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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
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Searching... | 30000010075486 | TK454 D424 2001 | Open Access Book | Book | Searching... |
On Order
Summary
Summary
Designed for an introductory electric circuits course, the second edition of Linear Circuit Analysis provides authoritative and in-depth yet highly accessible coverage of traditional linear circuit analysis topics--both concepts and computation. This second edition represents an exhaustive revision, featuring: BL Complete integration and extensive use of MATLAB® in solving problems and examples BL Frequent use of SPICE, especially with op amp circuits BL Twenty percent more examples and numerous additional illustrations BL Approximately three times as many exercises immediately following the examples BL More than 1000 end-of-chapter problems (approximately 25% more than the first edition, categorized and graded from the simpler to the more complex; this edition includes many new basic problems) BL Excellent pedagogical elements including case studies, motivational real-world illustrations, and key terms and concepts A CD in each book! The CD contains: BL Complete Solutions for Students to 10% of the Homework Exercises. These solutions have been solved step-by-step by the authors and are installed on the disk in an Adobe Acrobat® file. BL Additional MATLAB® Problems. Designed to challenge students and extend their understanding of software tools, these complex MATLAB problems are contained on the CD in an Adobe Acrobat file. Solutions are available at www.decarlolin.org under "MATLAB Solutions." BL Laboratory Manual. A 214-page laboratory manual is resident on the in-text CD in Adobe Acrobat. It includes course objectives, course requirements, laboratory safety instructions, fifteen experiments, and nine useful appendices. BL A FREE Copy of the Multisim® 2001 Textbook Edition (SPICE Simulator). This powerful simulation software contains a fully functional version of Multisim® 2001 and includes a 1500 component database, 6 virtual instruments, 6 analyses, the Simplified Version Interface, and Save and Print capabilities. It creates and saves new circuits and will read and simulate any circuit created in the Multisim® 2001 Education or Student Editions. An extensive instructor's package--available free to adopters--includes: BL Solutions Manual CD to Accompany Linear Circuit Analysis (0-19-514218-7) with complete detailed solutions to all the end-of-chapter problems. For more information, call your Oxford sales representative at 1-800-280-0280. BL Microsoft PowerPoint® Overheads to Accompany Linear Circuit Analysis (0-19-514724-3) includes over 350 figures and captions from the book, enlarged and enhanced for classroom presentation. Contact your Oxford sales representative at 1-800-280-0280 to order this CD-ROM and hundreds of additional PowerPoint overheads from other Oxford texts. BL A website, www.decarlolin.org, with additional instructor resources, web links, enhancement materials, and errata. To extend the introduction to selected topics or provide additional practice we recommend the following additional items: Allan's Circuits Problems by Allan Kraus (0-19-514248-9) includes over 400 circuit analysis problems with complete solutions. SPICE, Second Edition by Gordon Roberts and Adel Sedra (0-19-510842-6) features over 100 examples and numerous exercises for computer-aided analysis of microelectronic circuits. Getting Started with MATLAB® by Rudra Pratap (0-19-512947-4) provides a quick introduction to using this powerful software. Getting Started with MATLAB® (Version 6) by Rudra Pratap (0-19-515014-7)
Author Notes
Raymond A. DeCarlo and Pen-Min Lin are both at Purdue University.
