The high power capabilities in combination with the low noise performance of Gallium Nitride (GaN) makes this technology an excellent choice for robust receivers. This paper presents the design and measured results of three different LNAs, which operate in C-, Ku-, and Ka-band. The designs are realized in 0.25 μm and 0.15 μm AlGaN/GaN microstrip technology. The measured noise figure is 1.2, 1.9 and 4.0 dB for the C-, Ku-, and Ka-frequency band respectively. The robustness of the LNAs have been tested by applying CW source power levels of 42 dBm, 42 dBm and 28 dBm for the C-band, Ku-band and Ka-band LNA respectively. No degradation in performance has been observed
International audienceLow noise amplifiers in receivers are usually addressed by III-V (narrow bandg...
Abstract – Apart from delivering very high output powers, GaN can also be used to realize robust rec...
This thesis presents the theory, design and evaluation of low-noise amplifiers (LNAs) with high inpu...
The high power capabilities in combination with the low noise performance of Gallium Nitride (GaN) m...
Abstract—The high power capabilities in combination with the low noise performance of Gallium Nitrid...
Gallium-Nitride technology is known for its high power density and power amplifier designs, but is a...
In space applications, due to the large number of sources of interferences, RF receivers have to be ...
Besides the well known outstanding characteristics in terms of power density and thermal behavior, w...
In this paper, an overview of recently reported low-noise amplifiers (LNAs), designed, and fabricate...
As well as largely exploited for microwave high-power applications, aluminum gallium nitride (AlGaN)...
Abstract Gallium-Nitride technology is known for its high power density and power amplifier designs,...
In this paper a GaN-on-Si MMIC Low-Noise Amplifier (LNA) working in the Ka-band is shown. The chosen...
The design and the characterization results of a robust C-band MMIC Low Noise Amplifier using AlGaN/...
In this work, a Ka-Band MMIC LNA designed with two different gate length GaN-on-Si devices is shown....
This paper presents a low-noise amplifier (LNA) operating between 8-11 GHz. Measurement results show...
International audienceLow noise amplifiers in receivers are usually addressed by III-V (narrow bandg...
Abstract – Apart from delivering very high output powers, GaN can also be used to realize robust rec...
This thesis presents the theory, design and evaluation of low-noise amplifiers (LNAs) with high inpu...
The high power capabilities in combination with the low noise performance of Gallium Nitride (GaN) m...
Abstract—The high power capabilities in combination with the low noise performance of Gallium Nitrid...
Gallium-Nitride technology is known for its high power density and power amplifier designs, but is a...
In space applications, due to the large number of sources of interferences, RF receivers have to be ...
Besides the well known outstanding characteristics in terms of power density and thermal behavior, w...
In this paper, an overview of recently reported low-noise amplifiers (LNAs), designed, and fabricate...
As well as largely exploited for microwave high-power applications, aluminum gallium nitride (AlGaN)...
Abstract Gallium-Nitride technology is known for its high power density and power amplifier designs,...
In this paper a GaN-on-Si MMIC Low-Noise Amplifier (LNA) working in the Ka-band is shown. The chosen...
The design and the characterization results of a robust C-band MMIC Low Noise Amplifier using AlGaN/...
In this work, a Ka-Band MMIC LNA designed with two different gate length GaN-on-Si devices is shown....
This paper presents a low-noise amplifier (LNA) operating between 8-11 GHz. Measurement results show...
International audienceLow noise amplifiers in receivers are usually addressed by III-V (narrow bandg...
Abstract – Apart from delivering very high output powers, GaN can also be used to realize robust rec...
This thesis presents the theory, design and evaluation of low-noise amplifiers (LNAs) with high inpu...