Southeast Europe Journal of Soft Computing

Microstrip Bandpass Filter simulations are included in this project paper. It has a graph, a design, a top view, and a 3D projection. The Coupled-Line Microstrip Filter is built of FR-4 material with a permittivity of 4.4 and is designed for a center frequency of 2.4 GHz. The ground is 1.55mm thick, and the air is 11mm thick. 50 ohms is the characteristic impedance. This filter is attached to the two ports and is made up of parallel-coupled lines linking the two ports. All of the dimensions have been put down. S11 values should be less than -10dB, while S12 values should be more than -2dB. The filter gives an insertion of -1.7 dB, return loss of -23 dB, and bandwidth of 1.5 GHz. Designed Microstrip Coupled Line Bandpass Filter can be used for wireless and high-frequency applications. All the design and simulations of this filter are done using Sonnet Suites Software.

Sonnet Software, Band-pass filter, FR-4, Microstrip

Cheng-Yuan Hung, M.-H. W.-K.-Y. (2007). Microwave and optical technology letters Volume 49 Issue 4. Design of parallel coupled-line microstrip wideband bandpass filter using stepped-impedance resonators, 795-798.

F.G. Awan, N. S. (2015). University of Engineering and Technology Lahore. Design and implementation of an optimized j-band microstrip symmetric coupled line band pass filter 4501-4505.

Kai-Da Xu, S. L. (2020). Rf and microwave computer-aided engineering Volume 30 Issue 8. oupled-line band-pass filter with T-shaped structure for high frequency selectivity and stopband rejection.

Kim, P., Chaudhary, G., & Jeong, Y. (2018). Journal of Electromagnetic Waves and Applications. Unequal termination impedance parallel-coupled lines band-pass filter with arbitrary image impedance, 984-986.

Mubina Šašić, S. T. (2021). Heritage and Sustainable Development Volume 3 . Design of microstrip coupledline bandpass filter, 44-52.

P.Priyanka, D. (2018). International Journal of Engineering Research & Technology (IJERT), Special Issue. Design of Microstrip Coupled Line Bandpass.

Ragani Taoufik, N. A. (2013). International Journal of Engineering and Technolog. Designing a Microstrip coupled line bandpass filter , 266-269.

Rajendra N. Kadam, D. A. (2015). International Research Journal of Engineering and Technology (IRJET), Volume 2 Issue 6. Design of a Coupled-Line Microstrip Bandpass Filter at 3.5 GHz, 1174-1178.

T.Kinpara, M. M. (2001). Physica C: Superconductivity Volumes 357-360 Part 2 . Design of cross-coupled microstrip bandpass filter, 1503-1506.

Y. Liu, K. C. (2012). Microwave and optical technology letters Volume54. Simple wideband microstrip ring bandpass filter by utilizing forced harmonic suppression and direct feed line coupling, 1968-1970.

Yongle Wu, B. H. (2015). Microwave and optical technology letters. Volume 57 Issue 10. Compact high-selectivity bandpass filter using a novel uniform coupled-line dual-mode resonator, 2355-2358.

Zahid A. Bhat, J. A. (2021). Frequenz Volume 75 Issue 5-6. Compact and novel coupled line microstrip bandpass filter based on stepped impedance resonators for millimetre-wave communications.

Xin Guan, H.-C. L.-Y.-W. (2020). International Journal of Antennas and Propagation. Design of Broadband Band-Pass Filter with Cross-Coupled Line Structure.