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A hybrid surface-to-surface transition-based UWB-BPF with multiple in-band interference suppression

Published online by Cambridge University Press:  04 March 2019

Abu Nasar Ghazali*
Affiliation:
School of Electronics Engineering, KIIT Deemed University, Bhubaneswar −751024, India
Jabir Hussain
Affiliation:
School of Electronics Engineering, KIIT Deemed University, Bhubaneswar −751024, India
Srikanta Pal
Affiliation:
Department of Electronics and Communication Engineering, BIT Mesra, Ranchi – 835215, India
*
Author for correspondence: Abu Nasar Ghazali, E-mail: [email protected]

Abstract

A compact ultra-wideband (UWB) bandpass filter (BPF) based on surface-to-surface transition technology with features of extended stopband and integrated interference mitigation characteristics is proposed. The basic structure consists of a modified multiple-mode resonator (MMR)-based co-planar waveguide in the ground surface and coupled in broadside manner with the microstrip lines on the top surface. Later, two open-circuited stubs are embedded in the feeding lines and two complementary split ring resonators are etched in the MMR to implement multiple in-band transmission zeros so as to circumvent interference. A prototype is fabricated and measured to validate the results obtained in simulation. The proposed UWB-BPF is compact in size with overall dimensions of 17.82 by 11.08 mm2.

Type
Research Papers
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2019 

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References

1.Federal Communications Commission (2002) Revision of Part 15 of the Commission's Rules Regarding Ultra-wideband Transmission Systems. Tech. Rep., ET-Docket, 98.Google Scholar
2.Zhu, L, Sun, S and Menzel, W (2005) Ultra-wideband (UWB) bandpass filters using multiple-mode resonator. IEEE Microwave and Wireless Components Letters 15, 796798.Google Scholar
3.Zhang, Z and Xiao, F (2012) An UWB bandpass filter based on a novel type of multi-mode resonator. IEEE Microwave and Wireless Components Letters 22, 506508.Google Scholar
4.Hsu, CL, Hsu, FC and Kuo, JT (2005) Microstrip bandpass filters for ultra wideband (UWB) wireless communications. IEEE MTT-S International Microwave Symposium Digest, 679682.Google Scholar
5.Tang, CW and Chen, MG (2007) A microstrip ultra-wideband bandpass filter with cascaded broadband bandpass and bandstop filters. IEEE Transactions on Microwave Theory and Techniques 55, 24122418.Google Scholar
6.Wang, H and Zhu, L (2005) Ultra-wideband bandpass filter using back to back microstrip to CPW transition structure. Electronics Letters 41, 13371338.Google Scholar
7.Wang, H, Zhu, L and Menzel, W (2005) Ultra-wideband bandpass filter with hybrid microstrip/CPW structure. IEEE Microwave and Wireless Components Letters 15, 844846.Google Scholar
8.Deng, HW, Zhao, Y, He, Y, Jia, SL and Wang, M (2014) Compact dual-notched balanced UWB BPF with folded triple-mode slotline resonator. Electronics Letters 50, 447448.Google Scholar
9.Song, Y, Yang, GM and Geyi, W (2014) Compact UWB bandpass filter with dual notched bands using defected ground structures. IEEE Microwave and Wireless Components Letters 24, 230232.Google Scholar
10.Sarkar, P, Ghatak, R, Pal, M and Poddar, DR (2014) High-selective compact UWB bandpass filter with dual notch bands. IEEE Microwave and Wireless Components Letters 24, 448450.Google Scholar
11.Ghazali, AN, Sazid, M and Pal, S (2018) A dual notched band UWB-BPF based on microstrip-to-short circuited CPW transition. International Journal of Microwave and Wireless Technologies 10, 794800.Google Scholar
12.Wei, F, Li, WT, Shi, XW and Huang, QL (2012) Compact UWB bandpass filters with triple-notched bands using triple mode stepped impedance resonator. IEEE Microwave and Wireless Components Letters 22, 512514.Google Scholar
13.Wei, F, Wang, ZD, Yang, F and Shi, XW (2013) Compact UWB BPF with triple-notched bands based on stub loaded resonator. Electronics Letters 49, 124125.Google Scholar
14.Wang, J, Zhao, J and Li, JL (2014) Compact UWB bandpass filter with triple notched bands using parallel U-shaped defected microstrip structure. Electronics Letters 50, 8990.Google Scholar
15.Ghazali, AN and Pal, S (2015) Planar UWB filter with multiple notched band and stopband with improved rejection level. Frequenz 69, 207218.Google Scholar