基于优化CMOS电感的生物医学信号监测RFID电路设计

15th International Conference on Advanced Computing and Communications (ADCOM 2007) Pub Date : 2007-12-18 DOI:10.1109/ADCOM.2007.110

G. Haobijam, Manikumar K., R. Paily

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引用次数: 19

摘要

RFID正在发展成为识别和跟踪货物的主要技术推动者。RFID在生物医学领域的应用不仅需要检测，还需要监测和传输心电图(心跳)、血压、体温等生命信号。研究了生物医学应用射频识别标签的基本组成模块。标签的尺寸和上电是关键问题，本文主要研究RFID电路电感器的设计和优化。之所以选择超高频，主要是因为在这个工作频率下，CMOS芯片可以实现电感的实用价值。优化了电感器的布局参数，使其在所需频率处的q因子值最大。利用优化后的电感，验证了RFID标签的电源馈电电路、心跳检测电路以及调制电路等重要模块的功能。这项工作对生物医学信号的远程监测具有重要意义。

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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RFID Circuit Design with Optimized CMOS Inductor for Monitoring Biomedical Signals

RFID is evolving as a major technology enabler for identifying and tracking goods. RFID applications in biomedical area not only need to detect but also require monitoring and transmitting vital signals like the electrocardiogram (and heartbeat), blood pressure, body temperature, etc. The basic building blocks of an RFID tag for biomedical application are studied. The sizing and powering up of the tags are critical issues and this paper mainly focuses on the design and optimization of the inductor for an RFID circuit. UHF is chosen for this application mainly because of the practical values of inductance that can be realized in CMOS chip to operate at this operating frequency. The layout parameters of inductor are optimized for a maximum Q-factor value at the desired frequency. Using the optimized inductor, the functioning of the important blocks of an RFID tag such as power feeding circuit, heartbeat detection circuit as well as the modulation circuit is verified. This work would be very relevant for the remote monitoring of biomedical signals.

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15th International Conference on Advanced Computing and Communications (ADCOM 2007)

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