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Novel Wilkinson Power Divider with an Isolation Resistor on a Defected Ground Structure with Improved Isolation

A modified Wilkinson Power Divider is proposed in this paper that utilizes defected ground structure (DGS) in parallel with an isolation resistor. The proposed DGS section is incorporated between the output ports, and the isolation resistor is soldered in parallel with the DGS in the ground plane, i...

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Published in:	Applied sciences 2021-05, Vol.11 (9), p.4148
Main Authors:	Salman, Maaz, Jang, Youna, Lim, Jongsik, Ahn, Dal, Han, Sang-Min
Format:	Article
Language:	English
Subjects:	Attenuation Circuit design defected ground structure Equivalent circuits Ground plane isolation Microstrip transmission lines Power dividers Resonant frequencies Transmission lines Wilkinson power divider
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description	A modified Wilkinson Power Divider is proposed in this paper that utilizes defected ground structure (DGS) in parallel with an isolation resistor. The proposed DGS section is incorporated between the output ports, and the isolation resistor is soldered in parallel with the DGS in the ground plane, instead of on the top plane as in a conventional Wilkinson power divider, to achieve improved or preferable isolation. The proposed design is comprised of two pairs of microstrip transmission lines with equal impedances and varied electrical lengths. The parameters of the main circuit and the DGS section are acquired separately. The parameters of the proposed main circuit are derived by applying conjugate matching theory. Dumbbell-shaped DGS is introduced in the ground plane between the output ports, which acts as a parallel resonator, yielding an attenuation pole at the resonant frequency that contributes to improved isolation. By applying the previous well-known circuit theory, the lumped elements of the equivalent circuit of the DGS were achieved. The physical dimensions of the equivalent circuit for the DGS section were obtained by three-dimensional EM simulation. The measured results show improved isolation, return loss and better bandwidth as compared with other similar works. Furthermore, the proposed circuits designed at resonating frequencies of 3 and 2 GHz presented comparatively good return losses, S11 of about −25.54 and −31.24 dB, respectively, and achieved improved isolations, S32 between the output ports, in an order of about −40.83 and −36.05 dB, respectively, which is rather exceptional and desirable.
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The proposed DGS section is incorporated between the output ports, and the isolation resistor is soldered in parallel with the DGS in the ground plane, instead of on the top plane as in a conventional Wilkinson power divider, to achieve improved or preferable isolation. The proposed design is comprised of two pairs of microstrip transmission lines with equal impedances and varied electrical lengths. The parameters of the main circuit and the DGS section are acquired separately. The parameters of the proposed main circuit are derived by applying conjugate matching theory. Dumbbell-shaped DGS is introduced in the ground plane between the output ports, which acts as a parallel resonator, yielding an attenuation pole at the resonant frequency that contributes to improved isolation. By applying the previous well-known circuit theory, the lumped elements of the equivalent circuit of the DGS were achieved. The physical dimensions of the equivalent circuit for the DGS section were obtained by three-dimensional EM simulation. The measured results show improved isolation, return loss and better bandwidth as compared with other similar works. Furthermore, the proposed circuits designed at resonating frequencies of 3 and 2 GHz presented comparatively good return losses, S11 of about −25.54 and −31.24 dB, respectively, and achieved improved isolations, S32 between the output ports, in an order of about −40.83 and −36.05 dB, respectively, which is rather exceptional and desirable.</description><identifier>ISSN: 2076-3417</identifier><identifier>EISSN: 2076-3417</identifier><identifier>DOI: 10.3390/app11094148</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Attenuation ; Circuit design ; defected ground structure ; Equivalent circuits ; Ground plane ; isolation ; Microstrip transmission lines ; Power dividers ; Resonant frequencies ; Transmission lines ; Wilkinson power divider</subject><ispartof>Applied sciences, 2021-05, Vol.11 (9), p.4148</ispartof><rights>2021 by the authors. Licensee MDPI, Basel, Switzerland. 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subjects	Attenuation Circuit design defected ground structure Equivalent circuits Ground plane isolation Microstrip transmission lines Power dividers Resonant frequencies Transmission lines Wilkinson power divider
title	Novel Wilkinson Power Divider with an Isolation Resistor on a Defected Ground Structure with Improved Isolation
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