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Article type: Research Article
Authors: Thyla, B.* | Bai, V. Thulasi
Affiliations: KCG College of Technology, Chennai, Tamil Nadu, India
Correspondence: [*] Corresponding author: B. Thyla, KCG College of Technology, Chennai, Tamil Nadu 600097, India. E-mail: [email protected].
Abstract: BACKGROUND: In wireless communication standard 4G and 5G, the body centric network plays an important role for the wireless communication between various devices. OBJECTIVE: This research relates to a wide-band conformal co-planar waveguide (CPW) antenna for wearable applications. METHODS: The proposed CPW antenna is printed on 0.1 mm thick bio-compatible polymide substrate whose dielectric constant and permittivity are 3.5 and 0.02 respectively. The total area of the antenna is around 17.5 × 15 mm2 which is significantly smaller than the wearable antennas proposed in literature. The proposed antenna is designed to operate in new ISM band 5.8 GHz with the bandwidth of 5.3–6.3 GHz with 2:1 Voltage Standing Wave Ratio (VSWR). The antenna is printed on the flexible substrate and hence robustness of device is evaluated by bending analysis. It reveals the superior performance of the designed CPW antenna over the desired spectrum of operation. RESULTS: Specific Absorption Rate (SAR) is calculated after placing the antenna at various places of human phantom model and showed that SAR values are below 1.6 W/Kg which is the maximum margin recommended by Federal Communication Commission (FCC), i.e when tested with 1 g and 10 g of human tissue of phantom model, for the test frequency range of 5.5–6.1 GHz, SAR value falls between 0.9987 and 0.921 W/Kg respectively. The antenna also shows the radiation efficiency around 92% with overall realized gain 5.2 dBi which are substantial values for wearable applications. CONCLUSION: The outcomes of this research revealed the feasibility of the recommended antenna becoming a major contender of future Internet of Things (IoT) applications.
Keywords: Conformal, co-planar antenna, industrial, scientific, medicine (ISM), wearable, Specific Absorption Rate (SAR)
DOI: 10.3233/THC-220534
Journal: Technology and Health Care, vol. 32, no. 1, pp. 103-115, 2024
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