A liquid crystal (LC) based inverted microstrip meander line phase shifter is presented. The control of phase shift is achieved through use of an external electric field. To facilitate on-wafer measurements and the application of the electric field to the LC, a specially developed transition from the inverted microstrip line to the CPW is used. The performance of the proposed meander line phase shifter is tested using two LC mixtures: first, the standard LC mixture, commonly referred to as E7, while the second mixture is known as MDA-00-3506. A differential phase shift of 202° is achieved with the phase shifter using E7 and 270° using MDA-00-3506 at 50GHz for a 50mm-long microstrip line meandered into a length of 7.67mm. The results are dis...
A 0-10V bias voltage driven liquid crystal (LC) based 0-180° continuously-variable phase shifter is ...
This paper presents proof of concept of first liquid metal (LM) based millimeter-wave (mm-wave) phas...
We report a low-voltage optical phase shifter using liquid crystal actuation integrated in IMEC's iS...
© 2017 The Japan Society of Applied Physics.A liquid crystal (LC) based tunable microstrip line (ML)...
Preliminary modeling results and the description of the modeling technique for analysis and design o...
For the first time, a compact 60 GHz band phase shifter incorporating liquid crystal (LC) is present...
In this paper, we present a continuously tunable phase shifter realized in MEMS technology. Varactor...
Two electrically controlled tunable phase shifters based on liquid crystal (LC) material have been p...
We present here our recent result on reducing the losses of a multiple-folded tunable microstrip lin...
In this paper we present a continuously tunable phase shifter realized in MEMS technology. Varactors...
An electrically tunable microstrip phase shifter for applications of phased array antennas is design...
This paper presents the design and realization of a tunable periodically loaded slot line phase shif...
This paper presents preliminary measurement results of a reflection phase shifter realized in a hybr...
This paper presents a reflection phase shifter, realized in a combined Liquid Crystal and MEMS swit...
This paper presents a highly miniaturized tuneable microstrip line phase shifter for 5 GHz to 67 GHz...
A 0-10V bias voltage driven liquid crystal (LC) based 0-180° continuously-variable phase shifter is ...
This paper presents proof of concept of first liquid metal (LM) based millimeter-wave (mm-wave) phas...
We report a low-voltage optical phase shifter using liquid crystal actuation integrated in IMEC's iS...
© 2017 The Japan Society of Applied Physics.A liquid crystal (LC) based tunable microstrip line (ML)...
Preliminary modeling results and the description of the modeling technique for analysis and design o...
For the first time, a compact 60 GHz band phase shifter incorporating liquid crystal (LC) is present...
In this paper, we present a continuously tunable phase shifter realized in MEMS technology. Varactor...
Two electrically controlled tunable phase shifters based on liquid crystal (LC) material have been p...
We present here our recent result on reducing the losses of a multiple-folded tunable microstrip lin...
In this paper we present a continuously tunable phase shifter realized in MEMS technology. Varactors...
An electrically tunable microstrip phase shifter for applications of phased array antennas is design...
This paper presents the design and realization of a tunable periodically loaded slot line phase shif...
This paper presents preliminary measurement results of a reflection phase shifter realized in a hybr...
This paper presents a reflection phase shifter, realized in a combined Liquid Crystal and MEMS swit...
This paper presents a highly miniaturized tuneable microstrip line phase shifter for 5 GHz to 67 GHz...
A 0-10V bias voltage driven liquid crystal (LC) based 0-180° continuously-variable phase shifter is ...
This paper presents proof of concept of first liquid metal (LM) based millimeter-wave (mm-wave) phas...
We report a low-voltage optical phase shifter using liquid crystal actuation integrated in IMEC's iS...