BCB-Based Thin-Film Ka-Band Quarter-Mode SIW Packaged Filters With Ultrawide Stopband and Independently Controlled TZs

In this article, quarter-mode substrate-integrated waveguide (QMSIW) filters featuring ultrawide stopband and flexibly allocated transmission zeros (TZs) are proposed. Eight higher modes with resonant frequencies up to 4.7 times of the fundamental mode are highly suppressed. It is realized by the co...

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Bibliographic Details
Published in:IEEE transactions on microwave theory and techniques 2022-10, Vol.70 (10), p.4389-4398
Main Authors: Huang, Xiaolong, Zhou, Liang, Xu, Jin-Xu, Zhang, Xiu Yin, Mao, Jun-Fa
Format: Article
Language:English
Subjects:
Benzocyclobutene (BCB)
Circuits
Cross coupling
Electric field strength
Electric filters
Electromagnetic wave filters
Feeds
Impedance
Insertion loss
Microelectromechanical systems
microelectromechanical systems (MEMS)
Millimeter wave radar
Millimeter wave technology
Millimeter waves
packaged filter
quarter-mode substrate-integrated waveguide (QMSIW)
Resonant frequencies
Resonant frequency
Resonators
Substrate integrated waveguides
Substrates
system-on-package (SOP)
Thin films
transmission zeros (TZs)
ultrawide stopband
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Summary:In this article, quarter-mode substrate-integrated waveguide (QMSIW) filters featuring ultrawide stopband and flexibly allocated transmission zeros (TZs) are proposed. Eight higher modes with resonant frequencies up to 4.7 times of the fundamental mode are highly suppressed. It is realized by the combination of three approaches without extra circuit areas. First, a slot is cut in the first and last QMSIW resonators to make their resonant frequencies of higher modes different from those of other resonators. Second, avoid exciting the specific higher modes by setting the feed point in the area where the electric field strength of the higher modes is weak. Third, mismatch the higher modes when matching the passband. It is realized by using a stripline impedance transformer with its main body not exceeding the area of QMSIW resonators. Furthermore, except for the TZs derived by the classical cross-coupling matrix, two more independently controlled TZs are generated. The packaged filter is fabricated by using a benzocyclobutene (BCB)-based microelectromechanical systems (MEMS) process, which is suitable for millimeter-wave 3-D system-on-package (SOP) applications. The fabricated thin-film filter is measured with an insertion loss of 2.96 dB at 29.4 GHz and a fractional bandwidth (BW) of 17%. Higher mode suppressions up to 138.3 GHz are achieved.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2022.3197589