Analysis, modeling and design of a CMOS Super-Regenerative Receiver for implanted medical devices under square and sinusoidal quench signals

Pekcokguler Naci; Dundar Gunhan; Dehollain Catherine

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Analysis, modeling and design of a CMOS Super-Regenerative Receiver for implanted medical devices under square and sinusoidal quench signals

机译：方形和正弦猝灭信号下用于植入式医疗设备的CMOS超再生接收器的分析，建模和设计

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Medical implant devices have found widespread application in recent years. The Super-Regenerative Receiver has been one preferred architecture due to its power advantage over other architectures. We present a detailed analysis of the circuits and their equivalent models to be used in system level design of a Super-Regenerative Receiver in this paper. The design procedure is also demonstrated with a receiver design example. Designs were carried out in UMC 180 nm process with a center frequency of 416 MHz for MedRadio band. Errors between the simulation results of the proposed model and actual circuits are less than 1.6% for LNA characteristics and 7% for receiver output amplitude. 10 Mbps data rate was achieved with 432 pJ/bit energy consumption over 1.8 V power supply. The study is concluded with the simulation results of the circuits and the equivalent models.

机译：近年来，医疗植入装置已得到广泛应用。由于其相对于其他架构的功率优势，超级再生接收机已成为一种首选架构。在本文中，我们将对用于超级再生接收机的系统级设计的电路及其等效模型进行详细分析。还通过接收器设计示例演示了设计过程。设计以UMC 180 nm工艺进行，MedRadio频段的中心频率为416 MHz。对于LNA特性，所提出的模型的仿真结果与实际电路之间的误差小于1.6％，对于接收机输出幅度，误差小于7％。在1.8 V电源上以432 pJ /位的能耗实现了10 Mbps的数据速率。电路的仿真结果和等效模型对研究进行了总结。

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《Integration》 |2019年第7期|1-7|共7页
作者
Pekcokguler Naci; Dundar Gunhan; Dehollain Catherine;
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作者单位

Bogazici Univ, Dept Elect & Elect Engn, TR-34342 Istanbul, Turkey;

Bogazici Univ, Dept Elect & Elect Engn, TR-34342 Istanbul, Turkey;

Ecole Polytech Fed Lausanne, RFIC Grp, CH-1015 Lausanne, Switzerland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Super-regenerative receiver; SRR; Medical implant; Analytic model; Equivalent circuit model; Receiver design;

机译：超再生接收器;SRR;医疗植入;分析模型;等效电路模型;接收器设计;

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专利

1. Analysis, modeling and design of a CMOS Super-Regenerative Receiver for implanted medical devices under square and sinusoidal quench signals [J] . Pekcokguler Naci, Dundar Gunhan, Dehollain Catherine Integration . 2019,第Jula期

机译：广场和正弦淬火信号下植入医疗器械CMOS超再生接收机的分析，建模与设计
2. High-Sensitivity CMOS Super-Regenerative Receiver with Quench-Controlled High- src="/images/tex/228.gif" alt="Q"> Metamaterial Resonator for Millimeter-Wave Imaging at 96 and 135 GHz [J] . Shang Y., Yu H., Hu S., Microwave Theory and Techniques, IEEE Transactions on . 2014,第12期

机译：带有淬火控制的高灵敏度CMOS超再生接收器 src =“ / images / tex / 228.gif” alt =“ Q”> 毫米级超材料谐振器-96和135 GHz的波成像
3. Low-Power CMOS Super-Regenerative Receiver With a Digitally Self-Quenching Loop [J] . Kim K., Yun S., Lee S., Microwave and Wireless Components Letters, IEEE . 2012,第9期

机译：具有数字自淬灭环路的低功耗CMOS超再生接收器
4. Design and Modelling of a Super-Regenerative Receiver for Medical Implant Devices [C] . Naci Pekcokguler, Gunhan Dundar, Catherine Dehollain Conference on Ph.D. Research in Microelectronics and Electronics . 2018

机译：用于医疗植入设备的超再生接收器的设计与建模
5. Low-power CMOS receiver for medical implant communication services [D] . Savci, Huseyin Serif 2008

机译：用于医疗植入物通信服务的低功率CMOS接收器
6. Implantable CMOS Biomedical Devices [O] . Jun Ohta, Takashi Tokuda, Kiyotaka Sasagawa, 2009

机译：植入式CMOS生物医学设备
7. A 350 $mu$W CMOS MSK Transmitter and 400 $mu$W OOK Super-Regenerative Receiver for Medical Implant Communications [O] . Jose L. Bohorquez, Anantha P. Chandrakasan, Joel L. Dawson 2009

机译：A 350 $ MU $ W CMOS MSK发射器和400 $ MU $ WOOK超级再生接收器，用于医疗植入性通信

Analysis, modeling and design of a CMOS Super-Regenerative Receiver for implanted medical devices under square and sinusoidal quench signals

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