A GaN‐on‐SiC Millimeter‐Wave Low Noise Amplifier Using Hybrid‐Matching Technique for 5G n258 Applications

A GaN‐on‐SiC Millimeter‐Wave Low Noise Amplifier Using Hybrid‐Matching Technique for 5G n258 Applications

ABSTRACT This letter details the design and implementation of a millimeter‐wave (mm‐Wave) low noise amplifier (LNA) employing 150‐nm gallium nitride on silicon carbide (GaN‐on‐SiC) high electron mobility transistor technology, specifically tailored for fifth‐generation (5G) applications. The propose...

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Veröffentlicht in:Microwave and optical technology letters 2024-11, Vol.66 (11), p.n/a
Hauptverfasser: Lan, Liang, Zhang, Zhihao, Huang, Chaoyu, Zhang, Gary
Format: Artikel
Sprache:eng
Schlagworte:
Amplifiers
Co-design
Design optimization
gallium nitride on silicon carbide
Gallium nitrides
high electron mobility transistor
High electron mobility transistors
hybrid matching technique
Low noise
low noise amplifier
Matching
millimeter‐wave
Semiconductor devices
Silicon carbide
Topology
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Zusammenfassung:ABSTRACT This letter details the design and implementation of a millimeter‐wave (mm‐Wave) low noise amplifier (LNA) employing 150‐nm gallium nitride on silicon carbide (GaN‐on‐SiC) high electron mobility transistor technology, specifically tailored for fifth‐generation (5G) applications. The proposed GaN‐based LNA integrates a hybrid matching topology alongside a co‐design strategy, thereby optimizing the noise figure (NF) by minimizing interstage matching components. The fabricated LNA, spanning a total chip area of 2.3 × 1.4 mm², exhibits a linear gain in the range of 17.41–19.2 dB and maintains an NF within 2.32–3.06 dB. Additionally, commendable input/output return losses exceeding 7.5 dB are achieved across the 23–27.5 GHz, with the apparatus consuming approximately 150 mW.
ISSN:0895-2477
1098-2760
DOI:10.1002/mop.70031