Simulation-based Labs for Circuit Analysis: Discovering Circuits with Multisim Live and Tinkercad (River Publishers Series in Electronic Materials, Circuits and Devices)

Cover
Half Title
Series Page
Title Page
Copyright Page
Table of Contents
Preface
List of Figures
List of Tables
List of Abbreviations
Part I: DC Circuits
Chapter 1: Fundamental Circuit Conventions
1.1: Student Learning Outcomes
1.2: Prelab
1.2.1: Passive and active sign conventions
1.2.2: Problem 1
1.2.2.1: Solutions to Problem 1
1.2.3: Problem 2
1.2.3.1: Solutions to Problem 2
1.3: Lab Procedure 1
1.4: Lab Procedure 2
Chapter 2: Ohm’s Law
2.1: Student Learning Outcomes
2.2: Prelab
2.2.1: Problem 1
2.2.1.1: Solutions to Problem 1
2.2.2: Problem 2
2.2.2.1: Solutions to Problem 2
2.3: Lab Procedure 1
2.4: Lab Procedure 2
Chapter 3: Power in DC Circuits
3.1: Student Learning Outcomes
3.2: Prelab
3.2.1: Tellegen’s theorem
3.2.2: Problem 1
3.2.2.1: Solutions to Problem 1
3.2.3: Problem 2
3.2.3.1: Solutions to Problem 2
3.2.4: Problem 3
3.2.4.1: Solutions to Problem 3
3.3: Lab Procedure 1
3.4: Lab Procedure 2
Chapter 4: Series and Parallel Resistors in DC Circuits
4.1: Student Learning Outcomes
4.2: Prelab
4.2.1: Voltage divider
4.2.2: Current divider
4.2.3: Problem 1
4.2.3.1: Solutions to Problem 1
4.2.4: Problem 2
4.2.4.1: Solutions to Problem 2
4.2.5: Problem 3
4.2.6: Solutions to Problem 3
4.3: Lab Procedure 1
4.4: Lab Procedure 2
Chapter 5: Variable Resistors in DC Circuits
5.1: Student Learning Outcomes
5.2: Prelab
5.2.1: Problem 1
5.2.1.1: Solutions to Problem 1
5.2.2: Problem 2
5.2.2.1: Solutions to Problem 2
5.3: Lab Procedure 1
Chapter 6: Superposition Principle in DC Circuits
6.1: Student Learning Outcomes
6.2: Prelab
6.2.1: Problem 1
6.2.1.1: Solutions to Problem 1
6.2.2: Problem 2
6.2.2.1: Solutions to Problem 2
6.3: Lab Procedure 1
6.4: Lab Procedure 2
Chapter 7: Short-circuits and Open-circuits
7.1: Student Learning Outcomes
7.2: Prelab
7.2.1: Problem 1
7.2.1.1: Solutions to Problem 1
7.2.2: Problem 2
7.2.2.1: Solutions to Problem 2
7.2.3: Problem 3
7.2.3.1: Solutions to Problem 3
7.3: Lab Procedure 1
7.4: Lab Procedure 2
Chapter 8: Thevenin’s Theorem and Maximum Power Transfer in DC Circuits
8.1: Student Learning Outcomes
8.2: Prelab
8.2.1: Problem 1
8.2.1.1: Solutions to Problem 1
8.2.2: Problem 2
8.2.2.1: Solutions to Problem 2
8.2.3: Problem 3
8.2.3.1: Solutions to Problem 3
8.3: Lab Procedure 1
8.4: Lab Procedure 2
Chapter 9: Norton’s Theorem in DC Circuits
9.1: Student Learning Outcomes
9.2: Prelab
9.2.1: Problem 1
9.2.1.1: Solutions to Problem 1
9.2.2: Problem 2
9.2.2.1: Solutions to Problem 2
9.2.3: Problem 3
9.2.3.1: Solutions to Problem 3
9.3: Lab Procedure 1
9.4: Lab Procedure 2
Chapter 10: RC Circuits in DC
10.1: Student Learning Outcomes
10.2: Prelab
10.2.1: Problem 1
10.2.1.1: Solutions to Problem 1
10.2.2: Problem 2
10.2.2.1: Solutions to Problem 2
10.2.3: Problem 3
10.2.3.1: Solutions to Problem 3
10.3: Lab Procedure 1
10.4: Lab Procedure 2
Chapter 11: RL Circuits in DC
11.1: Student Learning Outcomes
11.2: Prelab
11.2.1: Problem 1
11.2.1.1: Solutions to Problem 1
11.2.2: Problem 2
11.2.2.1: Solutions to Problem 2
11.2.3: Problem 3
11.2.3.1: Solutions to Problem 3
11.3: Lab Procedure 1
11.4: Lab Procedure 2
Chapter 12: Wheatstone Bridge
12.1: Student Learning Outcomes
12.2: Prelab
12.2.1: Problem 1
12.2.1.1: Solutions to Problem 1
