Add to ORKGInternational audienceThree power amplifier MMICs at Ka-band frequencies are reported in this paper. The MMICs are realized using AlGaN/GaN HEMTs with a gate length of 100 nm. Two single-stage amplifiers are presented to highlight the potential of this GaN technology. A dual-stage amplifier is designed to reach high power performances. In continuous-wave (CW) operation, MMICs have provided up to 1.4 W, 2.4 W and 4.7 W of output power associated with (in this order) 41%, 33%, and 28% of PAE, respectively. The dual-stage MMIC delivered an output power higher than 4 W, associated with 27% of PAE and 9.8 dB of power gain from 29 GHz to 31 GHz
The design and manufacture of a three-stage broadband power amplifier is presented in this paper. Th...
The design and manufacture of a three-stage broadband power amplifier is presented in this paper. Th...
This paper presents the design and analysis issues related to the use of recent GaN technologies for...
International audienceThree power amplifier MMICs at Ka-band frequencies are reported in this paper....
Three power amplifier MMICs at Ka-band frequencies are reported in this paper. The MMICs are realize...
Three power amplifier MMICs at Ka-band frequencies are reported in this paper. The MMICs are realize...
International audienceTwo high-efficiency power amplifier MMICs utilizing a 100 nm AlGaN/GaN HEM...
International audienceTwo high-efficiency power amplifier MMICs utilizing a 100 nm AlGaN/GaN HEM...
Two high-efficiency power amplifier MMICs utilizing a 100 nm AlGaN/GaN HEMT MMIC technology at Ka-ba...
This paper presents two power amplifier MMICs which are designed for operation at K-band (19 GHz). T...
This paper describes highly-efficient GaN/AlGaN HEMT and MMIC power amplifiers for RF-frequencies be...
This paper reports on a wide bandwidth monolithic power amplifier suitable for wide bandwidth applic...
In this paper a Gallium Nitride MMIC technology for high-power amplifiers between 27 GHz and 101 GHz...
In this paper a Gallium Nitride MMIC technology for RF- and microwave and high power amplifiers base...
Two power amplifier (PA) MMIC designs with more than 1W of output power in the 37.5-42.5 GHz Q-band ...
The design and manufacture of a three-stage broadband power amplifier is presented in this paper. Th...
The design and manufacture of a three-stage broadband power amplifier is presented in this paper. Th...
This paper presents the design and analysis issues related to the use of recent GaN technologies for...
International audienceThree power amplifier MMICs at Ka-band frequencies are reported in this paper....
Three power amplifier MMICs at Ka-band frequencies are reported in this paper. The MMICs are realize...
Three power amplifier MMICs at Ka-band frequencies are reported in this paper. The MMICs are realize...
International audienceTwo high-efficiency power amplifier MMICs utilizing a 100 nm AlGaN/GaN HEM...
International audienceTwo high-efficiency power amplifier MMICs utilizing a 100 nm AlGaN/GaN HEM...
Two high-efficiency power amplifier MMICs utilizing a 100 nm AlGaN/GaN HEMT MMIC technology at Ka-ba...
This paper presents two power amplifier MMICs which are designed for operation at K-band (19 GHz). T...
This paper describes highly-efficient GaN/AlGaN HEMT and MMIC power amplifiers for RF-frequencies be...
This paper reports on a wide bandwidth monolithic power amplifier suitable for wide bandwidth applic...
In this paper a Gallium Nitride MMIC technology for high-power amplifiers between 27 GHz and 101 GHz...
In this paper a Gallium Nitride MMIC technology for RF- and microwave and high power amplifiers base...
Two power amplifier (PA) MMIC designs with more than 1W of output power in the 37.5-42.5 GHz Q-band ...
The design and manufacture of a three-stage broadband power amplifier is presented in this paper. Th...
The design and manufacture of a three-stage broadband power amplifier is presented in this paper. Th...
This paper presents the design and analysis issues related to the use of recent GaN technologies for...