Development of Frequency Response Simulation Program for Filter Circuit Design

Authors

  • Nattapong Intarawiset Department of Industrial Education and Technology, Faculty of Engineering, Rajamangala University of Technology Lanna
  • SUGCHAI TANTIVIWAT Department of Mechanical Engineering Faculty of Industrial Education and Technology, Rajamangala University of Technology Srivijaya
  • Apirun Chanthong Department of Electrical Engineering College of Industrial Technology and Management, Rajamangala University of Technology Srivijaya
  • Jessada Konpang Department of Electrical and Telecommunication Engineering, Faculty of Engineering, Rajamangala University of Technology Krungthep

DOI:

https://doi.org/10.14456/rmutlengj.2023.8

Keywords:

Simulation program, Filters, Wireless communications

Abstract

This paper presents a simulation program that utilizes the MATLAB GUI interface to calculate part values and display frequency responses for wireless communication systems filters. The simulation supports computational theory with three circuit models: T-model, Pi-model, and K-inverter. Users have the flexibility to choose their desired filter response type, schematic, filter type, passband ripple configuration, and response order. The simulation's complex equations enable accurate element value calculation and circuit design. Additionally, users can compare frequency response graphs to facilitate on-demand analysis and design. The simulation results are in agreement with filter theory, making it an effective tool for teaching and learning the fundamentals of frequency response in wireless communication. Furthermore, the filter element values derived from the simulation can be employed in advanced circuit design.

References

Zhang W, Weng Z, Wang L. Design of a dual-band MIMO antenna for 5G smartphone application. In 2018 International Workshop on Antenna Technology (iWAT) 2018 Mar 5. pp. 1-3.

Fernandez-Martinez P, Martin-Anton S, Segovia-Vargas D. Design of a wideband Vivaldi antenna for 5G base stations. In 2019 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting 2019 Jul 7. pp. 149-150.

Parchin NO, Abd-Alhameed RA, Shen M. Design of low cost FR4 wide-band antenna arrays for future 5G mobile communications. In 2019 International Symposium on Antennas and Propagation (ISAP) 2019 Oct 27. pp. 1-3.

Adya S, Jain A, Sharma D, Gupta A, Bhalla V. Design and fabrication of microstrip equal Wilkinson RF power divider at 650MHz using MWO. In 2017 IEEE Applied Electromagnetics Conference (AEMC) 2017 Dec 19. pp. 1-2.

Lu J, Shi J, Xu K, Cao Q. A microstrip differential power divider. In 2016 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM) 2016 May 16. pp. 1-3.

Haddi SB, Zugari A, Zakriti A, Achraou S. A compact microstrip T-shaped resonator band pass filter for 5G applications. In2020 International Conference on Intelligent Systems and Computer Vision (ISCV) 2020 Jun 9. pp. 1-5.

Al-Yasir YI, Parchin NO, Alabdallah A, Abdulkhaleq AM, Abd-Alhameed RA, Noras JM. Design of bandpass tunable filter for green flexible RF for 5G. In 2019 IEEE 2nd 5G World Forum (5GWF) 2019 Sep 30. pp. 194-198.

Cameron RJ, Kudsia CM, Mansour RR. Microwave filters for communication systems: fundamentals, design, and applications. John Wiley & Sons; 2018 Apr 17.

Liu Y, Cheng Q S. Microwave engineering course for engineering education accreditation: exploration and practice in SUSTech. In 2019 IEEE International Conference on Engineering, Technology and Education (TALE); 2019 Dec 10-13; Yogyakarta, Indonesia. 2019. p. 1-4.

Yang Z, Lili S. Application of electromagnetic simulation in the course of “Microwave technology and antenna”. In 2020 International Conference on Computers, Information Processing and Advanced Education (CIPAE); 2020 Oct 16-18; Ottawa, ON, Canada. 2020. p. 161-163.

Wang SC, Li MJ, Tong MS. Incorporation of Modeling and Simulation Techniques with the Education on Electromagnetics and Microwave Technology. In 2019 Photonics & Electromagnetics Research Symposium-Fall (PIERS-Fall) 2019 Dec 17. pp. 1058-1062.

Klinbumrung K, Tansriwong S, Akatimagool S. The development of instructional package on high-frequency transmission line engineering using REPEA learning model. In 2015 The 3rd International Conference on Technical Education 2015 (pp. 19-22).

Intarawiset N, Akatimagool S, Narongkul S. Analysis of microwave filter based on LC chips in microstrip circuitry using K-inverter approach. In 2019 6th International Conference on Technical Education (ICTechEd6) 2019 Mar 19. pp. 1-4.

Hong JS, Lancaster MJ. Microstrip filters for RF/microwave applications. John Wiley & Sons; 2004 Apr 7.

MATLAB version: 9.12 (R2022a), Natick, Massa-chusetts: The MathWorks Inc.; 2022.

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Published

2023-12-19

How to Cite

Intarawiset, N., TANTIVIWAT, S., Chanthong, A., & Konpang , J. (2023). Development of Frequency Response Simulation Program for Filter Circuit Design . RMUTL Engineering Journal, 8(2), 12–20. https://doi.org/10.14456/rmutlengj.2023.8

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Section

Research Article