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Linear Circuit Analysis provides concise and practical treatment of the basics of circuits suitable for undergraduates. Whilst mathematical rigour is not sacrificed, the book is written in an easily-readable style and also covers many topics from a practical, non-mathematical perspective. For those lecturers that wish to explore other teaching methods, the later chapters offer an introduction to the topological method of analysis. The text is ideal for a first course in circuits as the text starts by recapping basics such as Ohm's law before covering the nodal/mesh approach to circuit analysis. As such it equips students with effective analytical skills which will form a solid basis for the rest of their electronic engineering course.
Luis Moura and Izzat Darwazeh introduce linear circuit modelling and analysis applied to both electrical and electronic circuits, starting with DC and progressing up to RF, considering noise analysis along the way. Avoiding the tendency of current textbooks to focus either on the basic electrical circuit analysis theory (DC and low frequency AC frequency range), on RF circuit analysis theory, or on noise analysis, the authors combine these subjects into the one volume to provide a comprehensive set of the main techniques for the analysis of electric circuits in these areas. Taking the subject from a modelling angle, this text brings together the most common and traditional circuit analysis techniques (e.g. phasor analysis) with system and signal theory (e.g. the concept of system and transfer function), so students can apply the theory for analysis, as well as modelling of noise, in a broad range of electronic circuits. A highly student-focused text, each chapter contains exercises, worked examples and end of chapter problems, with an additional glossary and bibliography for reference. A balance between concepts and applications is maintained throughout. Luis Moura is a Lecturer in Electronics at the University of Algarve. Izzat Darwazeh is Senior Lecturer in Telecommunications at University College, London, previously at UMIST. - An innovative approach fully integrates the topics of electrical and RF circuits, and noise analysis, with circuit modelling - Highly student-focused, the text includes exercises and worked examples throughout, along with end of chapter problems to put theory into practice
Now revised with a stronger emphasis on applications and more problems, this new Fourth Edition gives readers the opportunity to analyze, design, and evaluate linear circuits right from the start. The book's abundance of design examples, problems, and applications, promote creative skills and show how to choose the best design from several competing solutions. * Laplace first. The text's early introduction to Laplace transforms saves time spent on transitional circuit analysis techniques that will be superseded later on. Laplace transforms are used to explain all of the important dynamic circuit concepts, such as zero state and zero-input responses, impulse and step responses, convolution, frequency response, and Bode plots, and analog filter design. This approach provides students with a solid foundation for follow-up courses.
A "student-friendly" introduction to the basics of electric circuit analysis, this sophomore-level text covers traditional material, as well as such modern topics as op-amps and the use of digital computers for circuit analysis. The presentation is very lucid and thorough with clearer and more complete explanations of Kirchoff's laws, and nodal analysis than in comparable texts. Bobrow also places greater emphasis on signals and waveforms. This text features evaluation of initial conditions, phasor diagrams, and coverage of SPICE.
Linear Circuit Transfer Functions: An introduction to Fast Analytical Techniques teaches readers how to determine transfer functions of linear passive and active circuits by applying Fast Analytical Circuits Techniques. Building on their existing knowledge of classical loop/nodal analysis, the book improves and expands their skills to unveil transfer functions in a swift and efficient manner. Starting with simple examples, the author explains step-by-step how expressing circuits time constants in different configurations leads to writing transfer functions in a compact and insightful way. By learning how to organize numerators and denominators in the fastest possible way, readers will speed-up analysis and predict the frequency response of simple to complex circuits. In some cases, they will be able to derive the final expression by inspection, without writing a line of algebra. Key features: Emphasizes analysis through employing time constant-based methods discussed in other text books but not widely used or explained. Develops current techniques on transfer functions, to fast analytical techniques leading to low-entropy transfer functions immediately exploitable for analysis purposes. Covers calculation techniques pertinent to different fields, electrical, electronics, signal processing etc. Describes how a technique is applied and demonstrates this through real design examples. All Mathcad® files used in examples and problems are freely available for download. An ideal reference for electronics or electrical engineering professionals as well as BSEE and MSEE students, this book will help teach them how to: become skilled in the art of determining transfer function by using less algebra and obtaining results in a more effectual way; gain insight into a circuit’s operation by understanding how time constants rule dynamic responses; apply Fast Analytical Techniques to simple and complicated circuits, passive or active and be more efficient at solving problems.
Circuits overloaded from electric circuit analysis? Many universities require that students pursuing a degree in electrical or computer engineering take an Electric Circuit Analysis course to determine who will "make the cut" and continue in the degree program. Circuit Analysis For Dummies will help these students to better understand electric circuit analysis by presenting the information in an effective and straightforward manner. Circuit Analysis For Dummies gives you clear-cut information about the topics covered in an electric circuit analysis courses to help further your understanding of the subject. By covering topics such as resistive circuits, Kirchhoff's laws, equivalent sub-circuits, and energy storage, this book distinguishes itself as the perfect aid for any student taking a circuit analysis course. Tracks to a typical electric circuit analysis course Serves as an excellent supplement to your circuit analysis text Helps you score high on exam day Whether you're pursuing a degree in electrical or computer engineering or are simply interested in circuit analysis, you can enhance you knowledge of the subject with Circuit Analysis For Dummies.
This comprehensive textbook covers all subjects on linear circuit theory, with the emphasis on learning the subject without an excessive amount of information. This unique approach stresses knowledge rather than computer use to start and differs from other books by introducing matrix algebra early in the book. The book's 290 problems are meant to b
Learn Linear Circuits by Actually Designing Them! With more examples, problems, applications, and tools, the Third Edition of Thomas and Rosa's The Analysis and Design of Linear Circuits presents an effective learn-by-doing approach to linear circuits. The authors not only discuss Laplace transforms, new passive and active elements, time-varying circuits, and fundamental analysis and design concepts, they also provide valuable skill-building exercises and tools. Here's how Thomas and Rosa's learn-by-doing approach works: * Apply concepts to practical problems. Throughout the text, the authors maintain a steady focus circuit design and include a greatly revised set of design examples, exercises, and homework problems. * Master the most modern software tools. The new edition now covers five of today's most widely used programs: Excel (r), Matlab(r), Electronics Workbench(r), and PSpice(r). * Explore real-world applications. The Third Edition now features many new real-world applications that are especially relevant to computer engineering, instrumentation, electronics, and signals. * Build circuits you can use. The text's early coverage of the Ideal Op-Amp will help readers design practical interface circuits, instrumentation systems, and cascade filters. * Evaluate competing designs. Thomas and Rosa show how to evaluate and select the best design from several correct approaches. * Develop circuit analysis and design skills. The text provides many opportunities to apply Laplace and related tools such as pole-zero diagrams, Bode diagrams, and Fourier series. This constant exposure to analysis and design tools will build practical skills.