2019
DOI: 10.1002/mop.32224
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Flexible EBG‐backed PIFA based on conductive textile and PDMS for wearable applications

Abstract: A wearable planar inverted‐F antenna (PIFA) fed by the coplanar waveguide (CPW) and backed with an optimized electromagnetic bandgap (EBG) structure is presented. The antenna is made of conductive textile and polydimethylsiloxane (PDMS), which is a conformal and robust solution to wearable applications. The EBG unit cell is miniaturized according to the equivalent circuit model, and the cross‐polarization is suppressed due to its approximate 180° reflection phase in the orthogonal direction. The measured imped… Show more

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Cited by 20 publications
(14 citation statements)
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“… Year size of proposed design (mm 3 ) Type of substrate No. of unit cells Gain (dBi) Efficiency (%) FBR (dB) SAR W/kg [ 17 ] 2018 81 × 81 × 4 Fabric 3 × 3 7.3 71 17 0.230 [ 18 ] 2019 66.8 × 66.8 × 5 Polyimide 2 × 2 7.47 20 0.15 [ 19 ] 2020 75.7 × 75.7 × 6.1 Felt & Ultralam3850 3 × 3 6.379 38.84 14 0.022 [ 20 ] 2020 60 × 60 × 8.5 PDMS 3 × 3 6.56 70.7 0.612 [ 21 ] 2020 145 × 112 × 3.424 Jeans 4 × 3 6.19 61 [ 22 ] 2020 50 × 25.7 × 5 Felt 1 × 2 4.06 ...…”
Section: Discussionmentioning
confidence: 99%
“… Year size of proposed design (mm 3 ) Type of substrate No. of unit cells Gain (dBi) Efficiency (%) FBR (dB) SAR W/kg [ 17 ] 2018 81 × 81 × 4 Fabric 3 × 3 7.3 71 17 0.230 [ 18 ] 2019 66.8 × 66.8 × 5 Polyimide 2 × 2 7.47 20 0.15 [ 19 ] 2020 75.7 × 75.7 × 6.1 Felt & Ultralam3850 3 × 3 6.379 38.84 14 0.022 [ 20 ] 2020 60 × 60 × 8.5 PDMS 3 × 3 6.56 70.7 0.612 [ 21 ] 2020 145 × 112 × 3.424 Jeans 4 × 3 6.19 61 [ 22 ] 2020 50 × 25.7 × 5 Felt 1 × 2 4.06 ...…”
Section: Discussionmentioning
confidence: 99%
“…The bandwidth was also improved compared to the traditional square patch due to the lower Q factor [35]. The total size of the final design is 45 × 45 × 0.7 mm 3 (0.37λo×0.37λo×0.006 mm 3 ), which is compact compared to the structures previously described in [7], [13], [14]- [32]. Fig.…”
Section: His Designmentioning
confidence: 95%
“…Thus, high impedance surface (HIS) structures are introduced in the design of wearable antennas to provide isolation between the body and the antenna and to allow the SAR levels to comply with the safety limits set by the FCC. On the other hand, these structures still have some disadvantages that remain unresolved, such as low front to back ratio (FBR) [14]- [17], designed on semi-flexible substrate that cannot stand for several degrees of bending [18], [19], and electrically large or thick for wearable devices [20]- [32].…”
Section: Introductionmentioning
confidence: 99%
“…In this paper, a fully textile antenna with novel EBG for WBAN applications at 2.4 GHz is proposed. This work lays on the bandgap feature (Dispersion Diagram Technique) of EBG that cannot be demonstrated by earlier reported wearable EBG structures [ 8 , 11 , 12 , 14 16 , 18 , 19 , 22 , 23 , 25 ]. The bandgap feature is controlled by vias, such as in the case of mushroom-like EBG.…”
Section: Introductionmentioning
confidence: 99%