Add to ORKGThis paper studies the aperture efficiency reduction due to grating lobes of a uniformly excited planar array. The grating lobes will not cause major interference problems in the millimeter wave region, because of the attenuation in the atmosphere, but they cause a reduction of the directivity and thereby aperture efficiency of the antenna. Therefore, we present a simple formula for calculating the aperture efficiency in the presence of grating lobes, from knowledge of the element pattern. The accuracy of the formula is verified by comparing with simulated results for a full array with slot elements
[EN] This paper presents a multilayer frequency selective surface for a dual-polarized aperture arra...
CITATION: De Villiers, D. I. L. 2013. Prediction of aperture efficiency ripple in clear aperture off...
We combine array-signal-processing and spectral domain techniques to determine the optimal aperture ...
This paper studies the aperture efficiency reduction due to grating lobes of a uniformly excited pla...
This paper numerically validates a simple formula to calculate the aperture efficiency reduction due...
This article belongs to the Section Physical SensorsA planar array of low profile horns fed by a tra...
This paper describes the theories and techniques for designing linear and planar Antenna arrays and ...
International audienceUWB planar phased arrays with inter-element spacing greater than half-waveleng...
It is shown that metal gratings can be used to improve the cross polarization of circularly-polarize...
For arrays the placement of the single elements determines the angular resolution and the unambigu...
In this paper the phased array consist of a circular aperture antennas are arranged in linear array...
A trade off has to be made between bandwidth and isolation of array elements when designing phased a...
We present performance bounds obtained from the optimization of the sidelobe levels of aperiodic lin...
A design technique is described for an arbitrarily shaped planar microstrip antenna array with impro...
This paper describes the use of the Characteristic Basis Function Method for the simulation of large...
[EN] This paper presents a multilayer frequency selective surface for a dual-polarized aperture arra...
CITATION: De Villiers, D. I. L. 2013. Prediction of aperture efficiency ripple in clear aperture off...
We combine array-signal-processing and spectral domain techniques to determine the optimal aperture ...
This paper studies the aperture efficiency reduction due to grating lobes of a uniformly excited pla...
This paper numerically validates a simple formula to calculate the aperture efficiency reduction due...
This article belongs to the Section Physical SensorsA planar array of low profile horns fed by a tra...
This paper describes the theories and techniques for designing linear and planar Antenna arrays and ...
International audienceUWB planar phased arrays with inter-element spacing greater than half-waveleng...
It is shown that metal gratings can be used to improve the cross polarization of circularly-polarize...
For arrays the placement of the single elements determines the angular resolution and the unambigu...
In this paper the phased array consist of a circular aperture antennas are arranged in linear array...
A trade off has to be made between bandwidth and isolation of array elements when designing phased a...
We present performance bounds obtained from the optimization of the sidelobe levels of aperiodic lin...
A design technique is described for an arbitrarily shaped planar microstrip antenna array with impro...
This paper describes the use of the Characteristic Basis Function Method for the simulation of large...
[EN] This paper presents a multilayer frequency selective surface for a dual-polarized aperture arra...
CITATION: De Villiers, D. I. L. 2013. Prediction of aperture efficiency ripple in clear aperture off...
We combine array-signal-processing and spectral domain techniques to determine the optimal aperture ...