Add to ORKGAt millimeter and sub-millimeter-wave frequencies individual solid-state devices have a limited ability to produce enough power for system applications. Therefore, it is desirable to combine the power generated from many individual devices. Here, the design and fabrication of a unit cell for construction of large quasi-optical power combining oscillator arrays will be presented. The oscillator unit cell was designed at 10 GHz and fabricated on a Duroid substrate. The power generated is radiated into free space via a circular slot antenna. The measurement results obtained at 10.02 GHz are presented in this paper
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
Loading a two-dimensional grid with active devices offers a means of combining the power of solid-st...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
Solid-state devices that produce radiation in the microwave and millimeter-wave region of the electr...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Abstract-There is an increasing demand for compact watt-level CO-herent sources in the millimeter- a...
Semiconductor devices have limited power handling capabilities at high frequencies, particularly at ...
Progress in the construction of a millimeter-wave power amplifier using an array of field-effect tra...
Quasi-optical power-combining offers the most promising method for extracting large amounts of power...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
In the design of radio frequency equipment at higher and higher frequencies it becomes increasingly ...
There is increasing demand for compact watt-level coherent sources in the millimeter and submillimet...
Several spatial power comblniDg oscillators employing an extended resonance technlque have been desi...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
Loading a two-dimensional grid with active devices offers a means of combining the power of solid-st...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
Solid-state devices that produce radiation in the microwave and millimeter-wave region of the electr...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Abstract-There is an increasing demand for compact watt-level CO-herent sources in the millimeter- a...
Semiconductor devices have limited power handling capabilities at high frequencies, particularly at ...
Progress in the construction of a millimeter-wave power amplifier using an array of field-effect tra...
Quasi-optical power-combining offers the most promising method for extracting large amounts of power...
Several spatial power combining oscillators employing an extended resonance technique have been desi...
In the design of radio frequency equipment at higher and higher frequencies it becomes increasingly ...
There is increasing demand for compact watt-level coherent sources in the millimeter and submillimet...
Several spatial power comblniDg oscillators employing an extended resonance technlque have been desi...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
Loading a two-dimensional grid with active devices offers a means of combining the power of solid-st...
Several spatial power-combining oscillators based on an extended resonance technique was designed an...