This paper presents the design approach for a compact, single-stage, wideband MMIC power amplifier. A method is proposed to compensate the output capacitance of the active device over a frequency range as wide as possible, with minimum impact on the achievable output power, that leads to a 2- element compensating network. A 3- section transformer is then adopted for a real-to-real transformation. The CW characterization shows output power higher than 32dBm and drain efficiency between 35% and 45%, over a fractional bandwidth of 148%, from 3 GHz to 20 GHz
We discuss the design, realization and experimental characterization of a GaN-based hybrid Doherty p...
This paper describes the design and realization of efficient GaN/AlGaN MMICs for X-band frequencies ...
In this paper, an ultra-wideband (UWB) power amplifier (PA) on a 0.25 μm gallium-nitride (GaN) on si...
This paper presents the design approach for a compact, single-stage, wideband MMIC power amplifier. ...
We present a wideband GaN MMIC power amplifier, designed to be the unit cell of a balanced module. A...
This paper describes design, fabrication and measurement of 6 GHz - 18 GHz monolithic microwave inte...
This letter presents the design strategy for an ultrawideband,high-efficiency hybrid power amplifier...
The monolithic microwave integrated circuit (MMIC) power amplifiers serve an essential and critical ...
This letter presents a power amplifier (PA) design and network synthesis approach to achieve wideban...
This paper reports two different S band GaN MMIC PA designs for WiMAX applications. First PA has a 4...
This letter presents the design strategy for an ultrawideband, high-efficiency hybrid power ampl...
A broadband GaN MMIC power amplifier (PA) with compact dimensions of 1.94 × 0.83 mm2 is presented fo...
Based on the concept developed by Morten Olavsbråten at the department of Electronics and Telecommun...
This paper reports on two wide bandwidth monolithic power amplifiers suitable for electronic warfare...
With the increase in applications of the millimeter wave spectrum for phased array radar systems, mo...
We discuss the design, realization and experimental characterization of a GaN-based hybrid Doherty p...
This paper describes the design and realization of efficient GaN/AlGaN MMICs for X-band frequencies ...
In this paper, an ultra-wideband (UWB) power amplifier (PA) on a 0.25 μm gallium-nitride (GaN) on si...
This paper presents the design approach for a compact, single-stage, wideband MMIC power amplifier. ...
We present a wideband GaN MMIC power amplifier, designed to be the unit cell of a balanced module. A...
This paper describes design, fabrication and measurement of 6 GHz - 18 GHz monolithic microwave inte...
This letter presents the design strategy for an ultrawideband,high-efficiency hybrid power amplifier...
The monolithic microwave integrated circuit (MMIC) power amplifiers serve an essential and critical ...
This letter presents a power amplifier (PA) design and network synthesis approach to achieve wideban...
This paper reports two different S band GaN MMIC PA designs for WiMAX applications. First PA has a 4...
This letter presents the design strategy for an ultrawideband, high-efficiency hybrid power ampl...
A broadband GaN MMIC power amplifier (PA) with compact dimensions of 1.94 × 0.83 mm2 is presented fo...
Based on the concept developed by Morten Olavsbråten at the department of Electronics and Telecommun...
This paper reports on two wide bandwidth monolithic power amplifiers suitable for electronic warfare...
With the increase in applications of the millimeter wave spectrum for phased array radar systems, mo...
We discuss the design, realization and experimental characterization of a GaN-based hybrid Doherty p...
This paper describes the design and realization of efficient GaN/AlGaN MMICs for X-band frequencies ...
In this paper, an ultra-wideband (UWB) power amplifier (PA) on a 0.25 μm gallium-nitride (GaN) on si...