K-band substrate integrated waveguide to rectangular waveguide transition

Lee, Hongyeal; Uhm, Manseok; Yom, In‐Bok

doi:10.1109/comite.2015.7120326

Cited by 3 publications

(1 citation statement)

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“…However, W-band lters typically consist of high-Q waveguide designs and are often standalone modules, which poses challenges for their integration with radio-frequency (RF) circuits on the same plane. Various methods and structures for connecting cavity lters to RF circuits have been proposed in recent years, including nline [1], microstrip probes [2], or other specially-shaped transition structures [3][4].…”

Section: Introductionmentioning

confidence: 99%

A Novel W-band Substrate Integrated Microstrip to Ultra-thin Cavity Filter Transition

Cao,

Tang,

Liu

et al. 2024

Preprint

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A novel substrate integrated microstrip to ultra-thin cavity filter transition operating in the W-band is proposed in this letter. The filter includes a conventional tapered microstrip transition structure, which guides the electromagnetic field from the microstrip line to the reduced-height dielectric-filled waveguide, and an air-filled matching cavity which is placed between the dielectric-filled waveguide and the ultra-thin cavity filter. The height of the microstrip line, dielectric-filled waveguide and the ultra-thin cavity filter are the same, enabling seamless integration within a planar radio-frequency (RF) circuit. To facilitate testing, mature finline transition structures are integrated at both ends of the microstrip line during fabrication. The simulation results of the fabricated ultra-thin cavity filter with the finline transition structure, with a passband of 91.5–96.5 GHz, has an insertion loss of less than 1.9 dB and a return loss better than − 20 dB. And the whole structure has also been measured which achieves an insertion loss better than 2.6 dB within the filter's passband, including the additional insertion loss introduced by the finline transitions.

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Section: Introductionmentioning

confidence: 99%