Part I: Circuits
1: Basic Elements and Laws
1.1: Voltage Sources, Current Sources, and Resistors
1.2: Kirchhoff's Current Law (KCL)
1.3: Kirchhoff's Voltage Law (KVL)
1.4: Independent and Dependent Souces
1.5: Instantaneous Power
2: Circuit Analysis Principles
2.1: Nodal Analysis
2.2: Determinants and Cramer's Rule
2.3: Mesh Analysis
2.4: Ideal Amplifiers
2.5: Thevevnin's and Norton's Theorems
2.6: Linearity and Superposition
3: Time-Domain Circuit Analysis
3.1: Inductors and Capacitors
3.2: Integral Relationships for Inductors and Capacitors
3.3: First-Order Circuits - The Natural Response
3.4: First-Order Circuits - The Complete Response
3.5: Second-Order Circuits - The Natural Response
3.6: Second-Order Circuits - The Complete Response
4: AC Analysis
4.1: Time-Domain Analysis
4.2: Complex Numbers
4.3: Frequency-Domain Analysis
4.4: Power
4.5: Important Power Concepts
4.6: Polyphase Circuits
4.7: Three-Phase Loads
5: Important Circuit and System Concepts
5.1: Frequency Response
5.2: Resonance
5.3: Complex Frequency
5.4: Introduction to Systems
5.5: The Laplace Transform
5.6: Inverse Laplace Transforms
5.7: Application of the Laplace Transform
Part II: Electronics
6: Diodes
6.1: Semiconductors
6.2: Doped Semiconductors
6.3: The Junction Diode
6.4: The Ideal Diode
6.5: Nonideal-Diode Models
6.6: Zener Diodes
6.7: Effects of Capacitance
7: Bipolar Junction Transistors (BJTs)
7,1: The pnp Transistor
7.2: The npn Transistor
7.3: Cutoff and Saturation
7.4: Applications to Digitial Logic Circuits
7.5: DTL Integrated-Circuit (IC) Logic
7.6: Transistor-Transistor Logic (TTL)
7.7: Other IC Logic Families
8: Field-Effect Transistors (FETs)
8.1: The Junction Field-Effect Transistor (JFET)
8.2: Metal-Oxide-Semiconductor Field-Effect Transistors
(MOSFETs)
8.3: MOSFET Logic Gates
8,4: Complementary MOSFETs (CMOS)
9: Transistor Amplifiers
9.1: BJT Amplifiers
9.2: FET Amplifiers
9.3: Frequency Response
9.4: Power Amplifiers
10: Electronic Circuits and Amplifiers
10.1: IC Amplifiers
10.2: Operational Amplifiers
10.3: Feedback
10.4: Sinusoidal Oscillators
10.5: Comparators
10.6: Introduction to Communication
Part III: Digital Systems
11: Digital Logic
11.1: Binary Numbers
11.2: Binary Arithmetic
11.3: Digital Logic Circuits
11.4: Boolean Algebra
11.5: Standard Forms of Boolean Functions
11.6: Simplification of Boolean Functions
12: Logic Design
12.1: Combinatorial Logic
12.2: MSI and LSI Design
12.3: Sequential Logic
13: Digital Devices
13.1: Counters
13.2: Registers
13.3: Memories
13.4: Digital Information Processing
Part IV: Electromagnetics
14: Electromagnetics
14.1: Magnetic Fields
14.2: Magnetic Circuits
14.3: Transformers
14.4: The Ideal Transformer
14.5: Nonideal-Transformer Models
15: Machines
15.1: Tranducers
15.2: Moving-Coil and Moving-Iron Devices
15.3: Rotating-Coil Devices
15.4: Generators
15.5: Motors
Part V: SPICE
16: SPICE
16.1: PSPICE
16.2: Transient Analysis
16.3: AC Analysis
16.4: Diodes
16.5: Dipolar Junction Transistors (BJTs)
16.6: Field-Effect Transistors (FETs)
16.7: Transistor Amplifiers
16.8: Operational Amplifiers
"Very nice text. The broad coverage is nice for students in later
studies....The chapter on SPICE is very helpful."--Perry Wood, Penn
State Mont Alto
"Beautifully illustrated, very complete text."-Leo Holzenthal, Jr.,
University of New Orleans
"Very nice text. The broad coverage is nice for students in later
studies....The chapter on SPICE is very helpful."--Perry Wood, Penn
State Mont Alto
"Beautifully illustrated, very complete text."--Leo Holzenthal,
Jr., University of New Orleans
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