Quasi-elliptic filter characteristics of an asymmetric defected ground structure |
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| Authors: | Susanta Kumar Parui Tamosi Moyra Santanu Das |
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| Affiliation: | 1. Department of Electronics and Telecommunication Engineering , Bengal Engineering and Science University , Shibpur, Howrah, 711103, India arkapv@yahoo.com;3. Department of Electronics and Communication Engineering , College of Engineering and Management , Kolaghat, West Bengal, India;4. Department of Electronics and Telecommunication Engineering , Bengal Engineering and Science University , Shibpur, Howrah, 711103, India |
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| Abstract: | An asymmetric defected ground structure (DGS) with respect to a microstrip line is proposed. Its unit cell consists of two square slots connected with a rectangular slot by meandered transverse slots. The simulated, measured and equivalent circuit responses have been presented. The unit DGS pattern under microstrip line produces wide rejection bandwidth and high sharpness factor. Its elliptic band-reject filter response is modelled by appropriate LC equivalent circuit. Two such DGS cells under a microstrip line produce 3-pole quasi-elliptic bandstop filter response, which shows deeper attenuation without appreciable change in pole frequencies in comparison to single cell structure. Unit DGS pattern under coupled gap microstrip lines produces band-accept filtering characteristics. The frequency characteristics show a quasi-elliptic highpass filtering characteristics with sharp lower transition knee. Accordingly, an LC equivalent circuit is proposed. A cascaded band-accept and band-reject filter is proposed for designing a wideband bandpass filter. The bandwidth and centre frequency of the bandpass filter can be varied by choosing different set of DGS dimensions. |
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| Keywords: | microstrip filter defected ground structure elliptic filter band-reject band-accept |
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