2017
DOI: 10.1002/mop.30344
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A compact CPW‐fed antenna with fractal S‐shaped patches for multiband applications

Abstract: We present the design of a novel compact coplanar waveguide‐fed antenna with fractal s‐shaped patches for multiband applications. The antenna consists of three fractal s‐shaped patches with different lengths. We demonstrate that the number of resonant frequencies is in direct proportion with the number of fractal s‐shaped patches. This is to say that, the number of resonant frequencies in a multiband antenna can be increased by increasing the number of patches. The resonant frequencies can be selected by caref… Show more

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Cited by 20 publications
(9 citation statements)
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“…The key element in an IMD which enables wireless communication between the device and the base station is the antenna. In comparison with conventional antennas which operate in free space, the design of an implantable antenna renders certain challenges. Firstly, its geometry has to be compact and small; secondly, the antenna has to be able to operate reasonably well within the lossy human body; thirdly, the design has to comply with the specific absorption rate (SAR) specifications in order to ensure the users' safety; and, last but not least, the bandwidth of which has to be sufficiently wide so as to account for frequency detuning caused by varying constitutive parameters in different individuals.…”
Section: Introductionmentioning
confidence: 99%
“…The key element in an IMD which enables wireless communication between the device and the base station is the antenna. In comparison with conventional antennas which operate in free space, the design of an implantable antenna renders certain challenges. Firstly, its geometry has to be compact and small; secondly, the antenna has to be able to operate reasonably well within the lossy human body; thirdly, the design has to comply with the specific absorption rate (SAR) specifications in order to ensure the users' safety; and, last but not least, the bandwidth of which has to be sufficiently wide so as to account for frequency detuning caused by varying constitutive parameters in different individuals.…”
Section: Introductionmentioning
confidence: 99%
“…With the development of multiple wireless communications standards, group of engineers focus their interests on how to design multiband antennas that can be integrated as many standards such as WLAN, WiMAX, and satellite communication as possible into a single wireless terminal device. In order to meet these requirements, various types of promising multiband antenna designs were studied in [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18]. Planar printed monopole antennas with various structures in [1][2][3] have become popular candidates in multi-frequency applications for its advantages of low-cost, low-profile, and easy fabrication, whereas the antenna size is relatively large which is not suitable to be installed in mobile wireless terminals.…”
Section: Introductionmentioning
confidence: 99%
“…In [13], the antenna covers the entire WLAN/WiMAX band, but its low-frequency gain is low and does not support applications in other bands. Although the design of [14][15][16][17][18] supports up to four operating bands, the antenna structure is either complicated, so it is difficult to manufacture, or takes up unnecessary space, resulting in a large size. And these antennas cannot completely cover the required frequency bands.…”
Section: Introductionmentioning
confidence: 99%
“…S-type fractal with three iterations results in resonance for 2.50GHz, 5.30GHz, 7.10GHz and 8.40GHz respectively. These applications targets Bluetooth, WiMAX and WLAN bands [8]. F-shaped radiator with defected ground plane results in triple band of operation intended to cover WiMAX and WLAN applications [9].…”
Section: Introductionmentioning
confidence: 99%