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A compact planar diplexer based on via-free CRLH TL for WiMAX and WLAN applications

Published online by Cambridge University Press:  03 December 2018

Abhishek Kumar*
Affiliation:
Department of Electronics and Communication Engineering, Birla Institute of Technology (BIT), Mesra, Ranchi, Jharkhand 835215, India
Dileep Kumar Upadhyay
Affiliation:
Department of Electronics and Communication Engineering, Birla Institute of Technology (BIT), Mesra, Ranchi, Jharkhand 835215, India
*
Author for correspondence: Abhishek Kumar, E-mail: [email protected]

Abstract

In this paper, design and development of a via-free composite right/left handed transmission line (CRLH TL)-based diplexer for WiMAX and WLAN bands is reported. The diplexer is having two channels, where each channel consists of a separate bandpass filter (BPF). The BPF of both channels are designed on via-free CRLH TLs based on a newly proposed right-angled corner-modified split ring resonator (RAC-MSRR) structure. The RAC-MSRR incorporates meander paths because of which working scope of frequencies is focused for measured center frequencies (f1) 3.5 GHz with −3 dB fractional bandwidth (FBW) of 21.21% (BPF1 channel) and (f2) 5.6 GHz with −3 dB FBW of 13.29% (BPF2 channel). For diplexer design, T-section is used for joining two BPFs which results in very good isolation of more than 32.5 dB over the frequency band of 2.5–8.0 GHz. The designed diplexer has passband insertion loss of −0.87 dB at f1 and −1.25 dB at f2. Overall size of the fabricated diplexer including 50 Ω feed line is 18 × 15 mm2. Equivalent lumped circuit model parameters of the diplexer are obtained from the pseudo-inverse matrix technique. Measured results show good concurrence with simulated results and subsequently approve the proposed model design.

Type
Research Papers
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2018 

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References

1.Smith, DR, Padilla, WJ, Vier, DC, Nemat-Nasser, SC and Schultz, S (2000) Composite medium with simultaneously negative permeability and permittivity. Physical Review Letters 84, 41844187.Google Scholar
2.Lai, A, Caloz, C and Itoh, T (2004) Composite right/left-handed transmission line metamaterials. IEEE Microwave Magazine 5, 3450.Google Scholar
3.Zayniyev, D and Budimir, D (2010) Dual-band microstrip antenna filter for wireless communications. In 2010 IEEE Antennas and Propagation Society International Symposium, Toronto, ON, 2010, 1–4.Google Scholar
4.Yan, J-M, Zhou, H-Y and Cao, L-Z (2016) Compact diplexer using microstrip half- and quarter-wavelength resonators. Electronics Letters 52, 16131615.Google Scholar
5.Chen, D, Zhu, L, Bu, H and Cheng, C (2015) A novel planar diplexer using slotline-loaded microstrip ring resonator. IEEE Microwave and Wireless Components Letters 25, 706708.Google Scholar
6.Chen, X, Yu, X and Sun, S (2017) Design of high-performance microstrip diplexers with stub-loaded parallel-coupled lines. Electronics Letters 53, 10521054.Google Scholar
7.Bukuru, D, Song, KJ and Xue, (2015) Compact wide-stopband planar diplexer based on rectangular dual spiral resonator. Microwave and Optical Technology Letters 57, 174178.Google Scholar
8.Rezaei, A, Noori, L and Mohammadi, H (2017) Design of a novel compact microstrip diplexer with low insertion loss. Microwave and Optical Technology Letters 59, 16721676.Google Scholar
9.Li, M, Xu, K-D, Ai, J and Liu, Y (2017) Compact diplexer using short stub-loaded composite right/left-handed resonators. Microwave and Optical Technology Letters 59, 14701474.Google Scholar
10.Zeng, HY, Wang, GM, Wei, DZ and Wang, YW (2012) Planar diplexer using composite right-/left-handed transmission line under balanced condition. Electronics Letters 48, 104106.Google Scholar
11.Shao, Q and Chen, F-C (2017) Design of compact diplexer with novel matching network using cascaded quadruplet filters. Microwave and Optical Technology Letters 59, 315318.Google Scholar
12.Xu, KD, Li, M, Liu, Y, Yang, Y and Liu, QH (2018) Design of triplexer using E-stub-loaded composite right-/left-handed resonators and quasi-lumped impedance matching network. IEEE Access 6, 1881418821.Google Scholar
13.Shen, Q (2016) Simple broadband via-free microstrip composite right and left hand transmission line. Electronics Letters 52, 724725.Google Scholar
14.Kou, N, Shi, Y and Li, L (2016) New equivalent circuit analysis and synthesis for broadband composite right/left-handed transmission line metamaterials. ACES Journal 31, 884893.Google Scholar