In this paper, the gap waveguide technology is examined for packaging liquid crystal (LC) in tunable microwave devices. For this purpose, a line based passive phase shifter is designed and implemented in a ridge gap waveguide (RGW) topology and filled with LC serving as functional material. The inherent direct current (DC) decoupling property of gap waveguides is used to utilize the waveguide surroundings as biasing electrodes for tuning the LC. The bed of nails structure of the RGW exhibits an E-field suppression of 76 dB in simulation, forming a completely shielded device. The phase shifter shows a maximum figure of merit (FoM) of 70 °/dB from 20 GHz to 30 GHz with a differential phase shift of 387° at 25 GHz. The insertion loss ranges fr...
This article presents the first substrate integrated waveguide (SIW) phase shifter that can be recon...
A novel technique to enhance the phase shifting range of a liquid crystal (LC)-based, substrate-inte...
Abstract—This paper presents the first substrate integrated waveguide (SIW) phase shifter that can b...
In this paper, the gap waveguide technology is examined for packaging liquid crystal (LC) in tunable...
This paper discussed the design and performances of a liquid crystal phase shifter that can be used ...
A continuously tunable millimeter wave (mm-wave) phase shifter for 60-90 GHz applications was propos...
Passively controllable millimeter-wave phase shifters based on continuously tunable dielectrics offe...
Tunable Liquid Crystal (LC)-based microwave components are of increasing interest in academia and in...
© 2016 EuMA.A continuously tunable millimeter wave (mm-wave) phase shifter for 60-90 GHz application...
A 0–10 V bias voltage-driven liquid crystal (LC) based 0°–180° continuously variable phase shifter w...
This paper presents a proof of concept demonstrator for a pair of novel phase shifters based on subs...
Unconventional folded shielded coplanar waveguide (FS-CPW) has yet to be fully investigated for tuna...
This paper presents a compact and low-loss waveguide phase shifter based on a pin lattice in glide- ...
A 0–10 V bias voltage-driven liquid crystal (LC) based 0◦–180◦ continuously variable phase shifter w...
This paper presents recent development of tunable microwave liquid crystal (LC) components in the lo...
This article presents the first substrate integrated waveguide (SIW) phase shifter that can be recon...
A novel technique to enhance the phase shifting range of a liquid crystal (LC)-based, substrate-inte...
Abstract—This paper presents the first substrate integrated waveguide (SIW) phase shifter that can b...
In this paper, the gap waveguide technology is examined for packaging liquid crystal (LC) in tunable...
This paper discussed the design and performances of a liquid crystal phase shifter that can be used ...
A continuously tunable millimeter wave (mm-wave) phase shifter for 60-90 GHz applications was propos...
Passively controllable millimeter-wave phase shifters based on continuously tunable dielectrics offe...
Tunable Liquid Crystal (LC)-based microwave components are of increasing interest in academia and in...
© 2016 EuMA.A continuously tunable millimeter wave (mm-wave) phase shifter for 60-90 GHz application...
A 0–10 V bias voltage-driven liquid crystal (LC) based 0°–180° continuously variable phase shifter w...
This paper presents a proof of concept demonstrator for a pair of novel phase shifters based on subs...
Unconventional folded shielded coplanar waveguide (FS-CPW) has yet to be fully investigated for tuna...
This paper presents a compact and low-loss waveguide phase shifter based on a pin lattice in glide- ...
A 0–10 V bias voltage-driven liquid crystal (LC) based 0◦–180◦ continuously variable phase shifter w...
This paper presents recent development of tunable microwave liquid crystal (LC) components in the lo...
This article presents the first substrate integrated waveguide (SIW) phase shifter that can be recon...
A novel technique to enhance the phase shifting range of a liquid crystal (LC)-based, substrate-inte...
Abstract—This paper presents the first substrate integrated waveguide (SIW) phase shifter that can b...