Physics-based simulation techniques for small- and large-signal device noise analysis in RF applications

Bonani F.; Guerrieri S.D.; Ghione G.

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Physics-based simulation techniques for small- and large-signal device noise analysis in RF applications

机译：用于射频应用中小信号和大信号设备噪声分析的基于物理的仿真技术

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摘要

The paper presents a review on physics-based noise simulation techniques for RF semiconductor devices, starting with the small-signal case but with greater stress on noise in large-signal (quasi)-periodic operation. The nonautonomous (forced) operation case will be considered, which is relevant to all RF applications apart from oscillators. Besides their importance in device design, physics-based noise models can also suggest viable and correct strategies to implement circuit-oriented models, e.g., compact models. From this standpoint, the connection between physics-based and circuit-oriented modeling is discussed both in the small-signal and in the large-signal case, with particular stress on the treatment of colored noise in the large-signal periodic regime.

机译：本文介绍了针对射频半导体器件的基于物理的噪声仿真技术，该技术从小信号情况开始，但在大信号（准）周期操作中对噪声的压力更大。将考虑非自主（强制）操作情况，这与除振荡器以外的所有RF应用有关。除了在设备设计中的重要性外，基于物理学的噪声模型还可以建议可行且正确的策略，以实现面向电路的模型，例如紧凑模型。从这个角度出发，在小信号和大信号情况下都讨论了基于物理的建模和面向电路的建模之间的联系，特别强调了在大信号周期状态下对彩色噪声的处理。

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来源
《IEEE Transactions on Electron Devices》 |2003年第3期|p.633-644|共12页
作者
Bonani F.; Guerrieri S.D.; Ghione G.;
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作者单位

Dipt. di Elettronica, Politecnico di Torino, Italy;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
equivalent circuits; semiconductor device models; UHF devices; simulation; semiconductor device noise; physics-based noise simulation techniques; review; RF semiconductor devices; small-signal device noise analysis; nonautonomous operation; forced op;

机译：等效电路半导体器件模型;UHF设备;模拟;半导体器件噪声;基于物理的噪声模拟技术;评论;射频半导体器件;小信号设备噪声分析;非自主运行;强制操作;

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Physics-based simulation techniques for small- and large-signal device noise analysis in RF applications

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