Add to ORKGThis paper presents the design of a high efficiency corporate-fed 8×8-slot array antenna in the 60 GHz band. The antenna is built using three unconnected metal layers based on Artificial Magnetic Conductor (AMC) in gap waveguide technology. A 2×2 cavity-backed slot subarray is designed in a groove gap waveguide cavity. The cavity is fed through a coupling slot from a ridge gap waveguide corporate-feed network in the lower layer. The subarray is numerically optimized in an infinite array environment. The corporate-feed network is realized by a texture of pins and a guiding ridge. There is very good agreement between simulated and measured results. The fabricated antenna shows a relative bandwidth of 14% with input reflection coefficient bett...
Single-layer, wideband, and low-loss corporate-feed networks for slot antenna arrays are described. ...
The newly introduced gap waveguide technology offers non-contact waveguide configurations so that th...
Inverted microstrip gap waveguide is advantageous for millimeter wave application because of its low...
This paper presents the design of a high efficiency corporate-fed 8 78-slot array antenna in the 60 ...
An 8 78 slot array with high-efficiency andcorporate-fed single layer by ridge gap waveguide at 60-G...
In this paper we present the design of a high efficiency corporate-fed 8 7 8 slots array antenna in...
In this paper, a high gain high efficiency 16 716-element slot antenna array is presented for 60 GHz...
This paper presents a two layer 2x2-slot element as a sub-array for 60 GHz planar array antenna base...
A wideband 2×2-slot element for a 60 GHz antenna array is designed by making use of two double-sided...
A multilayer gap waveguide 8×8 slot array antenna with high efficiency for 60 GHz applications is pr...
A wideband high-gain high-efficiency 16 x 16-element slot antenna array is presented for 60-GHz band...
The millimeter wave frequency range has got a lot of attention over the past few years because it co...
In this paper, a multilayer wideband slot array antenna is presented for high gain applications at V...
This paper deals with the design of a 16x16 slot array antenna fed by inverted microstrip gap wavegu...
Recently, gap waveguide technology is introduced as a promising guiding structure for millimeter-wav...
Single-layer, wideband, and low-loss corporate-feed networks for slot antenna arrays are described. ...
The newly introduced gap waveguide technology offers non-contact waveguide configurations so that th...
Inverted microstrip gap waveguide is advantageous for millimeter wave application because of its low...
This paper presents the design of a high efficiency corporate-fed 8 78-slot array antenna in the 60 ...
An 8 78 slot array with high-efficiency andcorporate-fed single layer by ridge gap waveguide at 60-G...
In this paper we present the design of a high efficiency corporate-fed 8 7 8 slots array antenna in...
In this paper, a high gain high efficiency 16 716-element slot antenna array is presented for 60 GHz...
This paper presents a two layer 2x2-slot element as a sub-array for 60 GHz planar array antenna base...
A wideband 2×2-slot element for a 60 GHz antenna array is designed by making use of two double-sided...
A multilayer gap waveguide 8×8 slot array antenna with high efficiency for 60 GHz applications is pr...
A wideband high-gain high-efficiency 16 x 16-element slot antenna array is presented for 60-GHz band...
The millimeter wave frequency range has got a lot of attention over the past few years because it co...
In this paper, a multilayer wideband slot array antenna is presented for high gain applications at V...
This paper deals with the design of a 16x16 slot array antenna fed by inverted microstrip gap wavegu...
Recently, gap waveguide technology is introduced as a promising guiding structure for millimeter-wav...
Single-layer, wideband, and low-loss corporate-feed networks for slot antenna arrays are described. ...
The newly introduced gap waveguide technology offers non-contact waveguide configurations so that th...
Inverted microstrip gap waveguide is advantageous for millimeter wave application because of its low...