High Frequency Dualband Microstrip Bandstop Filter
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A. Podell. (1970). A high Directivity Microstrip Coupler Technique.
Annapurna, D. (n.d.). Microwave Engineering. Tata Mc.Graw-Hill Publication.
J., K. C. (November 2005). Designing Low Cost Wideband Microstirp Bandpass Filters". Melbourne.
Kalialakis, C. (2013). Feasibility of Microstrip Wilkinson Power Dividers on FR4 Substrates for L-Band (1-2 GHz) Applications".
Kim, J., & Park, W. S. (July, 2002). Novel configurations of planar multilayer magic-T using microstrip slotlines transistions.
Lei, Z., Sun, S., & Li, R. (2011). Microwave bandpass filters for wideband communications.
Maktoomi, M., Hashmi, M., & Ghannouchi, F. (2017). A Dual-Band Port-Extended Branch-Line Coupler and Mitigation of the Band-Ratio and Power Divison Limitations.
Podell, A. (1970). A High Directivity Microstrip Coupler Technique.
Pozar, & M., D. (1998). Microwave Engineering Second Edition. New York.
Takao, M. (1992). Wideband low loss double mode SAW Filters.
W., Z., N., Z., X., W. B., & Z., M. (2020). A Dual-Band Wilkinson Power Divider Using Dual Coupled Lines and Open Stubs. Shanghai.
Wilkinson, E. (1960). An N-Way Hybrid Power Divider.
Wu, Y., Liu, Y., & Li, S. (2009). An unequal dual-frequency Wilkinson power divider with optional isolation structure .
Zhu Lei, S. S., & Menzel, W. (August 2012). Ultra-Wideband (UWB) bandpass filters using multiple-mode resonator.". Moscow, Russia.
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DOI: http://dx.doi.org/10.21533/scjournal.v11i1.225
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Copyright (c) 2022 Harun Fazlagić, Aladin Mujagić, Şehabeddin Taha İmeci, Ahmet Fehim Uslu
ISSN 2233 -1859
Digital Object Identifier DOI: 10.21533/scjournal
This work is licensed under a Creative Commons Attribution 4.0 International License