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Your step-by-step guide to designing and programming electronics KEY FEATURES ● Create interactive and responsive electronic systems by constructing sensor-based Arduino projects. ● Learn how to apply and simulate Analog devices in diverse electronic applications. ● Design custom circuit boards using TI tools through PCB learning. DESCRIPTION Simulation plays a vital role in the design of electronics-based projects, as it effectively saves time and money for users by eliminating the need for hardware trial and error. If you want to understand the significance of simulation as an indispensable tool for efficiently iterating, analyzing, and optimizing your electronic projects, this book is a valuable resource. This book introduces you to the essential tools commonly used by professional electronic project designers. Through this guide, you will gain the ability to select various components suitable for your projects and simulate them without fear of causing any damage. Additionally, the book provides instruction on using diverse simulation tools, enabling you to undertake a wide range of projects—such as building power supplies, designing PCBs, and integrating sensors with microprocessors/microcontrollers. By gaining familiarity with design and simulation tools throughout the project development process, this book aims to empower project builders, transforming them into self-assured and capable designers. WHAT YOU WILL LEARN ● Streamline the design process in electronics using the Webench (TI) tool. ● Design power supplies using the TI Webench for efficient and reliable electronic devices. ● Achieve precise and effective filtering in electronic circuits using the TI Filter Designer. ● Master Filter Design techniques for signal processing and noise reduction. ● Gain comprehensive circuit analysis skills by exploring the TI analog simulation tool and understanding basic circuits. WHO THIS BOOK IS FOR This book targets students, electronics and computer graduates, robotics hobbyists, and individuals interested in creating their own electronic gadgets. It serves as a guide for beginners by introducing basic electronic concepts and the functioning of commonly used components. For expert users, it acts as a refresher, ensuring a comprehensive understanding of electronics. TABLE OF CONTENTS 1. Introduction to the World of Electronics—1—Passive Elements 2. Introduction to the World of Electronics—2—Active Elements 3. Basic Arduino Projects Using Tinkercad 4. Sensor-based Arduino Projects 5. Getting Started with WEBENCH Tool by TI 6. Power Supply Design with TI WEBENCH 7. TI Filter Designer 8. Filter Design 9. TI Analog Devices Simulation and Basic Circuits 10. Analog Device Simulation and Applications 11. PCB Designing TI Tool 12. PCB Thermal Calculation
This description of the structure of simulators suitable for use in the design of digital electronic systems includes the compiled code and event driven algorithms for digital electronic system simulators, together with timing verification as well as structural limitations and problems.
The first of two volumes in the Electronic Design Automation for Integrated Circuits Handbook, Second Edition, Electronic Design Automation for IC System Design, Verification, and Testing thoroughly examines system-level design, microarchitectural design, logic verification, and testing. Chapters contributed by leading experts authoritatively discuss processor modeling and design tools, using performance metrics to select microprocessor cores for integrated circuit (IC) designs, design and verification languages, digital simulation, hardware acceleration and emulation, and much more. New to This Edition: Major updates appearing in the initial phases of the design flow, where the level of abstraction keeps rising to support more functionality with lower non-recurring engineering (NRE) costs Significant revisions reflected in the final phases of the design flow, where the complexity due to smaller and smaller geometries is compounded by the slow progress of shorter wavelength lithography New coverage of cutting-edge applications and approaches realized in the decade since publication of the previous edition—these are illustrated by new chapters on high-level synthesis, system-on-chip (SoC) block-based design, and back-annotating system-level models Offering improved depth and modernity, Electronic Design Automation for IC System Design, Verification, and Testing provides a valuable, state-of-the-art reference for electronic design automation (EDA) students, researchers, and professionals.
"Simulation-based Labs for Circuit Analysis" brings you an unparalleled learning experience, integrating cutting-edge simulation tools, Multisim Live and Tinkercad, to explore the realm of circuits. Circuit analysis is the cornerstone of electrical and electronic engineering, and with the advent of advanced simulation software, learning has taken a transformative turn. Delve into a virtual laboratory environment that replicates real-world circuit experiments with precision and flexibility, allowing you to grasp complex concepts effortlessly. Recreate experiments multiple times, gaining deeper insights into circuit characteristics and behavior across various scenarios. Aspiring engineers and technicians, circuit enthusiasts, and educators will find "Simulation-based Labs for Circuit Analysis" an indispensable resource for unlocking the boundless possibilities of circuit analysis in the digital age. Whether you are a student seeking to excel in your studies or a professional looking to refine your engineering skills, this book will empower you to innovate, explore, and experiment without limits.
This Book On A Very Topical Subject Is Aimed At Engineers Who Either Use Or Develop Cad Tools For Circuit Design, Be It At The Discrete Device Level Or At The Lsi/Vlsi Level. The Book Is Unique In The Sense That It Covers Analog Circuit Simulation, Device Models, Logic Simulation And Fault Simulation. These Topics Traditionally Belong To Different Areas Of Electrical Engineering And Are Therefore Not Covered In One Book. However, A Person Doing Circuit Design On A Computer Today Needs To Know All Aspects Of The Simulation. This Book Attempts To Satisfy This Need. Many Examples Of Programs As Well As Applications Are Given. Every Chapter Contains Solved As Well As Unsolved Problems. In Addition, Programming Assignments Are Included. Mathematics Has Been Kept To A Minimum And An Intuitive Approach Has Been Taken.The Background Required Is That Of Final Year Undergraduate In Electrical Engineering. It Is Expected That Much Of This Material Would Percolate Down To More Basic Courses In Future Years.
