Search search
submit Submit
Publication Date
to
Vol. 35
Latest Volume
All Volumes
PIERC 150 [2024] PIERC 149 [2024] PIERC 148 [2024] PIERC 147 [2024] PIERC 146 [2024] PIERC 145 [2024] PIERC 144 [2024] PIERC 143 [2024] PIERC 142 [2024] PIERC 141 [2024] PIERC 140 [2024] PIERC 139 [2024] PIERC 138 [2023] PIERC 137 [2023] PIERC 136 [2023] PIERC 135 [2023] PIERC 134 [2023] PIERC 133 [2023] PIERC 132 [2023] PIERC 131 [2023] PIERC 130 [2023] PIERC 129 [2023] PIERC 128 [2023] PIERC 127 [2022] PIERC 126 [2022] PIERC 125 [2022] PIERC 124 [2022] PIERC 123 [2022] PIERC 122 [2022] PIERC 121 [2022] PIERC 120 [2022] PIERC 119 [2022] PIERC 118 [2022] PIERC 117 [2021] PIERC 116 [2021] PIERC 115 [2021] PIERC 114 [2021] PIERC 113 [2021] PIERC 112 [2021] PIERC 111 [2021] PIERC 110 [2021] PIERC 109 [2021] PIERC 108 [2021] PIERC 107 [2021] PIERC 106 [2020] PIERC 105 [2020] PIERC 104 [2020] PIERC 103 [2020] PIERC 102 [2020] PIERC 101 [2020] PIERC 100 [2020] PIERC 99 [2020] PIERC 98 [2020] PIERC 97 [2019] PIERC 96 [2019] PIERC 95 [2019] PIERC 94 [2019] PIERC 93 [2019] PIERC 92 [2019] PIERC 91 [2019] PIERC 90 [2019] PIERC 89 [2019] PIERC 88 [2018] PIERC 87 [2018] PIERC 86 [2018] PIERC 85 [2018] PIERC 84 [2018] PIERC 83 [2018] PIERC 82 [2018] PIERC 81 [2018] PIERC 80 [2018] PIERC 79 [2017] PIERC 78 [2017] PIERC 77 [2017] PIERC 76 [2017] PIERC 75 [2017] PIERC 74 [2017] PIERC 73 [2017] PIERC 72 [2017] PIERC 71 [2017] PIERC 70 [2016] PIERC 69 [2016] PIERC 68 [2016] PIERC 67 [2016] PIERC 66 [2016] PIERC 65 [2016] PIERC 64 [2016] PIERC 63 [2016] PIERC 62 [2016] PIERC 61 [2016] PIERC 60 [2015] PIERC 59 [2015] PIERC 58 [2015] PIERC 57 [2015] PIERC 56 [2015] PIERC 55 [2014] PIERC 54 [2014] PIERC 53 [2014] PIERC 52 [2014] PIERC 51 [2014] PIERC 50 [2014] PIERC 49 [2014] PIERC 48 [2014] PIERC 47 [2014] PIERC 46 [2014] PIERC 45 [2013] PIERC 44 [2013] PIERC 43 [2013] PIERC 42 [2013] PIERC 41 [2013] PIERC 40 [2013] PIERC 39 [2013] PIERC 38 [2013] PIERC 37 [2013] PIERC 36 [2013] PIERC 35 [2013] PIERC 34 [2013] PIERC 33 [2012] PIERC 32 [2012] PIERC 31 [2012] PIERC 30 [2012] PIERC 29 [2012] PIERC 28 [2012] PIERC 27 [2012] PIERC 26 [2012] PIERC 25 [2012] PIERC 24 [2011] PIERC 23 [2011] PIERC 22 [2011] PIERC 21 [2011] PIERC 20 [2011] PIERC 19 [2011] PIERC 18 [2011] PIERC 17 [2010] PIERC 16 [2010] PIERC 15 [2010] PIERC 14 [2010] PIERC 13 [2010] PIERC 12 [2010] PIERC 11 [2009] PIERC 10 [2009] PIERC 9 [2009] PIERC 8 [2009] PIERC 7 [2009] PIERC 6 [2009] PIERC 5 [2008] PIERC 4 [2008] PIERC 3 [2008] PIERC 2 [2008] PIERC 1 [2008]
All Journals
PIER PIER B PIER C PIER M PIER Letters
2012-11-25
Quasi-Elliptic Microstrip Bandstop Filter Using Tap Coupled Open-Loop Resonators
By
Kenneth Siok Kiam Yeo,

