International audienceThis paper reports on the design of a new power cell dedicated to Ku-band power amplifier (PA) applications. This cell called '"integrated cascode"' has been designed in order to propose a strong decrease in term of circuit size for Power Amplifier (PA). The technology used relies on 0.25-µm GaAs Pseudomorphic High Electron Mobility Transistors (PHEMT) of United Monolithic Semiconductors (UMS) foundry. A distributed approach is proposed in order to model this power cell. The challenge consists to obtain, with a better shape factor (ratio between the vertical and horizontal sizes of the transistor), the same performances than a single transistor with the same gate development. In order to design a 2W amplifier, we have ...
The paper describes the design of a 38 dBm monolithic power amplifier at Ku band. The amplifier has...
International audienceA suitable large signal design method of distributed power amplifiers, based o...
Abstract – A specific design of a GaN HEMT cascode cell dedi-cated to flip-chip distributed power am...
International audienceThis paper reports on the design of a new power cell dedicated to Ku-band powe...
Abstract—This paper reports on the design of a new power cell dedicated to Ku-band power amplifier (...
Abstract—This paper reports on the design of new power cells based on GaAs PHEMT transistors with 0....
In this paper, a stacked MMIC power amplifier in GaAs pHEMT technology is designed for Ku-band opera...
International audienceThis paper deals with non-linear modeling of power GaN HEMT and design of powe...
International audienceThis paper reports on the design of a cascode GaN HEMT cell dedicated to 4-18 ...
In this paper a design approach for compact power amplifier cells at frequencies around and above 30...
Design, modeling and characterization of MMIC integrated cascode cell for compact Ku-band power ampl...
This paper presents the design and experimental characterization of a 3-stage stacked MMIC power amp...
Abstract — This paper reports on the design of a cascode GaN HEMT cell dedicated to 4-18GHz flip-chi...
International audienceA specific design of a GaN HEMT cascode cell dedi- cated to flip-chip distribu...
This thesis presents two W-band power amplifiers (PA) in different processes: one is Teledyne 250 nm...
The paper describes the design of a 38 dBm monolithic power amplifier at Ku band. The amplifier has...
International audienceA suitable large signal design method of distributed power amplifiers, based o...
Abstract – A specific design of a GaN HEMT cascode cell dedi-cated to flip-chip distributed power am...
International audienceThis paper reports on the design of a new power cell dedicated to Ku-band powe...
Abstract—This paper reports on the design of a new power cell dedicated to Ku-band power amplifier (...
Abstract—This paper reports on the design of new power cells based on GaAs PHEMT transistors with 0....
In this paper, a stacked MMIC power amplifier in GaAs pHEMT technology is designed for Ku-band opera...
International audienceThis paper deals with non-linear modeling of power GaN HEMT and design of powe...
International audienceThis paper reports on the design of a cascode GaN HEMT cell dedicated to 4-18 ...
In this paper a design approach for compact power amplifier cells at frequencies around and above 30...
Design, modeling and characterization of MMIC integrated cascode cell for compact Ku-band power ampl...
This paper presents the design and experimental characterization of a 3-stage stacked MMIC power amp...
Abstract — This paper reports on the design of a cascode GaN HEMT cell dedicated to 4-18GHz flip-chi...
International audienceA specific design of a GaN HEMT cascode cell dedi- cated to flip-chip distribu...
This thesis presents two W-band power amplifiers (PA) in different processes: one is Teledyne 250 nm...
The paper describes the design of a 38 dBm monolithic power amplifier at Ku band. The amplifier has...
International audienceA suitable large signal design method of distributed power amplifiers, based o...
Abstract – A specific design of a GaN HEMT cascode cell dedi-cated to flip-chip distributed power am...