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This book describes the role of magnetism in electrical engineering, starting from the most basic laws of physics, converted into simulation models such that electrical engineering students can learn by example and practice. The author demystifies a topic that many electrical engineers take for granted, providing readers the tools to be able to understand how any magnetic component works. He describes magnetic components like inductors and transformers in simple understandable language. Mathematical equations related to the basic laws of physics are described in detail along with the physical significance of the equations. Every application is supported by a simulation. All simulations are performed using free and open source software based on Python making the material in this book universally accessible. 

This book provides readers with an introduction to the materials and devices necessary for flexible sensors and electronics, followed by common techniques for fabrication of such devices and system-level integration. Key insights into fabrication and processing will guide readers through the tradeoff choices in designing such platforms. A comprehensive review of two specific, flexible bioelectronic platforms, related to smart bandages for wound monitoring and thread-based diagnostics for wearable health, will demonstrate practical application at the system level.  The book also provides a unique electrical engineering perspective by reviewing circuit architectures for low noise signal conditioning of weak signals from sensors,, and for low power analog to digital converters for signal acquisition. To achieve energy autonomy, authors provide several example of CMOS energy harvesting front end circuits and voltage boosters. Beyond circuit architectures, the book also provides a review of the modern theory of sampling and recovery of sparse signals, also known as compressed sensing. They then highlight how these principles can be leveraged for design and implementation of efficient signal acquisition hardware and reliable processing of acquired data for flexible electronic platforms.

SoC Physical Design is a comprehensive practical guide for VLSI designers that thoroughly examines and explains the practical physical design flow of system on chip (SoC). The book covers the rationale behind making design decisions on power, performance, and area (PPA) goals for SoC and explains the required design environment algorithms, design flows, constraints, handoff procedures, and design infrastructure requirements in achieving them. The book reveals challenges likely to be faced at each design process and ways to address them in practical design environments. Advanced topics on 3D ICs, EDA trends, and SOC trends are discussed in later chapters. Coverage also includes advanced physical design techniques followed for deep submicron SOC designs. The book provides aspiring VLSI designers, practicing design engineers, and electrical engineering students with a solid background on the complex physical design requirements of SoCs which are required to contribute effectively in design roles.

This book explains and focuses on analysis of electric circuits using an up-to-date software package. The book is filled with examples that students will see throughout a standard electric circuit course. This book is a good source to accompany and complete theoretical work of professors. The author provides a single-source for anyone who needs to analyse an electric circuit.

This book constitutes the proceedings of the 43rd International Conference on Application and Theory of Petri Nets and Concurrency, PETRI NETS 2022, which was held virtually in June 2021.The 19 full papers presented in this volume were carefully reviewed and selected from 35 submissions. The papers are categorized into the following topical sub-headings: application of concurrency to system design; timed models; tools; applications; synthesis; petri nets architecture; and process mining.

Build more than 55 hands-on, wide-ranging projects with the popular and versatile AVR family of microcontrollers.AVR Workshop is a comprehensive introduction to working with the Microchip AVR 8-bit family of microcontrollers - made famous through their use in Arduino and other compatible boards. Whether you're an absolute beginner or longtime electronics enthusiast, this book gives you the latest coding and hardware knowledge required to build over 55 projects. After the author guides you through the basic C programming skills you need to work directly with ATmega328P-PU and ATtiny85 microcontrollers, your operation will be up and running. You'll go from building blinking LEDs and handling various types of user input, to creating real-time clocks, digital thermometers, and even controlling small motorized devices.

This book describes recent findings in the domain of Boolean logic and Boolean algebra, covering application domains in circuit and system design, but also basic research in mathematics and theoretical computer science. Content includes invited chapters and a selection of the best papers presented at the 14th annual International Workshop on Boolean Problems.