- Fundamentals of Electrical Circuits
- Introduction to Electrical and Electronics Circuits
- Basic Electric Circuits
1. Fundamentals of Electrical Circuits
|1."Fundamentals of Electric Circuits" by Charles K Alexander and Matthew N O Sadiku|
“Fundamentals of Electric Circuits” Book Review: This book is intended for those studying electrical and electronics, including undergraduates, graduates, and research scholars, as well as students in embedded systems and computer engineering. It provides a comprehensive coverage of circuit analysis, featuring a six-step problem-solving approach. Topics covered include DC circuits, basic laws, methods of analysis, circuit theorems, operational amplifiers, capacitors, inductors, AC circuits, introduction to Laplace transform, applications of Laplace transform, Fourier series, and Fourier transform. To facilitate learning, each topic is illustrated with numerous examples, followed by a solved practice problem and answer to test comprehension.
|2."Fundamentals of Digital Circuits" by Kumar A Anand|
“Fundamentals of Digital Circuits” Book Review: This book offers a comprehensive and coherent coverage of digital circuits, making it suitable for undergraduates, graduates, and research scholars of electrical and electronics. Additionally, students of embedded systems and computer engineering can benefit from it. The book explores Boolean algebra concepts and their application to digital circuitry while examining both combinational and sequential circuits. Furthermore, readers will find numerous fully worked-out examples that will aid their understanding.
|3."Fundamentals of Electric Circuits" by Charles K Alexander and Matthew Sadiku|
“Fundamentals of Electric Circuits” Book Review: This book is designed for undergraduates, graduates, and research scholars studying electrical and electronics engineering as well as students specializing in embedded systems and computer engineering. The book offers a six-step problem-solving methodology, covering topics such as Sinusoidal Steady-State Analysis, Magnetically Coupled Circuits, Simultaneous Equations, Matrix Inversion, and other related subjects. The book contains numerous worked and extended examples, practice problems, and real-world applications. In addition, over 468 new or revised homework problems are included.
|4."Fundamentals of Electric Circuits" by Charles Alexander and Matthew N O Sadiku|
“Fundamentals of Electric Circuits” Book Review: This book is intended for individuals studying electrical and electronics engineering, including undergraduates, graduates, and research scholars. It is also suitable for students of embedded systems and computer engineering. The book covers the fundamental circuit theory course typically taught in electrical engineering departments. Its primary goal is to explain circuit analysis in a simple and straightforward way, using numerous practical examples to engage the reader. Each chapter concludes with a summary of the essential concepts and formulas. The book provides a cohesive and in-depth exploration of digital circuits, including an examination of Boolean algebra concepts and their relevance to digital circuitry. It also covers both combinational and sequential circuits.
|5."Fundamentals of Analog Circuits" by Floyd|
“Fundamentals of Analog Circuits” Book Review: This comprehensive book caters to a diverse audience including undergraduates, graduates, and research scholars of electrical and electronics, as well as students studying embedded systems and computer engineering. The book covers a wide range of relevant topics, including theory, practical circuits, and troubleshooting concepts, while minimizing mathematical details. It covers basic concepts such as diodes, transistors, and amplifiers, and delves into more advanced topics such as circuit op-amps, active filters, oscillators, power supplies, special amplifiers, communications circuits, data conversion circuits, and measurement and control circuits. The latter half of the book focuses on linear integrated circuits rather than discrete device circuits.
|6."Fundamentals of Electric Circuits" by Matthew N O Sadiku and Charles K Alexander|
“Fundamentals of Electric Circuits” Book Review: This book is intended for students of electrical and electronics engineering, as well as those pursuing embedded systems and computer engineering. It offers a comprehensive introduction to circuit theory, as typically taught in undergraduate electrical engineering courses. The book’s primary goal is to present circuit analysis in a straightforward and accessible manner, with numerous practical examples to engage students. Each chapter concludes with a summary of key concepts and formulas. Additionally, the book provides a comprehensive overview of digital circuits, covering Boolean algebra concepts and their application to digital circuitry, as well as both combinational and sequential circuits.
|7."Electric Circuits Fundamentals" by Thomas L Floyd|
“Electric Circuits Fundamentals” Book Review: This book is intended for undergraduate, graduate, and research students in electrical and electronics engineering, as well as those studying embedded systems and computer engineering. The book offers a variety of helpful resources, such as “Symptom/Cause” problems and Multisim circuit exercises, as well as a glossary of key terms at the end of each chapter. It also features numerous illustrations and examples throughout each chapter to help explain important concepts, theorems, and methods. Additionally, the book provides worked and extended examples, practice problems, and real-world applications.
