This paper presents a proof of concept demonstrator for a pair of novel phase shifters based on substrate integrated waveguide (SIW) technology. Gallium-based liquid metal (LM) is used to reconfigure each phase shifter. The paper presents LM phase shifters that, for the first time, have a phase shifting range of 360⁰. The phase shifters have a small electrical size, and they are intended for use within phased array antenna applications. The paper also presents a design procedure for the phase shifters. The procedure has been used to design two phase shifters operating at 10 GHz. The design process can be readily scaled for operation at other frequencies. The proposed phase shifters are reciprocal and bidirectional and they have very low ins...
Microwave phase shifters based on tunable dielectrics such as nematic liquid crystals (NLC) have att...
This paper presents a highly miniaturized tuneable microstrip line phase shifter for 5 GHz to 67 GH...
This paper discussed the design and performances of a liquid crystal phase shifter that can be used ...
This article presents the first substrate integrated waveguide (SIW) phase shifter that can be recon...
This paper introduces a proof of concept design for the first phased array antenna design enabled by...
This paper presents proof of concept of first liquid metal (LM) based millimeter-wave (mm-wave) phas...
Abstract—This paper presents the first substrate integrated waveguide (SIW) phase shifter that can b...
This paper presents substrate integrated waveguide (SIW) phase shifter that can be reconfigured usin...
A linear, tunable, and self-compensating phase shifter based on liquid metal (LM) is proposed in thi...
This work presents a novel compact and broadband electronically controllable substrate integrated wa...
International audienceThis study investigates a new concept of waveguide-based W-band phase shifters...
A novel technique to enhance the phase shifting range of a liquid crystal (LC)-based, substrate-inte...
Phase shifters are linear one- or two-port devices for adjusting the reflection or insertion carrier...
Microwave phase shifters based on tunable dielectrics such as nematic liquid crystals (NLC) have att...
This paper presents a highly miniaturized tuneable microstrip line phase shifter for 5 GHz to 67 GH...
This paper discussed the design and performances of a liquid crystal phase shifter that can be used ...
This article presents the first substrate integrated waveguide (SIW) phase shifter that can be recon...
This paper introduces a proof of concept design for the first phased array antenna design enabled by...
This paper presents proof of concept of first liquid metal (LM) based millimeter-wave (mm-wave) phas...
Abstract—This paper presents the first substrate integrated waveguide (SIW) phase shifter that can b...
This paper presents substrate integrated waveguide (SIW) phase shifter that can be reconfigured usin...
A linear, tunable, and self-compensating phase shifter based on liquid metal (LM) is proposed in thi...
This work presents a novel compact and broadband electronically controllable substrate integrated wa...
International audienceThis study investigates a new concept of waveguide-based W-band phase shifters...
A novel technique to enhance the phase shifting range of a liquid crystal (LC)-based, substrate-inte...
Phase shifters are linear one- or two-port devices for adjusting the reflection or insertion carrier...
Microwave phase shifters based on tunable dielectrics such as nematic liquid crystals (NLC) have att...
This paper presents a highly miniaturized tuneable microstrip line phase shifter for 5 GHz to 67 GH...
This paper discussed the design and performances of a liquid crystal phase shifter that can be used ...