output voltage of 2V to 1.8V are realized: LDO for analog circuits (ALDO), LDO for digital circuits (DLDO) and LDO for reference-voltage circuits (RLDO). Thus the performance of individual LDO can be optimized. Both ALDO and RLDO have low crosstalk noise from DLDO. The measured ripple voltage of rectifier output is 10.4mV. The power conversion efficiency (PCE) of 85% with 20mA output current. The measured dropout voltage is 384mV. As compared with other designs, the proposed Inductive link power supply has lower ripple voltages and dropout voltage, and higher PCE.
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