Pareto optimization of radar receiver low-noise amplifier source impedance for low noise and high gain

Designing wideband low noise amplifiers (LNAs) at millimeter wave frequencies (>30 GHz) is rather challenging due to trade‐offs that need to be achieved between often contrasting goals such as noise figure, gain, impedance matching, stability, DC power consumption, and chip size. In this paper, a low noise design procedure at 50 GHz is presented, proving the feasibility of a 2 dB Noise Figure LNA at Q/V band. Such performance is enabling for future (but imminent) satellite communication systems operating in the 47‐52 GHz frequency band. Repeatability and reliability are key requirements for satellite operations and therefore an Industrial Grade—Space Qualified technology has been selected.

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Q/V band LNA for satellite on‐board space applications using a 70 nanometers GaAs mHEMT commercial technology

Ciccognani

Longhi²,

Colangeli

et al. 2018

Micro & Optical Tech Letters

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Exponential Contingency Explosion: Implications for Artificial General Intelligence

Haug

Marks

Dembski

2022

IEEE Trans. Syst. Man Cybern, Syst.

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Pareto optimization of radar receiver low-noise amplifier source impedance for low noise and high gain

Cited by 2 publications

References 20 publications

Q/V band LNA for satellite on‐board space applications using a 70 nanometers GaAs mHEMT commercial technology

Q/V band LNA for satellite on‐board space applications using a 70 nanometers GaAs mHEMT commercial technology

Exponential Contingency Explosion: Implications for Artificial General Intelligence

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