Design and optimization of printed spiral coils for wireless passive sensors

IF 1.5 Q3 TELECOMMUNICATIONS

IET Wireless Sensor Systems Pub Date : 2021-03-10 DOI:10.1049/wss2.12019

Babak Noroozi, Bashir I. Morshed

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引用次数: 3

Abstract

Monitoring physiological signals during regular life might provide many benefits including early detection of abnormalities and tracking the severities of diseases. A wireless connection between the passive sensor and the scanner eliminates the obtrusive wires, resolves battery-related issues, and makes it easy-to-use. We have previously proposed a wireless resistive analogue passive sensor technique that operates with the help of inductive coupling. The variation of resistive physiological transducer (secondary side) leads to amplitude modulation on the scanner coil (primary side). The design of printed spiral coil (PSC) on printed circuit board, significantly affects the performance of the overall system in terms of sensitivity, the output voltage change as a reflection of the transducer change. To optimize the PSC's profile and maximize the sensitivity, we employ three methods: iterative, analytical, and genetic algorithm (GA). The GA optimized PSCs, as the best result, have been fabricated and the measurement showed a sensitivity of 0.72 mƱ which has 5% (8.8%) deviation from the simulation (theoretical) results. This method can be utilized to design a PSC pair in near-field applications to transfer amplitude modulation with various sizes and fabrication constraints.

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无线无源传感器印刷螺旋线圈的设计与优化

在日常生活中监测生理信号可能会带来许多好处，包括早期发现异常和跟踪疾病的严重程度。无源传感器和扫描仪之间的无线连接消除了显眼的电线，解决了与电池相关的问题，并使其易于使用。我们之前提出了一种无线电阻模拟无源传感器技术，该技术在电感耦合的帮助下工作。电阻性生理换能器(二次侧)的变化导致扫描线圈(一次侧)的幅度调制。印刷螺旋线圈(PSC)在印刷电路板上的设计，在灵敏度方面显著影响整个系统的性能，其输出电压的变化作为换能器变化的反映。为了优化PSC的轮廓和最大限度地提高灵敏度，我们采用了三种方法:迭代、分析和遗传算法(GA)。经遗传算法优化后的PSCs为最佳制备结果，测量灵敏度为0.72 mƱ，与模拟(理论)结果偏差为5%(8.8%)。该方法可用于设计具有不同尺寸和制造限制的近场传输调幅的PSC对。

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来源期刊

IET Wireless Sensor Systems TELECOMMUNICATIONS-

CiteScore

4.90

自引率

5.30%

发文量

审稿时长

33 weeks

期刊介绍： IET Wireless Sensor Systems is aimed at the growing field of wireless sensor networks and distributed systems, which has been expanding rapidly in recent years and is evolving into a multi-billion dollar industry. The Journal has been launched to give a platform to researchers and academics in the field and is intended to cover the research, engineering, technological developments, innovative deployment of distributed sensor and actuator systems. Topics covered include, but are not limited to theoretical developments of: Innovative Architectures for Smart Sensors;Nano Sensors and Actuators Unstructured Networking; Cooperative and Clustering Distributed Sensors; Data Fusion for Distributed Sensors; Distributed Intelligence in Distributed Sensors; Energy Harvesting for and Lifetime of Smart Sensors and Actuators; Cross-Layer Design and Layer Optimisation in Distributed Sensors; Security, Trust and Dependability of Distributed Sensors. The Journal also covers; Innovative Services and Applications for: Monitoring: Health, Traffic, Weather and Toxins; Surveillance: Target Tracking and Localization; Observation: Global Resources and Geological Activities (Earth, Forest, Mines, Underwater); Industrial Applications of Distributed Sensors in Green and Agile Manufacturing; Sensor and RFID Applications of the Internet-of-Things ("IoT"); Smart Metering; Machine-to-Machine Communications.

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