A Discrete Controlled Fully Integrated Class E Coil Driver With Power Efficient ASK Modulation for Powering Biomedical Implants

Lee Edward K. F.

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A Discrete Controlled Fully Integrated Class E Coil Driver With Power Efficient ASK Modulation for Powering Biomedical Implants

机译：具有功率有效ASK调制功能的离散控制，完全集成的E类线圈驱动器，用于为生物医学植入物供电

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An integrated feedback controlled class E coil driver for wirelessly powering biomedical implants was implemented in a high voltage 0.18 CMOS process. The coil driver was compensated using a discrete switched-capacitor controller for reducing the compensation capacitor area. A linearized discrete-time model was also developed for analyzing the stability of the proposed coil driver. Different methods to reduce the on-resistance of the coil driver switch had also been investigated. When compared to the previous design, the figure of merit for measuring the effectiveness of generating coil current was improved over 2.5 times. ASK modulation on the coil current was achieved by switching on or off an additional off-chip capacitor. Power increase during ASK modulation was reduced by 49.4% when compared to the previous design.

机译：用于无线供电的生物医学植入物的集成反馈控制的E类线圈驱动器已通过高压0.18 CMOS工艺实现。使用分立的开关电容器控制器对线圈驱动器进行了补偿，以减小补偿电容器的面积。还开发了线性离散时间模型来分析所提出的线圈驱动器的稳定性。还研究了减少线圈驱动器开关的导通电阻的不同方法。与以前的设计相比，用于测量线圈电流产生效果的品质因数提高了2.5倍。通过打开或关闭一个额外的片外电容器，可以对线圈电流进行ASK调制。与以前的设计相比，ASK调制期间的功率增加减少了49.4％。

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《Circuits and Systems I: Regular Papers, IEEE Transactions on》 |2015年第6期|1678-1687|共10页
作者
Lee Edward K. F.;
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作者单位

Alfred Mann Foundation, Santa Clarita, CA, USA;

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正文语种 eng
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Amplitude shift keying; DC-AC power converters; biomedical telemetry; discrete-time systems; driver circuits; feedback circuits; inductive power transmission;

机译：振幅键控;DC-AC电源转换器;生物医学遥测;离散时间系统;驱动器电路;反馈电路;感应式电力传输;

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专利

1. Fully integrated low-power area-efficient FSK demodulator for inductively powered biomedical implants [J] . Kim J., Pedrotti K. Electronics Letters . 2013,第14期

机译：完全集成的低功耗，面积高效的FSK解调器，用于感应供电的生物医学植入物
2. Power-Efficient Impedance-Modulation Wireless Data Links for Biomedical Implants [J] . Mandal S., Sarpeshkar R. IEEE transactions on biomedical circuits and systems . 2008,第4期

机译：用于生物医学植入物的高能效阻抗调制无线数据链路
3. Design of Integrated Dual-Loop $Delta$ –$Sigma$ Modulated Switching Power Converter for Adaptive Wireless Powering in Biomedical Implants [J] . Wang Y., Ma D. Industrial Electronics, IEEE Transactions on . 2011,第9期

机译：集成双循环 $ Delta $ – 用于生物医学植入物的自适应无线供电的$ Sigma $ 调制开关电源转换器
4. An integrated coil driver with discrete control and power efficient ASK modulation for transcutaneous power transmission [C] . Lee Edward K.F. IEEE International Symposium on Circuits and Systems . 2014

机译：集成线圈驱动器，具有离散控制和高能效ASK调制，用于经皮动力传输
5. Coil misalignment compensation techniques for wireless power transfer links in biomedical implants [D] . Kong, Fanpeng. 2015

机译：生物医学植入物中无线电力传输链路的线圈未对准补偿技术
6. An Integrated Power-Efficient Active Rectifier With Offset-Controlled High Speed Comparators for Inductively Powered Applications [O] . Hyung-Min Lee, Maysam Ghovanloo -1

机译：一个集成的电源高效的主动式整流器具有偏移控制的高速比较器的电感供电的应用
7. Geometry Optimization Approaches of Inductively Coupled Printed Spiral Coils for Remote Powering of Implantable Biomedical Sensors [O] . Sondos Mehri, Ahmed Chiheb Ammari, Jaleleddine Ben Hadj Slama, 2016

机译：电感耦合印刷螺旋线圈的几何优化方法，用于植入生物医学传感器的远程供电

A Discrete Controlled Fully Integrated Class E Coil Driver With Power Efficient ASK Modulation for Powering Biomedical Implants

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