New configuration of Waveguide Triplexer with Frequency Multiband BPF with the Purpose of Improvement of Return Signal Losses and Diminution of Time Delay for Application of Short-band Telecommunications Radars and Optic Devices

Citation Author(s):
Seyed Vahab Al-Din
Makki
Department of Electrical Engineering, Faculty of Engineering, Razi University, Kermanshah, Iran
Eiman
Pourdad
Department of Electronic, Kermanshah ACECR Institute of Higher Education, Kermanshah, Iran
Hamed
Moradi
Department of Electrical Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
Pourya
Rostami
Department of Electrical Engineering, Science and Research Branch, Islamic Azad University, Kermanshah, Iran
Submitted by:
hamed moradi
Last updated:
Sat, 07/10/2021 - 09:44
DOI:
10.21227/fk5v-jp59
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Abstract 

In this paper, the design and fabrication of Waveguide Triplexer (WT) model in 1GHz-5GHz frequency band width, with the capability of determination of three frequency bands (first band: 1700MHz to 2200MHZ, second band: 2600MHz to 3100MHz, and third band: 3500MHZ to 4000MHz) in Band Pass Filter (BPF) structure in the form of a separate branch for each of the triplexer branches have been simulated. The purpose of this investigation is diminution of return signal losses and improvement of signal isolation and, as well, diminution of signal time delay in multiband waveguide triplexer filters. The technical structure of BPF geometry has been designed in the form of rectangular geometry of T-shaped waveguide, with regular transverse cylindrical cavity configuration in radiation proportional to H-Plane and E-Plane. One of the other advantages of this investigation is seen in full wave transmission with the least signal deviation and weakening. Also, it has application in telecommunications radars and optical devices industries. The dimensions of the proposed design are 5.99λ0*2.9 λ0, the dimensions of which have diminished. The proposed design has been simulated in CST Microwave Studio.

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waveguide filter

Submitted by hamed moradi on Sat, 07/10/2021 - 09:46

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