Abstract
In this paper, a compact bandpass filter with improved band stop and band pass characteristics for wireless applications is built with four internal conductive poles in a single resonating cavity, which adds novel quad-resonating modes to the realization of band pass filter. This paper covers the design and testing of the S-band combline coaxial cavity filter which is beneficial in efficient filtering functions in wireless communication system design. The metallic cavity high Q coaxial resonators have the advantages of narrowband, low loss, better selectivity and high potential for power handling, as compared to microstrip filter in the application to determine the quality factor of motor oils. Furthermore, the tuning of coupling screws in the combline filter allows in frequency and bandwidth adjustments. An impedance bandwidth of 500 MHz (fractional bandwidth of 12.8%) has been achieved with an insertion loss of less than 2.5 dB and return loss of 18 dB at the resonant frequency. Four-pole resonating cavity filters have been developed with the center frequency of 4.5 GHz. Insert loss at 0 dB and estimated bandwidth at 850 MHz and a quality factor of 4.3 for the band pass frequencies between 4 and 8 GHz is seen in the simulated result.
Highlights
Published: 19 November 2021In signal processing, filter is a device, that processes frequency-dependent way of signals
Some of them require minimal losses, especially when it is positioned at the front end of the receiver [6]
Using a modified coaxial cavity resonator with four connected conductive posts, a unique quad-mode band pass filter is proposed in this study
Summary
Filter is a device, that processes frequency-dependent way of signals. Some of them require minimal losses, especially when it is positioned at the front end of the receiver [6] In this situation, for achieving better Q-factors, waveguide technology is used. Using a modified coaxial cavity resonator with four connected conductive posts, a unique quad-mode band pass filter is proposed in this study. Multimode filters have benefits such as low insertion loss and smaller size, designing a higher order multimode filter is difficult due to its design complexity of the coupling with the degenerated modes in a single multimode resonator. It is difficult to build a multimode resonator filter with a broad stopband because their parasitic resonances or modes and multiple degenerate modes operates nearer to the fundamental mode [9,10].
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