Dual-Band Differential Phase Shifter Using Phase- Slope Alignment on Coupled Resonators

Abstract

In this letter, we propose a new class of phase shifter which can provide different constant phase shifts at two bands for the first time. The prescribed phase shifts $\Delta \Phi _{\mathbf {1}}({f}_{\mathbf {1}})$ and $\Delta \Phi _{\mathbf {2}}({f}_{\mathbf {2}})$ and frequency ratio ( ${n} ={f}_{\mathbf {2}}/{f}_{\mathbf {1}}$ ) of the two bands can be obtained by the developed dual-band phase-shifting line on C-section. Meanwhile, the dual-band phase-slope alignment is first realized by virtue of the two groups of coupled resonators, resulting to independently control the phase slopes at two separated bands as required. The closed-form equations and design charts are further given. For verification, a prototype dual-band phase shifter operating at 3.0 and 5.4 GHz ( $n = 1.8$ ) is designed, fabricated, and tested. The measured results show the proposed phase shifter exactly achieves prescribed constant phase shifts of 90° ± 2.3° over 2.76–3.31 GHz (18%) and 180° ± 2.7° over 4.97–5.80 GHz (15%). Both the simulation and measured results are recorded with good agreement.