12.2.2: Problem 2
12.2.2.1: Solutions to Problem 2
12.3: Lab Procedure 1
Part II: Operational Amplifier Circuits
Chapter 13: Amplifier Fundamentals
13.1: Student Learning Outcomes
13.2: Prelab
13.2.1: Voltage amplifier
13.2.2: Current amplifier
13.2.3: Problem 1
13.2.3.1: Solutions to Problem 1
13.2.4: Problem 2
13.2.4.1: Solutions to Problem 2
13.3: Lab Procedure 1
Chapter 14: Saturation of Operational Amplifiers
14.1: Student Learning Outcomes
14.2: Prelab
14.2.1: Problem 1
14.2.1.1: Solutions to Problem 1
14.2.2: Problem 2
14.2.2.1: Solutions to Problem 2
14.2.3: Problem 3
14.2.3.1: Solutions to Problem 3
14.3: Lab Procedure 1
Chapter 15: Noninverting Operational Amplifier Configuration
15.1: Student Learning Outcomes
15.2: Prelab
15.2.1: The voltage follower
15.2.2: Problem 1
15.2.2.1: Solutions to Problem 1
15.2.3: Problem 2
15.2.3.1: Solutions to Problem 2
15.3: Lab Procedure 1
15.4: Lab Procedure 2
Chapter 16: Inverting Operational Amplifier Configuration
16.1: Student Learning Outcomes
16.2: Prelab
16.2.1: Problem 1
16.2.1.1: Solutions to Problem 1
16.2.2: Problem 2
16.2.2.1: Solutions to Problem 2
16.3: Lab Procedure 1
16.4: Lab Procedure 2
Chapter 17: Measuring the Slew Rate of Operational Amplifiers
17.1: Student Learning Outcomes
17.2: Prelab
17.2.1: Problem 1
17.2.1.1: Solutions to Problem
17.3: Lab Procedure 1
Part III: AC Circuits
Chapter 18: Measurement of Parameters and Phase Differences of Sinusoids
18.1: Student Learning Outcomes
18.2: Prelab
18.2.1: Mean value
18.2.2: Root mean square, or rms
18.2.3: Phase difference between sinusoids
18.2.4: Problem 1
18.2.4.1: Solutions to Problem 1
18.2.5: Problem 2
18.2.5.1: Solutions to Problem 2
18.3: Lab Procedure 1
18.3.1: Lab Procedure 2
Chapter 19: Capacitive Reactance, Inductive Reactance, and Impedance
19.1: Student Learning Outcomes
19.2: Prelab
19.2.1: Problem 1
19.2.1.1: Solutions to Problem 1
19.2.2: Problem 2
19.2.2.1: Solutions to Problem 2
19.3: Lab Procedure 1
19.4: Lab Procedure 2
Chapter 20 Nonsinusoidal Waveforms
20.1: Student Learning Outcomes
20.2: Prelab
20.2.1: Square wave
20.2.2: Triangular waveform
20.2.3: Sine wave with a superimposed DC voltage
20.2.4: Problem 1
20.2.4.1: Solutions to Problem 1
20.2.5: Problem 2
20.2.5.1: Solutions to Problem 2
20.2.6: Problem 3
20.2.6.1: Solutions to Problem 3
20.3: Lab Procedure 1
20.4: Lab Procedure 2
21: Resistive Circuits with AC Sources
21.1: Student Learning Outcomes
21.2: Prelab
21.2.1: Problem 1
21.2.1.1: Solutions to Problem 1
21.2.2: Problem 2
21.2.2.1: Solutions to Problem 2
21.3: Lab Procedure 1
21.4: Lab Procedure 2
Chapter 22: Purely Capacitive Circuits with Sinusoidal and Non-sinusoidal Sources
22.1: Student Learning Outcomes
22.2: Prelab
22.2.1: Problem 1
22.2.1.1: Solutions to Problem 1
22.2.2: Problem 2
22.2.2.1: Solutions to Problem 2
22.3: Lab Procedure 1
22.4: Lab Procedure 2
Chapter 23: Purely Inductive Circuits with Sinusoidal and Non-sinusoidal Sources
23.1: Student Learning Outcomes
23.2: Prelab
23.2.1: Problem 1
23.2.1.1: Solutions to Problem 1
23.2.2: Problem 2
23.2.2.1: Solutions to Problem 2
23.3: Lab Procedure 1
23.4: Lab Procedure 2
Chapter 24: Sinusoidal Steady-state Analysis in the Phasor Domain
24.1: Student Learning Outcomes
24.2: Prelab
24.2.1: Resistor
24.2.2: Inductor
24.2.3: Capacitor
24.2.4: Problem 1
24.2.4.1: Solutions to Problem 1
24.2.5: Problem 2
24.2.5.1: Solutions to Problem 2