|8."Electronic Circuits - Fundamentals and Applications" by Mike Tooley BA|
“Electronic Circuits – Fundamentals and Applications” Book Review: This book is intended for undergraduate and graduate students, as well as research scholars in the fields of electrical and electronics engineering, embedded systems, and computer engineering. It provides a comprehensive overview of the fundamentals of electronics, covering the essential knowledge required to understand the workings of various electronic circuits, such as amplifiers, logic circuits, power supplies, and oscillators. The book also discusses circuit simulation, electronic CAD, and the PIC microcontroller. Additionally, each chapter includes on-line self-test multiple-choice questions with automatic grading, allowing readers to test their comprehension and track their progress.
|9."Fundamentals of Electric Circuit Theory" by D Chattopadhyaya|
“Fundamentals of Electric Circuit Theory” Book Review: This book is designed for undergraduates, graduates, and research scholars in the fields of electrical and electronics, as well as students of embedded systems and computer engineering. It presents “Symptom/Cause” problems and exercises on Multisim circuits, and provides a key terms glossary at the end of each chapter. The book features vivid illustrations and numerous examples in each chapter that effectively illustrate major concepts, theorems, and methods. It also contains worked and extended examples, practice problems, and real-world applications to further enhance the learning experience.
|10."Electronic Circuits, 4th ed: Fundamentals and applications" by Mike Tooley|
“Electronic Circuits, 4th ed: Fundamentals and applications” Book Review: This book is designed for undergraduates undergraduates, graduates, and research scholars specializing in electrical and electronics, as well as students of embedded systems and computer engineering. It encompasses the introductory circuit analysis or circuit theory course that is commonly taught in electrical engineering departments. The book’s primary goal is to provide a clear and easy-to-grasp presentation of circuit analysis, supplemented with numerous practical applications to pique the student’s interest. Each chapter concludes with a synopsis of the main points and formulas. Additionally, the book provides a comprehensive and well-organized treatment of digital circuits. It delves into the concepts of Boolean algebra and their relevance to digital circuitry, examining both combinational and sequential circuits.
|11."Electrical Circuit Theory and Technology" by John Bird|
“Electrical Circuit Theory and Technology” Book Review: This book is designed for engineering students and those pursuing pre-degree vocational courses. It covers electrical principles, circuit theory, laws, and theorems, along with an explanation of electrical technology. Additionally, it delves into semiconductors, such as silicon, germanium, and gallium arsenide, transistors, and fuel cells. It also covers new materials, including ABCD parameters and Fourier’s analysis, and includes real-world examples to help students grasp the concepts practically. With over 800 worked examples, the book aids in a better understanding of the subject. Moreover, it features more than 1000 problems to enable students to apply the concepts independently.
2. Introduction to Electrical and Electronics Circuits
|1."Electrical Engineering Fundamentals" by Vincent Del Toro|
Book Review: This book offers a robust grounding in diverse aspects of electrical engineering, incorporating laplace transform techniques to address transient issues in circuits. The chapters are constructed on the basis of essential laws such as coulomb’s law, ohm’s law, and faraday’s law, which facilitate a coherent and comprehensive comprehension of the concepts. For students pursuing electrical engineering, this book proves highly beneficial, providing lucid elucidation of electrical engineering principles.
|2."Electrical and Electronics Engineering for Scientists" by K A Krishnamurthy and M R Raghuveer|
Book Review: The scope of this material is broad, spanning from fundamental principles governing the behavior of electrical circuits to the intricacies of microprocessors. Emphasis is placed on mathematical derivations and physical laws, with a thorough explanation of complex concepts. Furthermore, the material is enriched with a multitude of solved examples and practical illustrations.
|3."Fundamentals of Electrical Engineering" by Rajendra Prasad|
Book Review: This comprehensive book offers an in-depth examination of the fundamental principles of electrical engineering, utilizing practical problems to illustrate various concepts. Beginning with a precise overview of the basics of electrical engineering, the text covers a range of topics including circuit theory, electrostatic and electromagnetic theory, and electromechanical energy conversion. The book also provides a systematic analysis of electrical machine working principles and applications, as well as chapters on dynamic network responses and 3-phase circuit analysis. Additionally, readers will find discussions on various methods of generating electric power, economic considerations, power system tariffs, earthing methods, and more.
|4."Basic Electrical and Electronics Engineering" by Bhattacharya|
“Basic Electrical and Electronics Engineering” Book Review: This comprehensive book covers a wide range of topics in electrical and electronics engineering, including the fundamentals of electricity, network theory, electrical machines, electromagnetism, transformers, power systems, measuring instruments, digital electronics, semiconductor devices, and integrated circuits. With numerous illustrations, examples, and exercises, this book is an ideal resource for undergraduate students seeking to gain a solid understanding of the basics of electrical and electronics engineering.
