Noise in Semiconductor Devices

1. Front Matter

   Pages I-XXXI

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2. Noise in Semiconductor Devices

   • Fabrizio Bonani, Giovanni Ghione

   Pages 1-38

3. Noise Analysis Techniques

   • Fabrizio Bonani, Giovanni Ghione

   Pages 39-76

4. Physics-Based Small-Signal Noise Simulation

   • Fabrizio Bonani, Giovanni Ghione

   Pages 77-100

5. Results and Case Studies

   • Fabrizio Bonani, Giovanni Ghione

   Pages 101-141

6. Noise in Large-Signal Operation

   • Fabrizio Bonani, Giovanni Ghione

   Pages 143-175

7. Back Matter

   Pages 177-213

   PDF

The design and optimization of electronic systems often requires appraisal an of the electrical noise generated by active devices, and, at a technological level, the ability to properly design active elements in order to minimize, when possible, their noise. Examples of critical applications are, of course, receiver front-ends in RF and optoelectronic transmission systems, but also front-end stages in sensors and, in a completely different context, nonlinear circuits such as oscillators, mixers, and frequency multipliers. The rapid de­ velopment of silicon RF applications has recently fostered the interest toward low-noise silicon devices for the lower microwave band, such as low-noise MOS transistors; at the same time, the RF and microwave ranges are be­ coming increasingly important in fast optical communication systems. Thus, high-frequency noise modeling and simulation of both silicon and compound­ semiconductor based bipolar and field-effect transistors can be considered as an important and timely topic. This does not exclude, of course, low­ frequency noise, which is relevant also in the RF and microwave ranges when­ ever it is up-converted within a nonlinear system, either autonomous (as an oscillator) or non-autonomous (as a mixer or frequency multiplier). The aim of the present book is to provide a thorough introduction to the physics-based numerical modeling of semiconductor devices operating both in small-signal and in large-signal conditions. In the latter instance, only the non-autonomous case was considered, and thus the present treatment does not directly extend to oscillators.

• Semiconductor
• device numerical simultation
• integrated circuit
• noise in linear circuits
• noise in nonlinear circuits
• noise in semiconductors
• semiconductor devices

From the reviews of the first edition:

"This book is devoted to the research and estimation of the electrical noise generated by active semiconductor devices. It provides a thorough introduction to the physics-based numerical modeling of these devices operating both in small-signal and in large-signal conditions. … this comprehensive treatment of the numerical simulation of noise in semiconductor devices successfully combines a modern physical understanding with rigorous mathematics and numerical methods. This book should be recommended to scientists and engineers of corresponding specialties … ." (I. A. Parinov, Zentralblatt MATH, Vol. 1044 (19), 2004)

"Bonani and Ghione have written an excellent source book for research engineers and scientists interested in the modelling of noise in semiconductor devices. … Compact noise models are derived from analytic models and numerical methods are presented to solve for the complex and realistic models. ... There is a useful and reasonably comprehensive bibliography. I strongly recommend this book to specialists in the area." (B. D. Nener, The Physicist, Vol. 39 (2), 2002)

• Dipartimento di Elettronica, Politecnico di Torino, Torino, Italy

  Fabrizio Bonani, Giovanni Ghione

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