Add to ORKGIn this paper, a tunable multi-resonant element designed by coupling a ring element to a microstrip patch antenna is presented. By loading the antenna element with a variable Barium Strontium Titanate (BST) capacitor, tunability is realized. To showcase its enhanced performance, compared to single resonant elements, a reference patch and a ring are also simulated. The ring-loaded patch element is shown to have a significantly higher phase range and enhanced bandwidth compared to the reference elements. The presented unit cell finds applications where higher phase ranges and compact form-factor are desired for reflectarray design
A tunable reflectarray unit cell is presented in this paper using Barium Strontium Titanate (BST) te...
The design and analysis of reflectarray antennas (RAs) often applies the local periodic assumption, ...
A tunable reflectarray unit cell is presented in this paper using Barium Strontium Titanate (BST) te...
In this paper, a tunable multi-resonant element designed by coupling a ring element to a microstrip ...
In this paper, a tunable multi-resonant element designed by coupling a ring element to a microstrip ...
An electronically tunable reflectarray element is proposed in this work to design beam-steering ante...
A single-layer microstrip reflectarray antenna composed of double-circular rings elements of variabl...
Two- and three-element microstrip patch ESPAR arrays are presented, operating at 2.5 GHz and 1 GHz, ...
Two- and three-element microstrip patch ESPAR arrays are presented, operating at 2.5 GHz and 1 GHz, ...
In this paper, we investigate planar antenna elements in the form of multi-rings of square and circu...
The paper reports on investigations into phase characteristic of a unit cell of a single-layer micro...
Tunable reflectarray unit cells operating at K-a- and X-bands are presented in this paper using bari...
Tunable reflectarray unit cells operating at Ka- and X-bands are presented in this paper using bariu...
A novel reflectarray antenna using double square rings elements is designed and analyzed. The reflec...
In this paper, a Ka-band tunable dual resonance reflectarray element, its design methodology, limita...
A tunable reflectarray unit cell is presented in this paper using Barium Strontium Titanate (BST) te...
The design and analysis of reflectarray antennas (RAs) often applies the local periodic assumption, ...
A tunable reflectarray unit cell is presented in this paper using Barium Strontium Titanate (BST) te...
In this paper, a tunable multi-resonant element designed by coupling a ring element to a microstrip ...
In this paper, a tunable multi-resonant element designed by coupling a ring element to a microstrip ...
An electronically tunable reflectarray element is proposed in this work to design beam-steering ante...
A single-layer microstrip reflectarray antenna composed of double-circular rings elements of variabl...
Two- and three-element microstrip patch ESPAR arrays are presented, operating at 2.5 GHz and 1 GHz, ...
Two- and three-element microstrip patch ESPAR arrays are presented, operating at 2.5 GHz and 1 GHz, ...
In this paper, we investigate planar antenna elements in the form of multi-rings of square and circu...
The paper reports on investigations into phase characteristic of a unit cell of a single-layer micro...
Tunable reflectarray unit cells operating at K-a- and X-bands are presented in this paper using bari...
Tunable reflectarray unit cells operating at Ka- and X-bands are presented in this paper using bariu...
A novel reflectarray antenna using double square rings elements is designed and analyzed. The reflec...
In this paper, a Ka-band tunable dual resonance reflectarray element, its design methodology, limita...
A tunable reflectarray unit cell is presented in this paper using Barium Strontium Titanate (BST) te...
The design and analysis of reflectarray antennas (RAs) often applies the local periodic assumption, ...
A tunable reflectarray unit cell is presented in this paper using Barium Strontium Titanate (BST) te...