24.3: Lab Procedure 1
24.4: Lab Procedure 2
Chapter 25: Series Combination AC Circuits
25.1: Student Learning Outcomes
25.2: Prelab
25.2.1: Problem 1
25.2.1.1: Solutions to Problem 1
25.2.2: Problem 2
25.2.2.1: Solutions to Problem 2
25.3: Lab Procedure 1
25.4: Lab Procedure 2
Chapter 26: Parallel Combination AC Circuits
26.1: Student Learning Outcomes
26.2: Prelab
26.2.1: Problem 1
26.2.1.1: Solutions to Problem 1
26.2.2: Problem 2
26.2.2.1: Solutions to Problem 2
26.2.3: Problem 3
26.2.3.1: Solutions to Problem 3
26.3: Lab Procedure 1
26.4: Lab Procedure 2
Chapter 27: Series–Parallel AC Circuits
27.1: Student Learning Outcomes
27.2: Prelab
27.2.1: Problem 1
27.2.1.1: Solutions to Problem 1
27.2.2: Problem 2
27.2.2.1: Solutions to Problem 2
27.2.3: Problem 3
27.2.3.1: Solutions to Problem 3
27.3: Lab Procedure 1
27.4: Lab Procedure 2
Chapter 28: Superposition Principle in AC circuits
28.1: Student Learning Outcomes
28.2: Prelab
28.2.1: Problem 1
28.2.1.1: Solutions to Problem 1
28.2.2: Problem 2
28.2.2.1: Solutions to Problem 2
28.2.3: Problem 3
28.2.3.1: Solutions to problem 3
28.3: Lab Procedure 1
28.4: Lab Procedure 2
Chapter 29: Thevenin’s Theorem and Maximum Power Transfer in AC
29.1: Student Learning Outcomes
29.2: Prelab
29.2.1: Problem 1
29.2.1.1: Solutions to Problem 1
29.2.2: Problem 2
29.2.2.1: Solutions to Problem 2
29.2.3: Problem 3
29.2.3.1: Solutions to Problem 3
29.3: Lab Procedure 1
29.4: Lab Procedure 2
Chapter 30 Series Resonant Circuits
30.1: Student Learning Outcomes
30.2: Prelab
30.2.1: Problem 1
30.2.1.1: Solutions to Problem 1
30.2.2: Problem 2
30.2.2.1: Solutions to Problem 2
30.2.3: Problem 3
30.2.3.1: Solutions to Problem 3
30.3: Lab Procedure 1
30.4: Lab Procedure 2
Chapter 31: Parallel Resonant Circuits
31.1: Student Learning Outcomes
31.2: Prelab
31.2.1: Practical inductor
31.2.2: Problem 1
31.2.2.1: Solutions to Problem 1
31.2.3: Problem 2
31.2.3.1: Solutions to Problem 2
31.3: Lab Procedure 1
31.4: Lab Procedure 2
Chapter 32: Low-pass Filters
32.1: Student Learning Outcomes
32.2: Prelab
32.2.1: Low-pass RC filter
32.2.2: Low-pass RL filter
32.2.3: Cutoff frequency fb
32.2.4: Decibel (dB)
32.2.5: Problem 1
32.2.5.1: Solutions to problem 1
32.2.6: Problem 2
32.2.6.1: Solutions to Problem 2
32.3: Lab Procedure 1
32.4: Lab Procedure 2
Chapter 33: High-pass Filters
33.1: Student Learning Outcomes
33.2: Prelab
33.2.1: High-pass RC filter
33.2.2: High-pass RL filter
33.2.3: Decibel (dB)
33.2.4: Problem 1
33.2.4.1: Solutions to Problem 1
33.2.5: Problem 2
33.2.5.1: Solutions to Problem 2
33.3: Lab Procedure 1
33.4: Lab Procedure 2
Chapter 34: The Transformer and the Impedance Matching
34.1: Student Learning Outcomes
34.2: Prelab
34.2.1: Problem 1
34.2.1.1: Solutions to Problem 1
34.2.2: Problem 2
34.2.2.1: Solutions to Problem 2
34.2.3: Problem 3
34.2.3.1: Solutions to Problem 3
34.3: Lab Procedure 1
34.4: Lab Procedure 2
Appendix A: Complex Numbers, Sinewaves, and Phasors
A.1: Student Learning Outcomes
A.2: Complex Numbers
A.3: Symbolic Method
A.4: Linear Combination of Sinusoids in the Phasor Domain
A.4.1: Problem 1
A.4.1.1: Solution to Problem 1
A.5: Derivation and Integration of Sinusoids in the Phasor Domain
A.6: Phasor Relationships in a Circuit
A.6.1: Resistors
A.6.2: Inductors
A.6.3: Capacitors
A.7: Complex Impedance of a Circuit Element
A.8: MATLAB Code
Index
About the Author