Add to ORKGSeveral spatial power comblniDg oscillators employing an extended resonance technlque have been designed and fabricated for the first time on single layer mlcrostrlp structures. Power comblolng efficiency, circuit tolerance to individual device variations aDdthe effect of device failures on circuit performance were studied. Results obtained indicate exceptional circult tolerance to individual device parameter variations as well as to device faDores. The combiners described berein were designed and operated at 8 GHz with effective ndiated powers of 0.22 W, 0.64 Wand 4.3 W for 8 two, four and a nine device combiner, respectively
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
An X-band eight MESFET two dimensional spatial periodic power combiner is designed and fabricated. T...
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...
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...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
A two dimensional spatial power combining structure using an extended resonance technique is present...
A new Method is presented to combine the microwave and millimeter wave power generated by many two o...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
A new spatial power combining structure capable of integrating many three terminal devices into two ...
A new power amplifier based on an extended resonance technique is presented. This technique produces...
A new power amplifier based on an extended resonance technique is presented. This technique produces...
A planar periodic MESFET based spatial power combiner was designed and fabricated for X-band operati...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
An X-band eight MESFET two dimensional spatial periodic power combiner is designed and fabricated. T...
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...
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...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
A two dimensional spatial power combining structure using an extended resonance technique is present...
A new Method is presented to combine the microwave and millimeter wave power generated by many two o...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
A new spatial power combining structure capable of integrating many three terminal devices into two ...
A new power amplifier based on an extended resonance technique is presented. This technique produces...
A new power amplifier based on an extended resonance technique is presented. This technique produces...
A planar periodic MESFET based spatial power combiner was designed and fabricated for X-band operati...
In this paper we present a periodic second harmonic spatial power combining oscillator. The power co...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
An X-band eight MESFET two dimensional spatial periodic power combiner is designed and fabricated. T...