The Electronic Design Automation Handbook carefully details design tools and techniques for high performance ASIC-design. It shows the best practices for creating reusable designs in an SoC design methodology. The Electronic Design Automation Handbook was developed by colleagues from the Universities of Applied Sciences, Germany, who are engaged in the design of integrated electronics in education and research and which form the MPC Group of the Universities of Applied Sciences of Baden-Württemberg /Germany. MPC works as network of partners to industry and is able, due to the wide varying experiences of the institutes involved, to cover the entire range of the modern day circuit design. Each year more than 600 students are educated in the laboratories of MPC-members. Our personal experience from student and industry-projects ensures authenticity. The practical and theoretical experience from our projects has been used in the basis of this handbook.
Electronic design automation (EDA) is among the crown jewels of electrical engineering. Without EDA tools, today's complex integrated circuits (ICs) would be impossible. Doesn't such an important field deserve a comprehensive, in-depth, and authoritative reference? The Electronic Design Automation for Integrated Circuits Handbook is that reference, ranging from system design through physical implementation. Organized for convenient access, this handbook is available as a set of two carefully focused books dedicated to the front- and back-end aspects of EDA, respectively. What's included in the Handbook? EDA for IC System Design, Verification, and Testing This first installment examines logical design, focusing on system-level and micro-architectural design, verification, and testing. It begins with a general overview followed by application-specific tools and methods, specification and modeling languages, high-level synthesis approaches, power estimation methods, simulation techniques, and testing procedures. EDA for IC Implementation, Circuit Design, and Process Technology Devoted to physical design, this second book analyzes the classical RTL to GDS II design flow, analog and mixed-signal design, physical verification, analysis and extraction, and technology computer aided design (TCAD). It explores power analysis and optimization, equivalence checking, placement and routing, design closure, design for manufacturability, process simulation, and device modeling. Comprising the work of expert contributors guided by leaders in the field, the Electronic Design Automation for Integrated Circuits Handbook provides a foundation of knowledge based on fundamental concepts and current industrial applications. It is an ideal resource for designers and users of EDA tools as well as a detailed introduction for newcomers to the field.
Presents applied theory and advanced simulation techniques for electric machines and drives This book combines the knowledge of experts from both academia and the software industry to present theories of multiphysics simulation by design for electrical machines, power electronics, and drives. The comprehensive design approach described within supports new applications required by technologies sustaining high drive efficiency. The highlighted framework considers the electric machine at the heart of the entire electric drive. The book also emphasizes the simulation by design concept—a concept that frames the entire highlighted design methodology, which is described and illustrated by various advanced simulation technologies. Multiphysics Simulation by Design for Electrical Machines, Power Electronics and Drives begins with the basics of electrical machine design and manufacturing tolerances. It also discusses fundamental aspects of the state of the art design process and includes examples from industrial practice. It explains FEM-based analysis techniques for electrical machine design—providing details on how it can be employed in ANSYS Maxwell software. In addition, the book covers advanced magnetic material modeling capabilities employed in numerical computation; thermal analysis; automated optimization for electric machines; and power electronics and drive systems. This valuable resource: Delivers the multi-physics know-how based on practical electric machine design methodologies Provides an extensive overview of electric machine design optimization and its integration with power electronics and drives Incorporates case studies from industrial practice and research and development projects Multiphysics Simulation by Design for Electrical Machines, Power Electronics and Drives is an incredibly helpful book for design engineers, application and system engineers, and technical professionals. It will also benefit graduate engineering students with a strong interest in electric machines and drives.
Simulation based on mathematical models plays a major role in computer aided design of integrated circuits (ICs). Decreasing structure sizes, increasing packing densities and driving frequencies require the use of refined mathematical models, and to take into account secondary, parasitic effects. This leads to very high dimensional problems which nowadays require simulation times too large for the short time-to-market demands in industry. Modern Model Order Reduction (MOR) techniques present a way out of this dilemma in providing surrogate models which keep the main characteristics of the device while requiring a significantly lower simulation time than the full model. With Model Reduction for Circuit Simulation we survey the state of the art in the challenging research field of MOR for ICs, and also address its future research directions. Special emphasis is taken on aspects stemming from miniturisations to the nano scale. Contributions cover complexity reduction using e.g., balanced truncation, Krylov-techniques or POD approaches. For semiconductor applications a focus is on generalising current techniques to differential-algebraic equations, on including design parameters, on preserving stability, and on including nonlinearity by means of piecewise linearisations along solution trajectories (TPWL) and interpolation techniques for nonlinear parts. Furthermore the influence of interconnects and power grids on the physical properties of the device is considered, and also top-down system design approaches in which detailed block descriptions are combined with behavioral models. Further topics consider MOR and the combination of approaches from optimisation and statistics, and the inclusion of PDE models with emphasis on MOR for the resulting partial differential algebraic systems. The methods which currently are being developed have also relevance in other application areas such as mechanical multibody systems, and systems arising in chemistry and to biology. The current number of books in the area of MOR for ICs is very limited, so that this volume helps to fill a gap in providing the state of the art material, and to stimulate further research in this area of MOR. Model Reduction for Circuit Simulation also reflects and documents the vivid interaction between three active research projects in this area, namely the EU-Marie Curie Action ToK project O-MOORE-NICE (members in Belgium, The Netherlands and Germany), the EU-Marie Curie Action RTN-project COMSON (members in The Netherlands, Italy, Germany, and Romania), and the German federal project System reduction in nano-electronics (SyreNe).
This book is a useful reference for practicing electrical engineers as well as a textbook for a junior/senior or graduate level course in electrical engineering. The authors combine two subjects: device modeling and circuit simulation - by providing a large number of well-prepared examples of circuit simulations immediately following the description of many device models.