|5."Electrical, Electronics, and Digital Hardware Essentials for Scientists and Engineers" by Ed Lipiansky|
“Electrical, Electronics, and Digital Hardware Essentials for Scientists and Engineers” Book Review: This guidebook offers comprehensive guidance on testing, evaluating, and resolving real-world circuit board problems. It thoroughly covers the fundamentals of resistors, inductors, capacitors, magnetism, time domain, and frequency analyses of circuit behavior, as well as the pros and cons of different analytical methods. Additionally, it provides an introduction to MOSFET transistors, operational amplifiers, and electronic hardware applications from an electronics standpoint. The book also explains the principles, techniques, and issues involved in both basic and advanced logic design. Furthermore, a separate chapter provides a complete machine instruction set for a small CPU, covering everything from its execution path, logic implementation, and timing analysis, to its power decoupling, resets, and clock considerations. With detailed circuit examples and illustrations, this guidebook is an ideal resource for solid state circuit engineers, semiconductor designers and engineers, and electric circuit testing engineers.
|6."ELECTRONIC DEVICES AND CIRCUITS" by DAVID A BELL|
“Electronic Devices and Circuits” Book Review: This book provides a comprehensive coverage of the essential principles of electronic devices and circuits that are widely used in modern times. It commences with a concise introduction to the fundamentals of semiconductors and p-n junction theory, followed by a thorough explanation of the operation, characteristics, parameters, and circuit applications of each device. The book also extensively covers circuit testing, troubleshooting techniques, and circuit design and analysis methods of standard-value components and currently available devices. Additionally, it includes a detailed treatment of RC and LC power supply filters, tuned circuit amplifiers, class C amplifiers, and active filters. This book is suitable for undergraduate engineering courses in electrical and electronics, instrumentation and control, and electronics and instrumentation.
|7."Introduction To PSpice Using OrCAD For Circuits And Electronics" by Muhammad H Rashid|
“Introduction to PSpice using OrcCAD for Circuits and Electronics” Book Review: This book provides a top-down approach to acquaint readers with the SPICE simulator. It first covers techniques for simulating circuits, followed by a thorough explanation of various OrCAD and SPICE commands and their usage in different electrical and electronic circuits. Additionally, this book explains several circuital models of real-life devices through illustrations, exercises, and solved problems. It is a valuable resource for professionals and students pursuing electric or electronic circuitry courses.
|8."Basic Electronic Devices and Circuits" by Mahesh B Patil|
“Basic Electronic Devices and Circuits” Book Review: This book presents a methodical examination of the fundamental principles governing semiconductor devices such as diodes, optoelectronic devices, MOS transistors, bipolar transistors, and junction field-effect transistors. The text explains amplifier operation, biasing, logic circuits, and small-signal models, and provides numerical examples and simulation outcomes in a clear and concise manner to facilitate comprehension of the topic. Additionally, review problems are included at the conclusion of each chapter. This book is ideal for undergraduates pursuing degrees in electronics and communication, electrical engineering, instrumentation engineering, computer science and engineering, and information technology.
|9."Power System Capacitors" by Hardcover and Ramasamy Natarajan|
“Power System Capacitors” Book Review: This book offers a comprehensive overview of the basic principles underlying a wide variety of capacitor applications, as well as addressing issues related to their protection, impact on systems, and uses in a succinct manner. It guides readers through the step-by-step process of selecting, designing, installing, and maintaining power factor correction capacitors that are commonly used in modern power systems. Key concepts related to power correction capacitors, including specifications, economic analysis, shunt capacitor protection, industry standards, and capacitor bank maintenance, are explained using computer-aided analysis. The book utilizes numerous illustrations, tables, and equations to discuss methods for performing economic analysis, as well as selecting circuit breakers, surge arresters, fuses, and other supporting equipment. It is designed for students and power system engineers in a variety of industries, utilities, consulting firms, and those interested in practical power system evaluation.
|10."Electronic Devices and Circuits" by Ajay Singh and Jimmie Cathey|
“Electronic Devices and Circuits” Book Review: This book offers a concise summary of all the basic principles of electronic devices and circuits. To facilitate a comprehensive understanding of the subject, there are many illustrations, solved examples, and exercises in the form of multiple-choice questions. The SPICE method has been employed to solve numerous problems, aiding in better correlations between various topics. Students and professionals alike can consult this book.
