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The physics behind electronics

Ricci, Leonardo.

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The physics behind electronics

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	The physics behind electronics/ by Leonardo Ricci, Alessio Perinelli, Marco Prevedelli.
作者:	Ricci, Leonardo.
其他作者:	Perinelli, Alessio.
出版者:	Cham :Springer Nature Switzerland : : 2024.,
面頁冊數:	xiii, 414 p. :ill. (some col.), digital ;24 cm.
內容註:	LTI systems -- In the math-lab - Laplace transform -- Feedback theory -- In the lab - Discovering operational amplifiers -- Feedback theory made real -- In the lab - Using operational amplifiers -- Oscillators -- In the lab - Oscillators -- Nyquist-Shannon sampling theorem -- In the lab - Nyquist-Shannon sampling theorem -- Digital electronics -- In the lab - Digital electronics -- Analog-to-Digital and Digital-to-Analog Conversion -- In the lab - Digital-to-Analog and Analog-to-Digital conversion -- From transmission lines to wave propagation -- In the lab - Transmission lines -- Noise -- In the lab - Noise.
Contained By:	Springer Nature eBook
標題:	Electronics. -
電子資源:	https://doi.org/10.1007/978-3-031-55460-5
ISBN:	9783031554605

The physics behind electronics
Ricci, Leonardo.

The physics behind electronics[electronic resource] /by Leonardo Ricci, Alessio Perinelli, Marco Prevedelli. - Cham :Springer Nature Switzerland :2024. - xiii, 414 p. :ill. (some col.), digital ;24 cm. - UNITEXT for physics,2198-7890. - UNITEXT for physics..

LTI systems -- In the math-lab - Laplace transform -- Feedback theory -- In the lab - Discovering operational amplifiers -- Feedback theory made real -- In the lab - Using operational amplifiers -- Oscillators -- In the lab - Oscillators -- Nyquist-Shannon sampling theorem -- In the lab - Nyquist-Shannon sampling theorem -- Digital electronics -- In the lab - Digital electronics -- Analog-to-Digital and Digital-to-Analog Conversion -- In the lab - Digital-to-Analog and Analog-to-Digital conversion -- From transmission lines to wave propagation -- In the lab - Transmission lines -- Noise -- In the lab - Noise.

This book is not simply about electronics but rather a thorough exploration of physics. Instead of isolating electronics as an art, its primary goal is to explain the physical principles behind electronic circuits and how they are applied practically. Electronics provides a framework for understanding physics, and vice versa. It is intended for advanced undergraduate or graduate students in physics or related fields who have a basic grasp of electromagnetism and calculus. It also caters to individuals with practical electronics knowledge looking to deepen their understanding of often overlooked concepts. While traditional textbooks treat electronics as a set of techniques, the growing availability of affordable acquisition boards and user-friendly software has diminished the need for expertise in circuit design. Nonetheless, physicists still need to comprehend concepts like stability, impedance matching, noise, and the advantages and limitations of signal sampling. Starting with linear time-invariant systems and feedback, the book progresses to designing circuits using operational amplifiers and oscillators, covering stability and dissipation. It also delves into the Nyquist-Shannon theorem and the basics of digital electronics, emphasizing state-sensitive and clock-sensitive operators. Additionally, it offers an overview of electronic devices facilitating analog-to-digital conversion. The book concludes by examining scenarios involving high frequencies where wires act as waveguides and addressing noise sources from thermal agitation and the corpuscular nature of current. Theoretical concepts are reinforced with solved exercises, and practical "in-the-lab" sections guide readers through experiments using affordable kits and instruments, requiring minimal electronic prototyping knowledge.

ISBN: 9783031554605

Standard No.: 10.1007/978-3-031-55460-5doiSubjects--Topical Terms:

517156
Electronics.

LC Class. No.: TK7835

Dewey Class. No.: 621.381

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520 $a This book is not simply about electronics but rather a thorough exploration of physics. Instead of isolating electronics as an art, its primary goal is to explain the physical principles behind electronic circuits and how they are applied practically. Electronics provides a framework for understanding physics, and vice versa. It is intended for advanced undergraduate or graduate students in physics or related fields who have a basic grasp of electromagnetism and calculus. It also caters to individuals with practical electronics knowledge looking to deepen their understanding of often overlooked concepts. While traditional textbooks treat electronics as a set of techniques, the growing availability of affordable acquisition boards and user-friendly software has diminished the need for expertise in circuit design. Nonetheless, physicists still need to comprehend concepts like stability, impedance matching, noise, and the advantages and limitations of signal sampling. Starting with linear time-invariant systems and feedback, the book progresses to designing circuits using operational amplifiers and oscillators, covering stability and dissipation. It also delves into the Nyquist-Shannon theorem and the basics of digital electronics, emphasizing state-sensitive and clock-sensitive operators. Additionally, it offers an overview of electronic devices facilitating analog-to-digital conversion. The book concludes by examining scenarios involving high frequencies where wires act as waveguides and addressing noise sources from thermal agitation and the corpuscular nature of current. Theoretical concepts are reinforced with solved exercises, and practical "in-the-lab" sections guide readers through experiments using affordable kits and instruments, requiring minimal electronic prototyping knowledge.
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