A Low-Power Microwave HEMT [Formula Omitted] Oscillator Operating Down to 1.4 K

High-electron-mobility transistors (HEMTs) based on 2-D electron gases (2DEGs) in III–V heterostructures have superior mobility compared with the transistors of silicon-based complementary metal–oxide–semiconductor technologies. The large mobility makes them attractive not only for low-noise and hig...

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Veröffentlicht in:	IEEE transactions on microwave theory and techniques 2019-01, Vol.67 (7), p.2782
Hauptverfasser:	Matheoud, Alessandro V, Nergiz Sahin Solmaz, Boero, Giovanni
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Sprache:	eng
Schlagworte:	Cryogenic temperature Frequency ranges Heterostructures High electron mobility transistors Parameter estimation Power consumption Semiconductor devices Topology Transistors
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creator	Matheoud, Alessandro V Nergiz Sahin Solmaz Boero, Giovanni
description	High-electron-mobility transistors (HEMTs) based on 2-D electron gases (2DEGs) in III–V heterostructures have superior mobility compared with the transistors of silicon-based complementary metal–oxide–semiconductor technologies. The large mobility makes them attractive not only for low-noise and high-power microwave applications but also for low-power applications down to deep cryogenic temperatures. Here, we report on the design and characterization of a low-power HEMT LC Colpitts oscillator operating at 11 GHz whose minimum power consumption is [Formula Omitted] at 300 K and [Formula Omitted] at 1.4 K. The fully integrated oscillator is based on a single HEMT transistor having a gate length of 70 nm and realized using a 2DEG in In0.7Ga0.3As. The power consumption of the realized oscillator is the lowest reported in the literature so far for an LC oscillator operating in the same frequency range. In order to investigate the behavior of the oscillator, we also performed a detailed characterization of a stand-alone HEMT transistor from 1.4 to 300 K with a static magnetic field from 0 to 8 T. From the extracted values of the transistor parameters, we estimate and compare the minimum power necessary to start-up oscillations for two different Colpitts topologies.
doi_str_mv	10.1109/TMTT.2019.2916552
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The large mobility makes them attractive not only for low-noise and high-power microwave applications but also for low-power applications down to deep cryogenic temperatures. Here, we report on the design and characterization of a low-power HEMT LC Colpitts oscillator operating at 11 GHz whose minimum power consumption is [Formula Omitted] at 300 K and [Formula Omitted] at 1.4 K. The fully integrated oscillator is based on a single HEMT transistor having a gate length of 70 nm and realized using a 2DEG in In0.7Ga0.3As. The power consumption of the realized oscillator is the lowest reported in the literature so far for an LC oscillator operating in the same frequency range. In order to investigate the behavior of the oscillator, we also performed a detailed characterization of a stand-alone HEMT transistor from 1.4 to 300 K with a static magnetic field from 0 to 8 T. 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The large mobility makes them attractive not only for low-noise and high-power microwave applications but also for low-power applications down to deep cryogenic temperatures. Here, we report on the design and characterization of a low-power HEMT LC Colpitts oscillator operating at 11 GHz whose minimum power consumption is [Formula Omitted] at 300 K and [Formula Omitted] at 1.4 K. The fully integrated oscillator is based on a single HEMT transistor having a gate length of 70 nm and realized using a 2DEG in In0.7Ga0.3As. The power consumption of the realized oscillator is the lowest reported in the literature so far for an LC oscillator operating in the same frequency range. In order to investigate the behavior of the oscillator, we also performed a detailed characterization of a stand-alone HEMT transistor from 1.4 to 300 K with a static magnetic field from 0 to 8 T. 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subjects	Cryogenic temperature Frequency ranges Heterostructures High electron mobility transistors Parameter estimation Power consumption Semiconductor devices Topology Transistors
title	A Low-Power Microwave HEMT [Formula Omitted] Oscillator Operating Down to 1.4 K
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