A thorough comparison of a 3-element microstrip patch ESPAR and traditionally-fed, uniform illumination phased array antennas operating at 1 GHz is presented. The ESPAR is compared to two arrays employing phase shifters, exhibiting both the close-proximity ESPAR spacing, and a third array with half-wavelength spacing. Performance characteristics including radiation pattern trends, directivity, and efficiency are discussed. © 2012 IEEE
a low-cost antenna system with high directivity is presented, with possibility of shaped beam in the...
Widespread adoption of phased array technologies has been hindered primarily by the high cost associ...
In this paper, the influence of dielectric overlay size on miniaturized ESPAR antenna performance ha...
A thorough comparison of a 3-element microstrip patch ESPAR and traditionally-fed, uniform illuminat...
A new approach to parasitic phased-array antennas is presented. A symmetric two-layer, single-input ...
A low-cost electrically scanned phased array utilizing microstrip patch electrically steerable paras...
A microstrip patch ESPAR with reactive mutual coupling control is presented as a single-layer design...
A low-cost electrically scanned phased array utilizing microstrip patch electrically steerable paras...
Two- and three-element microstrip patch ESPAR arrays are presented, operating at 2.5 GHz and 1 GHz, ...
This dissertation explores the expansion of the Electrically Steerable Parasitic Array Radiator (ESP...
This report evaluates circularly-polarized single-probe fed microstrip patch radiating elements for ...
A new approach to parasitic phased array antennas is presented. A symmetric two-layer, single input ...
A novel frequency-reconfigurable ESPAR phased array antenna with beamsteering capability is presente...
On two and three element ESPAR antennas, the frequency range both with high diversity performance an...
Wireless communication systems have rapidly evolved over the past decade which has led to an explosi...
a low-cost antenna system with high directivity is presented, with possibility of shaped beam in the...
Widespread adoption of phased array technologies has been hindered primarily by the high cost associ...
In this paper, the influence of dielectric overlay size on miniaturized ESPAR antenna performance ha...
A thorough comparison of a 3-element microstrip patch ESPAR and traditionally-fed, uniform illuminat...
A new approach to parasitic phased-array antennas is presented. A symmetric two-layer, single-input ...
A low-cost electrically scanned phased array utilizing microstrip patch electrically steerable paras...
A microstrip patch ESPAR with reactive mutual coupling control is presented as a single-layer design...
A low-cost electrically scanned phased array utilizing microstrip patch electrically steerable paras...
Two- and three-element microstrip patch ESPAR arrays are presented, operating at 2.5 GHz and 1 GHz, ...
This dissertation explores the expansion of the Electrically Steerable Parasitic Array Radiator (ESP...
This report evaluates circularly-polarized single-probe fed microstrip patch radiating elements for ...
A new approach to parasitic phased array antennas is presented. A symmetric two-layer, single input ...
A novel frequency-reconfigurable ESPAR phased array antenna with beamsteering capability is presente...
On two and three element ESPAR antennas, the frequency range both with high diversity performance an...
Wireless communication systems have rapidly evolved over the past decade which has led to an explosi...
a low-cost antenna system with high directivity is presented, with possibility of shaped beam in the...
Widespread adoption of phased array technologies has been hindered primarily by the high cost associ...
In this paper, the influence of dielectric overlay size on miniaturized ESPAR antenna performance ha...
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