Add to ORKGThis paper outlines the design characterization and electromagnetic performance of a millimeter-wave high power combining structure, which exploits the spatial power combination technique. The input matching is always below 10 dB over the entire Q band, and the overall weight of the structure is about 500 g. Multiphysics simulations show how this structure is suitable for the most challenging space missions that will arise in next few years. In fact, 100W of RF power above the frequency of 40 GHz can be delivered while all the specications for satellite payloads are complied. Other Spatial Power Combiner structures, such as Radial ones, cannot be implemented in space missions since they are much less compact and much heavier than the...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
This paper outlines the design characterization and electromagnetic performance of a millimeter-wav...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
International audienceThis paper presents a new power combining technique for Solid State Power Ampl...
In this article the new frontier in Spatial Power Amplifiers is shown, with particular attention to ...
Bibliography: p. 343-355.xxiv, 355 p. : ill. ; 30 cm.Based on a comprehensive review of past techniq...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
The fifth generation of mobile communication poses challenges in the form of increased data volume, ...
Millimeter-wave power-combining techniques are reviewed, and three architec-tures are chosen for fur...
This manuscript presents a novel wideband power divider with high power handling capability. The pow...
Significant progress has been made in solid-state spatial power combining under recent DARPA and ARO...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
Today, there is an increasing demand for wideband, high power solid state amplifiers operating in th...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
This paper outlines the design characterization and electromagnetic performance of a millimeter-wav...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
International audienceThis paper presents a new power combining technique for Solid State Power Ampl...
In this article the new frontier in Spatial Power Amplifiers is shown, with particular attention to ...
Bibliography: p. 343-355.xxiv, 355 p. : ill. ; 30 cm.Based on a comprehensive review of past techniq...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
The fifth generation of mobile communication poses challenges in the form of increased data volume, ...
Millimeter-wave power-combining techniques are reviewed, and three architec-tures are chosen for fur...
This manuscript presents a novel wideband power divider with high power handling capability. The pow...
Significant progress has been made in solid-state spatial power combining under recent DARPA and ARO...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
Today, there is an increasing demand for wideband, high power solid state amplifiers operating in th...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
Several spatial power combining oscillators employing an extended resonance technique have been desi...