Sammanfattning
Lateral III-V nanowire (NW) MOSFETs are a promising candidate for high-frequency electronics. However, their circuit performance is not yet assessed. Here, we integrate lateral nanowires (LNWs) in a circuit environment and characterize the transistors and amplifiers. MOSFETs are fabricated in a simple scheme with a dc transconductance of up to 1.3 mS/μm, ON-resistance down to 265 Ω · μ m, and cutoff frequencies up to 250 GHz, measured on the circuit level. The circuit model estimates 25% device parasitic capacitance increase due to back-end-of-line (BEOL) dielectric cladding. A low-noise amplifier input stage is designed with optimum network design for a noise matched input and an inductive peaking output. The input stage shows up to 4-dB gain and 2.5-dB noise figure (NF), at 60 GHz. Utilizing gate-length scaling in the circuit environment, the obtained normalized intrinsic gate capacitance value of 0.34-aF/nm gate length, per NW, corresponds well to the predicted theoretical value, demonstrating the circuit's ability to provide intrinsic device parameters. This is the first mm-wave validation of noise models for III-V LNW MOSFETs. The results demonstrate the potential for utilization of the technology platform for low-noise applications.
Originalspråk | engelska |
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Sidor (från-till) | 1284-1291 |
Tidskrift | IEEE Transactions on Microwave Theory and Techniques |
Volym | 70 |
Nummer | 2 |
Tidigt onlinedatum | 2021 |
DOI | |
Status | Published - 2022 |
Bibliografisk information
Publisher Copyright:IEEE
Ämnesklassifikation (UKÄ)
- Annan elektroteknik och elektronik