Add to ORKGSpatial Power Combining is an enabling technology for achieving useful power levels from solid state devices at millimeter wavelengths. Oscillator-based combining came first, historically, but has been passed over for what practitioners believe to be more reliable amplifier based technology. Recent results in oscillator-based. combining systems offer possibilities for technology breakthrough
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
A planar periodic MESFET based spatial power combiner was designed and fabricated for X-band operati...
In this article the new frontier in Spatial Power Amplifiers is shown, with particular attention to ...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
International audienceThis paper presents a new power combining technique for Solid State Power Ampl...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
A new Method is presented to combine the microwave and millimeter wave power generated by many two o...
s the operating frequency of semiconductor solid-state devices increases into the millimeter-wave re...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
A planar periodic MESFET based spatial power combiner was designed and fabricated for X-band operati...
In this article the new frontier in Spatial Power Amplifiers is shown, with particular attention to ...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
International audienceThis paper presents a new power combining technique for Solid State Power Ampl...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
A new Method is presented to combine the microwave and millimeter wave power generated by many two o...
s the operating frequency of semiconductor solid-state devices increases into the millimeter-wave re...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
A planar periodic MESFET based spatial power combiner was designed and fabricated for X-band operati...
In this article the new frontier in Spatial Power Amplifiers is shown, with particular attention to ...