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In this paper, photovoltaic integration of a dual-polarized microstrip patch antenna is demonstrated for 5.8 GHz band WiMAX networks. The proposed antenna consists of a dual-fed ±45° dual-polarized square microstrip patch stacked with a polycrystalline silicon (poly-Si) solar cell operating as an RF parasitic patch element in addition to its photovoltaic function. A DC/RF isolation circuit consisting...
This paper demonstrates the integration of a transparent meshed circular monopole antenna with a polycrystalline silicon (poly-Si) solar cell operating as an RF ground plane in addition to its photovoltaic function. While the meshed circular monopole with the feed line printed on a clear acrylic substrate placed upon the poly-Si solar cell offers an optical transparency of 91%, it is demonstrated...
In this paper, a cross-coax fed low-profile short-circuited suspended patch antenna combined with a polycrystalline silicon (poly-Si) solar cell operating as a radiating patch element is proposed for self-powered 2.4 GHz band WLAN and 2.3/2.5 GHz band WiMAX networks. The fabricated multifunctional solar patch antenna has a measured wide impedance bandwidth of 840 MHz, 35%, and offers a broadband gain...
This paper proposes a novel low-profile quad-band multifunctional solar PIFA consisting of a polycrystalline silicon (poly-Si) solar cell stacked suspended modified radiating element with Z and double L-slots. The measured return loss (S11) and E-plane/H-plane far-field radiation patterns demonstrate that the fabricated solar PIFA has quad-band radiation characteristics operating at the frequency...
This letter presents a novel low-profile quad-bandsolar PIFA which has the potential to be employed in self-powered low-power GSM 1800, 2.4 GHz band WLAN and 2.3/3.3/5.8 GHz band WiMAX networks. The multi-slot loaded radiating PIFA element consisting of W-L shaped slots stacked with a polycrystalline silicon (poly-Si) solar cell operating as a parasitic patch element enables the proposed solar PIFA...
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