Wideband Gap-Waveguide Phase Shifter Based on a Glide-Symmetric Ridge
- Resource Type
- Periodical
- Authors
- Palomares-Caballero, A.; Megias, C.; Molero, C.; Alex-Amor, A.; Padilla, P.
- Source
- IEEE Microwave and Wireless Technology Letters IEEE Microw. Wireless Tech. Lett. Microwave and Wireless Technology Letters, IEEE. 33(1):27-30 Jan, 2023
- Subject
- Fields, Waves and Electromagnetics
Dispersion
Rectangular waveguides
Wideband
Waveguide components
Phase measurement
Millimeter wave technology
Pins
Glide symmetry
millimeter-wave frequencies
phase shifter
ridge gap-waveguide (RGW)
wideband
- Language
- ISSN
- 2771-957X
2771-9588
This letter presents a gap-waveguide phase shifter based on ridged unit cells with glide-symmetric configuration. The proposed unit cell design provides a higher stable phase shift compared to a conventional ridged unit cell whose ridge height and waveguide width are tuned to achieve a stable phase shift. Through the insertion of glide-symmetric holes with semicircle base in the ridged waveguide, a stable phase shift in a wide frequency range is achieved. Depending on the radii of the holes, the operating frequency range of the phase shifter can be tuned. A 90° phase shifter in millimeter-wave range is designed and manufactured to validate the analysis. The experimental results reveal a 85° ± 5° phase shift from 33 GHz to 43 GHz (26.3% bandwidth). In this bandwidth, the reflection coefficient is below −10 dB with a maximum insertion loss of 0.7 dB.