Table of Contents
Chapter 1 Introduction and Basic Concepts |
1 Role and Importance of Circuits in Engineering |
2 Fields, Charge, and CurrentFieldsChargeCurrent |
3 Voltage |
4 Energy Conversion in an Electric Circuit |
5 Relationships among Voltage, Current, Power, and Energy |
Power and Energy for Direct Voltages and Currents: Non-DC Power and Energy Calculations |
6 Ideal Voltage and Current Sources |
7 Resistance, Ohm''s Law, and Power (a Reprise) |
8 Additional Concepts |
Characteristics, Memoryless, Model, and LumpedV-I Characteristic of Constant Voltage and Current Sources |
Notion of a Memoryless Device |
Notion of Model |
Frequency, Wavelength, and the Notion of a Lumped Circuit Element |
Summary |
Terms and Concepts |
Problems |
Chapter 2 Kirchhoff''s Current and Voltage Laws and Series-Parallel Resistive Circuits |
1 Introduction |
2 Terminology: Parallel, Series, Node, Branch, and so on |
3 Kirchhoff''s Current Law |
4 Kirchhoff''s Voltage Law |
5 Equivalent Resistance, Series Resistances, and Voltage Division |
6 Parallel Resistances and Current Division |
7 Series-Parallel Interconnections |
8 Dependent Sources Revisited |
9 Model for a Nonideal Battery and Battery Capacity |
10 Nonideal Sources |
Summary|!3 |
Problems |
Chapter 3 Nodal and Loop Analysis1 |
Introduction, Review, and Terminology |
2 Concepts of Nodal and Loop Analysis |
3 Nodal Analysis |
I Grounded Voltage Sources |
4 Nodal Analysis |
II Floating Voltage Sources |
5 Loop Analysis |
6 Modified Nodal Analysis |
7 Some Theoretical Foundations |
Planar and Nonplanar Circuit Graphs |
Meshes and Loops for Nonplanar Circuits |
Number of Independent KCL and KVL Equations |
Chapter 4 The Operational Amplifier |
1 Introduction |
2 The Ideal Operational Amplifier |
3 Design of General Summing Amplifiers |
Design Choices for the General Summing Circuit |
Derivation of Op Amp Input-Output Characteristic |
4 Saturation and the Active Region of the Op Amp |
5 Op Amp Circuit for Digital-to-Analog Conversion |
Elements of A/D and D/A Conversion |
Binary-Weighted Summing Circuit |
Summary |
Terms and Concepts |
Problems |
Chapter 5 Linearity, Superposition, and Source Transformations |
1 Introduction |
2 Linearity |
3 Superposition and Proportionality |
4 Source Transformations |
5 Modified Superposition Analysis |
Summary |
Terms and Concepts |
Problems |
Chapter 6 Thevenin, Norton, and Maximum Power Transfer Theorems |
1 Introduction2. Thevenin and Norton Equivalent Circuits for Passive Networks |
3 Thevenin and Norton Equivalent Circuits for Active Networks |
4 Thevenin and Norton Equivalent Circuits for Op Amp Circuits |
5 Thevenin and Norton Equivalent Circuits from Measured Data |
6 Theoretical Considerations: Pathological Cases and a Proof |
7 Maximum Power Transfer Theorem |
Summary |
Terms and Concepts |
Problems |
Chapter 7 Inductors, Capacitors, and Duality |
1 Introduction |
2 The InductorSome Physics: Definition and Basic Examples |
3 The Capacitor |
Definitions and Properties |
Relationship of Charge to Capacitor Voltage and Current |
Principle of Conservation of Charge |
Energy Storage in a Capacitor |
Capacitance and Dielectrics |
4 Series and Parallel Inductors and Capacitors |
Inductors in Series |
Inductors in Parallel |
Series-Parallel Inductor Combinations |
Capacitors in Series |
Capacitors in Parallel |
Series-Parallel Capacitor Combinations |
5 Smoothing Property of a Capacitor in a Power Supply |
6 The Duality Principle |
Basic Relationship of Dual Circuits |
Constructing the Dual N* of a Planar Circuit N |
Summary |
Terms and Concepts |
Problems |
Chapter 8 First-Order RL and RC Circuits |
1 Introduction |
2 Some Mathematical Preliminaries |
3 Source-Free or Zero-Input Response |
4 DC or Step Response of First-Order Circuits |
5 Superposition and Linearity |
6 Response Classifications |
7 Further Points of Analysis and Theory |
8 First-Order RC Op Amp Circuits |
Summary |
Terms and Concepts |
Problems |
Chapter 9 Second-Order Linear Circuits |
1 Introduction |
2 Discharging a Capacitor through an Inductor |
3 Source-Free Second-Order Linear Networks |
Development of Differential Equation Models for Series and Parallel RLC Circuits |
Solution of the Gene |