Add to ORKGToday, GaN-HEMT technology and Ultra Wide Band (UWB) power amplifiers are clearly identified as a strategic enabling technology for next generation MMICs to be implemented in high performance T/R Modules, Solid State Power Transmitters, Compact Receivers. To allow commercial market entry of GaN technology, a possible solution is represented by GaN-on-Silicon with a Field Plate active devices technology, in order to have a tradeoff between high RF Power performance and low cost. In this paper, a 1�7 GHz Single-Ended Power Amplifier, designed and fabricated with this technology, will be presented. The amplifier was designed by using a CAD oriented broad band matching approach for both input and output networks, and a saturated output power hi...
Most wireless systems must be able to output a high enough output power to serve their purpose. A po...
With the continuous development of modern wireless communication systems, demand for cost effective,...
An ultra-wideband power amplifier (PA) design employing Real Frequency Technique (RFT) with Gallium ...
Today, GaN-HEMT technology and Ultra Wide Band (UWB) power amplifiers are clearly identified as a st...
This contribution describes the design of an ultra wide band hybrid power amplifier for applications...
In this contribution, the design approach and the experimental results of an ultrawideband power amp...
The next-generation wireless communication systems including satellite, radar, and mobile communicat...
In this contribution, the design and full characterisation of a high efficiency Ultra-Wide-Band powe...
This study covers the design steps of a power amplifier prototype which is designed regarding maximu...
In this paper, a high-power amplifier integrated circuit (IC) in gallium-nitride (GaN) on silicon (S...
This contribution reports several Power Amplifiers (PAs) designed using both GaN-on-Si and GaN-on-Si...
The research of an ultra-broadband power amplifier based on TGF2023-2-02 GaN HEMT which operates in ...
The need for high power, highly efficient, multi-band and multi-mode radio frequency (RF) and microw...
Most wireless systems must be able to output a high enough output power to serve their purpose. A po...
With the continuous development of modern wireless communication systems, demand for cost effective,...
An ultra-wideband power amplifier (PA) design employing Real Frequency Technique (RFT) with Gallium ...
Today, GaN-HEMT technology and Ultra Wide Band (UWB) power amplifiers are clearly identified as a st...
This contribution describes the design of an ultra wide band hybrid power amplifier for applications...
In this contribution, the design approach and the experimental results of an ultrawideband power amp...
The next-generation wireless communication systems including satellite, radar, and mobile communicat...
In this contribution, the design and full characterisation of a high efficiency Ultra-Wide-Band powe...
This study covers the design steps of a power amplifier prototype which is designed regarding maximu...
In this paper, a high-power amplifier integrated circuit (IC) in gallium-nitride (GaN) on silicon (S...
This contribution reports several Power Amplifiers (PAs) designed using both GaN-on-Si and GaN-on-Si...
The research of an ultra-broadband power amplifier based on TGF2023-2-02 GaN HEMT which operates in ...
The need for high power, highly efficient, multi-band and multi-mode radio frequency (RF) and microw...
Most wireless systems must be able to output a high enough output power to serve their purpose. A po...
With the continuous development of modern wireless communication systems, demand for cost effective,...
An ultra-wideband power amplifier (PA) design employing Real Frequency Technique (RFT) with Gallium ...