C-shaped antenna based artificial magnetic conductor structure for wearable IoT healthcare devices
Autor: | M. Hashim Dahri, Zuhairiah Zainal Abidin, Adel Y. I. Ashyap, Muhammad Ramlee Kamarudin, Somya Abdulkarim Alhandi, Samsul Haimi Dahlan, Huda A. Majid, N. A. M. Alduais |
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Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Original Paper
Computer Networks and Communications business.industry Computer science Wearable Healthcare Electrical engineering Wearable computer Conductor ISM-band Specific absorption rate (SAR) Electromagnetic shielding C shaped Reflection (physics) Integrated antenna Electrical and Electronic Engineering Antenna (radio) Internet of Things business Information Systems |
Zdroj: | Wireless Networks |
ISSN: | 1572-8196 1022-0038 |
Popis: | A wearable C-shaped antenna based on a fabric material operating at 2.4 GHz frequency is proposed for use in flexible/wearable IoT medical systems. The wearable IoT device plays a key role in medical applications, and the antenna is a key part of it. Loading the presented antenna on the body models showed a frequency detuned with the gain and efficiency reduced from 1. 28 to −9 dB and 90% to 10%. In addition, the SAR did not meet the safety health requirement defined by the FCC or ICNIRP standards. Therefore, an “Artificial Magnetic Conductor” structure (AMC) is added to the C-shaped antenna to overcome these problems. The AMC acts as shielding material between the human skin and the presented antenna because of its 0° reflection phase, which mimics the action of the Perfect Magnetic Conductor (PMC). The overall size of the proposed design was 54 × 54 × 3.9 mm3. Numerical and experimental findings indicated that integrating the AMC structures with a C-shaped antenna was robust for body deformation and load. The C-shaped antenna worked equally well with the AMC, whether positioned in free space or on the chest or the arm of the human body. The integrated antenna with AMC structures has excellent performances. The gain and efficiency without loading on the chest were 6.49 dB and 84%, respectively. While for loaded on the chest were 6.21 dB and 81%, respectively. It also decreased the back radiation and raised the Front to Back Ration (FBR) by 13.8 dB. SAR levels have been reduced by more than 90% between the FCC and ICNIRP standards compared to the C-shaped antenna alone, which does not comply with the standards. As a result, the C-shaped integration with AMC structures is highly suitable for assembly in any wearable system. Supplementary Information The online version contains supplementary material available at 10.1007/s11276-021-02770-4. |
Databáze: | OpenAIRE |
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