    Dr. Kenneth Siok Kiam Yeo

    School of Architecture, Computer and Engineering

    University of East London

    UK

    Homepage

Punna Vijaykumar

    Dr. Punna Vijaykumar

    School of Architecture, Computer and Engineering

    University of East London

    UK

    Homepage

Progress In Electromagnetics Research C, Vol. 35, 1-11, 2013
doi:10.2528/PIERC12101912
Abstract
In this paper, we will present a quasi-elliptic bandstop filter using asynchronously tuned resonators. To demonstrate this technique, a novel broadband microstrip bandstop filter is also proposed using distributed resonators. To achieve wide bandwidth using distributed resonators, strong couplings are required. This is achieved using tap coupled to avoid very narrow gaps which are costly to manufacture. The filter exhibits a factional bandwidth of approximately 35%. A simple practical transformation technique for transforming Chebyshev bandstop filter to asynchronously tuned quasi-elliptic bandstop filter will be presented.
Citation
Kenneth Siok Kiam Yeo, and Punna Vijaykumar, "Quasi-Elliptic Microstrip Bandstop Filter Using Tap Coupled Open-Loop Resonators," Progress In Electromagnetics Research C, Vol. 35, 1-11, 2013.
doi:10.2528/PIERC12101912
References

1. Soares, E. R., "Design and construction of high performance HTS pseudo-elliptic band-stop filters," IEEE MTT-S Digest, 1555-1558, 1999.

2. Hong, J.-S., M. J. Lancaster, R. B. Greed, D. Jedamzik, J.-C. Mage, and H. J. Chaloupka, "A high-temperature superconducting duplexer for cellular base-station applications," IEEE Trans. on Microwave Theory and Techniques, Vol. 48, No. 8, 1336-1343, Aug. 2000.
doi:10.1109/22.859478

3. Rhodes, J. D., "Waveguide bandstop elliptic function filters," IEEE Trans. on Microwave Theory and Techniques, Vol. 20, No. 11, 715-718, Nov. 1972.
doi:10.1109/TMTT.1972.1127859

4. Corona, A., I. Llamas, and M. J. Lancaster, "A high temperature superconducting quasi-elliptic notch filter for radioastronomy," Microwave and Optical Technology Letter, Vol. 52, No. 1, 88-90, Jan. 2010.
doi:10.1002/mop.24863

5. Schmiedel, H., "Optimization of arbitary frequency response of microwave bandstop filter," IEEE Proceeding of High Power Microwave Electronics: Measurements, Identification Applications, II.7-II.12, 1999.

6. Matthaei, G., L. Young, and E. M. T. Jones, Microwave Filters Impedance-matching Networks, and Coupling Structures, Artech House, 1964.

7. Yeo, K. S. K., M. J. Lancaster, and J. S. Hong, "Design of microstrip six pole quasi-elliptic filter with linear phase response using extracted pole technique," IEEE Trans. on Microwave Theory and Technique, 321-327, Feb. 2001.
doi:10.1109/22.903092

8. Hong, J. S. and M. J. Lancaster, Microstrip Filters for RF/Microwave Applications, John Wiley & Sons, 2001.
doi:10.1002/0471221619

9. Matthaei, G. and G. L. Hey-Shipton, "Novel staggered resonator array superconducting 2.3 GHz bandpass filter," IEEE Trans. on Microwave Theory and Technique, Vol. 41, No. 12, 2345-2352, 1993.
doi:10.1109/22.260727

10. Yeo, K. S. K. and M. J. Lancaster, "8 pole high temperature superconducting microstrip dual band bandpass filter design," IEEE MTT-S Microwave Symposium Digest,, 1-4, Jun. 2011.

Download Full Article (328) View Full Article volume
The EM Academy piers.org jpier.org Who's Who in EM
Copyright © 2022 The Electromagnetics Academy. All Rights Reserved.