Synthesis design of equal‐length phase shifter based on substrate integrated waveguide and microstrip line

Abstract: In this article, a synthesis design approach for equal‐length phase shifter based on substrate integrated waveguide (SIW) and microstrip (MS) line is presented. It is a novel and effective design method of equal‐length phase shifter. The propagation constants in SIW(TE10) and MS(Quasi‐TEM) are nonlinear and approximately linear, respectively. Therefore, the equal‐length phase shift for SIW and MS, is not a constant, but changes with its frequency. In this work, the propagation constant with nonlinear curve in … Show more

“…The characteristics vary in bandwidth and compactness. Other works, such as[29] and[30], focus on the E-SIW technology; the phase shift is produced by using microstrip lines of different lengths on the ends of the E-SIW or by the direct modification of the waveguide width, respectively. Unlike the previous works, we propose using periodic structures in CLAF-SIW to obtain different phase shift behaviors over frequency.…”

Contactless AF-SIW Phase Shifters Based on Periodic Structures at mmWaves

“…The characteristics vary in bandwidth and compactness. Other works, such as[29] and[30], focus on the E-SIW technology; the phase shift is produced by using microstrip lines of different lengths on the ends of the E-SIW or by the direct modification of the waveguide width, respectively. Unlike the previous works, we propose using periodic structures in CLAF-SIW to obtain different phase shift behaviors over frequency.…”

Contactless AF-SIW Phase Shifters Based on Periodic Structures at mmWaves

Contactless AF-SIW phase shifters based on periodic structures at mmWaves

Contactless Af-Siw Phase Shifters Based on Periodic Structures at Mmwaves