Design of a Wideband Bandpass Filter using Two Cross-Coupled Three Short Ended Section

Ajay Kumar Yadav*, Vipin Kumar Upaddhayay**, Dileep kumar yadav***
* Postgraduate, Department of Electronics and Communication Engineering, SIIT, Gorakhpur, India.
**-*** Postgraduate, Department of Communication Engineering, Madan Mohan Malaviya University of Technology, Gorakhpur, India.
Periodicity:April - June'2016
DOI : https://doi.org/10.26634/jwcn.5.1.6022

Abstract

A new compact wideband band pass filter is designed by using two short-ended cross coupled sections between the input and output port up to some length. Shorting of section improves its cutoff frequencies fall off. It also helps in size reduction and its covered area. It has measured 3dB pass band of (2 to 4.86) GHz band. The circuit size is reduced considerably and its size is (17.86×10.95) mm. This structure comprised of basically a ring resonator in which cross coupling and short ended section is provided. This wideband BPF is mainly applicable for IEEE defined S-Band applications. This wide band BPF was designed using ANSYS HFSS.

Keywords

Ring Resonator, Cross- Coupled Line, Wideband Bandpass Filter, Transmission Zeros.

How to Cite this Article?

Yadav, A.K., Upaddhyay, V.K., and Yadav, D.K. (2016). Design of a Wideband Bandpass Filter using Two Cross-Coupled Three Short Ended Section. i-manager's Journal on Wireless Communication Networks, 5(1), 29-33. https://doi.org/10.26634/jwcn.5.1.6022

References

[1]. Runqi Zhang and Lei Zhu, (2014). “Design of a Wideband Bandpass Filter with Composite Short-circuited and Open-Circuited Stubs”. IEEE Microwave and Wireless Components Letters, Vol.24, No.2.
[2]. Xiuping Li and Xiang Ji, (2014). “Novel Compact UWB Bandpass Filters Design With Cross-Coupling between Short-Circuited Stubs”. IEEE Microwave and Wireless Components Letters, Vol.24, No.1.
[3]. YuePing Zhang and Mei Sun, (2006). “Dual-Band Microstrip Bandpass Filter Using Stepped-Impedance Resonators With New Coupling Schemes”. IEEE Transactions on Microwave Theory And Techniques, Vol.54, No.10.
[4]. Sheng Sun, and Lei Zhu, (2007). “Wideband Microstrip Ring Resonator Bandpass Filters under Multiple Resonances”. IEEE Transactions on Microwave Theory and Techniques, Vol.55, No.10.
[5]. Shuai Yang, Lei Lin, Jianzhong Chen, Kun Deng and Chang-Hong Liang, (2014). “Design of compact dualband bandpass filter using dual-mode steppedimpedance stub resonators”. Electron. Lett. Vol.50, No.8, pp.611-613.
[6]. Si-Wei Ren and Hong-Li Peng, (2012). “Compact Quasi- Elliptic Wideband Bandpass Filter Using Cross- Coupled Multiple-Mode resonators”. IEEE Microwave and Wireless Component Lett., Vol.22, No.8.
[7]. J.G. Zhou, W.J. Feng and W.Q. Che, (2012). “Dualwideband bandpass filter using T-shaped structure based on transversal signal-interaction concepts”. Electron. Lett, Vol.48, No.24.
[8]. Robert Rehner, Dirk Schneiderbanger, Michael Sterns, Siegfried Martius, Lorenz-Peter Schmidt J.T. Kuo, and E. Shin, (2010). “Novel Coupled Microstrip Wideband Filters withn Spurious Response Suppression”. Proceedings th of the 37 European Microwave Conference.
[9]. Qing-xin Chu, and Lei-lei, (2013). “Wideband Balanced Bandpass Filter Using Slot Resonators and Backto- Back Structure”. IEEE, Vol.49, No.19, pp.1230-1232.
[10]. Wen-Hsia Huang, Teng-Bang Hou, and Ching-Wen, (2002). “Design of A Bandpass Filter with Wide Passband and wide rejection bandwidth”. IEEE Microwave Wireless Component Lett., Vol.12, No.10, pp.383-385.
[11]. Seyyed Kamal Hashemi, (2011). “Dual-Band th Bandpass Filters Based on Multilayer Ring Resonators”. 11 Mediterranean Microwave Symposium (MMS), pp.34-37.
[12]. Yongsheng Dai, Qunfei Han, Min Han, Honghao Yin, Ping Li, Tongsheng Zuo and QiuyueXie, (n.d.). “A Novel Miniaturized Wideband Bandpass Filter using LTCC Technology”. International Symposium on Communication and Information Technologies.
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