Add to ORKG<p>Wide bandgap technology for microwave electronics has been an intense area of research during the last decade. With reas of application ranging from base station amplifiers to radar transceivers, this technology has the resources to be the basis for the next generation of high power microwave electronics. The unique properties of these transistors have enabled the fabrication of high power, broadband, high efficiency and linear microwave electronics better than that possible in either Si or GaAs technology.</p> <p>This work has focused on MMIC (microwave monolithic integrated circuit) technology through development of a process and design technology, and evaluation of typical components for transceiver applications.</p> <p>The MMIC t...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
This paper describes design, fabrication and measurement of 6 GHz - 18 GHz monolithic microwave inte...
This paper presents the progress of monolithic technology for microwaveapplication, focusing on gall...
Wide bandgap technology for microwave electronics has been an intense area of research during the la...
Solid-state power amplifiers at W-band (75 - 110 GHz) are attractive for the generation of local-osc...
This work presents a two-stage high-power amplifier monolithic microwave integrated circuit (MMIC) o...
The monolithic microwave integrated circuit (MMIC) power amplifiers serve an essential and critical ...
Wide bandgap (WBG) devices offer significant advantages for next generation military and commercial ...
A SiC MESFET based MMIC process has been successfully developed. This technology has its main potent...
A SiC MESFET based MMIC process has been successfully developed. This technology has its main potent...
In this paper a Gallium Nitride MMIC technology for high-power amplifiers between 27 GHz and 101 GHz...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
This paper describes efficient GaN/AlGaN HEMTs and MMICs for L/S-band (1-4 GHz) and X-band frequenci...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
Ankara : The Department of Electrical and Electronics Engineering and the Graduate School of Enginee...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
This paper describes design, fabrication and measurement of 6 GHz - 18 GHz monolithic microwave inte...
This paper presents the progress of monolithic technology for microwaveapplication, focusing on gall...
Wide bandgap technology for microwave electronics has been an intense area of research during the la...
Solid-state power amplifiers at W-band (75 - 110 GHz) are attractive for the generation of local-osc...
This work presents a two-stage high-power amplifier monolithic microwave integrated circuit (MMIC) o...
The monolithic microwave integrated circuit (MMIC) power amplifiers serve an essential and critical ...
Wide bandgap (WBG) devices offer significant advantages for next generation military and commercial ...
A SiC MESFET based MMIC process has been successfully developed. This technology has its main potent...
A SiC MESFET based MMIC process has been successfully developed. This technology has its main potent...
In this paper a Gallium Nitride MMIC technology for high-power amplifiers between 27 GHz and 101 GHz...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
This paper describes efficient GaN/AlGaN HEMTs and MMICs for L/S-band (1-4 GHz) and X-band frequenci...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
Ankara : The Department of Electrical and Electronics Engineering and the Graduate School of Enginee...
The evolution of wide-bandgap semiconductor transistor technology is placed in historical context wi...
This paper describes design, fabrication and measurement of 6 GHz - 18 GHz monolithic microwave inte...
This paper presents the progress of monolithic technology for microwaveapplication, focusing on gall...