3. Basic Electric Circuits
|1."Basic Circuit Analysis" by K V V Murthy and M S Kamath|
Book Review: This comprehensive book delves into a multitude of concepts related to electrical devices and operating systems, spanning a wide range of electrical parameters. It presents fundamental principles and concepts related to circuit analysis, as well as a detailed classification of the elements that constitute an electric circuit. The mesh and node methods are skillfully illustrated in the book, along with step-by-step procedures for generating equations. In addition, the book covers physical principles, mathematical analysis, sinusoidal steady-state network analysis, and various other topics.
|2."Engineering Circuit Analysis" by W H Hayt and J E Kemmerley|
Book Review: This book provides a clear explanation of the concepts, supported by numerical examples to help readers achieve their desired outcomes. Additionally, it offers various practice problems to test the readers’ comprehension, including both simple and advanced challenges. The book also provides tips and warnings to enhance the learning experience and offers numerous opportunities for hands-on learning. It establishes connections between circuit theory and other important areas in electrical engineering. This comprehensive guide is highly beneficial for both graduate and undergraduate students, providing them with a comprehensive understanding of circuit analysis.
|3."Basic Electric Circuit Theory" by I D Mayergoyz|
Book Review: The book covers various topics related to electrical engineering, including phasors and AC steady-state analysis. By using phasors to examine transients excited by AC sources, the presentation of transients becomes more meaningful and comprehensive. The use of phasors also introduces transfer functions, which are useful in the discussion of Bode plots and filters, as well as in providing transient analysis. The book also devotes a chapter to operational amplifiers and their dependent sources. In addition, it provides an introduction to PSpice simulations to help readers understand circuit analysis. The book emphasizes the connections between circuit theory and other areas of electrical engineering and also includes a section on the design of active filters.
|4."BASICS OF ELECTRIC CIRCUITS: AC and DC Circuits" by Mohamed Hamed|
“Basics of Electric Circuits: AC and DC Circuits” Book Review: The primary purpose of this book is to present the fundamental concepts of electric circuits and their operation in a concise but comprehensive manner. It covers the basics of semiconductors, circuit elements, vector diagrams, magnetic circuits, transient analysis, and three-phase systems in great detail. Both linear and nonlinear circuits are explained using graphical and mathematical methods. The book is particularly useful for engineers and undergraduate students due to the abundance of solved examples and exercises provided.
|5."Electric Circuits" by James William Nilsson and Susan Riedel|
“Electric Circuits” Book Review: This book is designed to provide a comprehensive introduction to electric circuits, utilizing a plethora of illustrations and examples. The problem-solving approach employed in the book enables readers to grasp the concepts more easily and to develop a solid foundation in the field. The book is intended for use in a one or two semester course in Circuit Theory or Circuit Analysis offered by electrical or computer engineering departments.
|6."Understandable Electric Circuits" by Meizhong Wang|
“Understandable Electric Circuits” Book Review: This book provides a concise yet comprehensive introduction to the fundamental concepts of AC and DC electrical circuits. It begins with an overview of key topics, including resistors, inductors, impedance, capacitors, admittance, voltage, current, power, and dependent and independent sources. The second half of the book focuses on circuit types, network theorems, circuit laws, RLC circuits, mutual inductance, transient analysis, transformers, and more. Each chapter concludes with a summary and detailed laboratory experiments to enable readers to practice and assess their knowledge.
|7."Electric Circuits" by Joseph A Edminister|
“Electric Circuits” Book Review: This comprehensive book offers a methodical survey of the core principles of electrical engineering. Packed with illustrations and real-world examples, the text features a wealth of exercises and problems designed to enable readers to hone their skills and develop a deep grasp of the fundamental concepts that underlie electric circuits. It is an ideal resource for students and professionals alike who are studying subjects such as electric circuit analysis, electric circuit fundamentals, circuit theory, linear circuits, and systems.
|8."3000 Solved Problems in Electric Circuits" by Syed A Nasar|
“3000 Solved Problems in Electrical Circuits” Book Review: This book provides a wide array of electric circuit diagrams and problems for readers to practice and solve. The problems presented in this book cover all aspects of electric circuits, ranging from basic units and two-port networks to intricate multi-phase circuits and the use of Laplace transforms. The numerous illustrations incorporated in this volume are designed to assist readers in excelling in any professional or graduate examination.
|9."Electricial Engineering and the Science of Circuits" by Binding and James Bow|
“Electrical Engineering and the Science of Circuits” Book Review: This book provides an introduction to the basic concepts of electronic circuitry and encourages readers to delve into the world of electrical engineering. The book covers the fundamental knowledge required to construct electric circuits and provides insights from pioneers in the field. It also explores the various applications of electricity, with a detailed description of electrical systems and devices. This volume is intended for students and beginners in the field of electrical engineering.