A Low Noise Amplifier with 27 dB Gain and 1.78 dB Noise for Satellite Communications with 0.1 µm GaAs pHEMT Technology

Abstract: This paper proposes a design of a 38 GHz Low Noise Amplifier (LNA) that uses a three-stage common source inductive degeneration topology with a gain of 27 dB and noise figure of 1.78 dB using 0.1 µm GaAs pHEMT as an active device. The novelty of the design is the usage of inductive load in series with the resistor instead of resistive load, resulting in higher gain performance. A recent pp1010 active device of WIN foundry was explored for this LNA design at the Q band. The high transition frequency offered by … Show more

“…This is being considered as an alternative to optical fibers for next-generation broadband sources. Specifically, #F 2 fiber with broad SCG may be used for MIR spectroscopy [49] while the high coherence ANDi SCG in #F 1 has the potential to be used for low-noise, high-gain transimpedance amplifier in the NIR range [50,51].…”

Circular lattice benzene-core PCFs with flat near-zero dispersion for low-power broad-spectrum supercontinuum generation

“…This is being considered as an alternative to optical fibers for next-generation broadband sources. Specifically, #F 2 fiber with broad SCG may be used for MIR spectroscopy [49] while the high coherence ANDi SCG in #F 1 has the potential to be used for low-noise, high-gain transimpedance amplifier in the NIR range [50,51].…”

Circular lattice benzene-core PCFs with flat near-zero dispersion for low-power broad-spectrum supercontinuum generation