Circuits 2

ET 152 Circuits 2

I. CATALOG DESCRIPTION:

ET152 CIRCUITS 2 C 3, P 2, CR 4

This course details AC circuit analysis. Topics include Phasor representation of sinusoidal voltage, currents, impedance, power solution of RLC circuits, frequency response and series and parallel resonance. Three phase power transformers and Fourier analysis of complex waveforms are introduced. The use of computer solutions in problem solving is included.

Prerequisites: ET151 Circuits 1, ET153 Introduction to Electronics, ET154 Computer Programming or IS101 Introduction to Personal Computers, or permission of instructor.

II. MATERIALS:

Texts: Introductory Circuit Analysis 11E, R. Boylestad Prentice Hall Publishing Company,
Experiments in Circuit Analysis 11E, R. Boylestad, Prentice Hall Publishing Company

Equipment: A Scientific calculator with trig, exponential and polar to rectangular functions, preferably with matrix functions capable of complex coefficients.
Hand tools; sufficient to cut, strip and straighten hookup wire and a small screwdriver.

III. STUDENT LEARNING OUTCOMES:

The student will demonstrate a thorough knowledge of the AC steady state behavior of electrical circuits.

The student will demonstrate familiarity with the phasor solution of AC circuits and AC power relationships.

The student will demonstrate knowledge of the concepts of frequency response and series and parallel resonant circuits.

The student will use a mathematical and problem solving approach for circuit analysis, based on fundamental AC circuit principles and math concepts. This will include the use of computer simulations.

The student will demonstrate facility at constructing and trouble shooting basic AC circuits in the laboratory with proper use of test equipment.

The student will demonstrate appropriate communication skills, particularly technical reports through the laboratory.

The student will demonstrate the ability to work as part of a technical team, particularly in the laboratory.

Link to Course Assessment Standards

Background

This is the second in a sequence of two electrical circuits courses. Success in this course requires a good working knowledge of algebra and trigonometry, along with a thorough understanding of the concepts presented in ET151 Circuits 1. Simply stated, this course is an AC version of Circuits 1. Combination RLC circuits are examined in great depth. Topics include impedance, frequency response, and resonance. Three-phase power, transformers, and Fourier analysis of complex waveforms are introduced. If you do not already have one, purchase of a scientific calculator that will perform simultaneous equation solutions with complex coefficients is strongly advised. A minimum capability of 5 unknowns is desired. Examples include the TI-86 and TI-89. Also, it will be helpful to bring a set of colored pencils or pens to lecture (3 or 4 colors) because we create numerous simultaneous waveform plots. For lab, you'll need the standard array of goodies as used throughout this program (breadboard, DMM, small handtools, hook-up leads, etc.) Unless otherwise specified, all lab exercises require a non-formal report due no later than one week after the exercise. Late penalty is one letter grade for the first half week, two letter grades for the second half week. Reports are not accepted beyond two weeks and receive a grade of 0. Remember, plagiarism is grounds for failure.

Link to the Boylestad website for more info, self-test materials, etc.

Week-by-week progress and assignments
If you have the 10th edition of the text, please note that there are some changes in the problem numbers compared to the 11th edition for these chapters. Finally, these lab numbers refer to the second half of the manual (AC portion).

1
We begin with RC and RL transients. We then transition to AC concepts of time varying quantities: sinusoidal functions and waveforms, and calculation of average and RMS value.

Reading: Last half of chapters 10 and 12, and first portion of chapter 13. Check out the Sine Wave Notes doc.
Problems: Chapter 10: 17, 21, 41, 43. Chapter 12: 23, 25. Chapter 13: 1, 5, 9, 15, 17, 18.
Lab: As always, we start the semester with proper lab safety procedures. Then we'll perform Exercise 2, The Oscilloscope

2
We finish chapter 13 and launch into chapter 14 with an examination of reactance and impedance.

Reading: Finish chapter 13 by monday and begin chapter 14.
Problems: Chapter 13: 29, 41, 43. Chapter 14: 1, 7, 9, 13, 17, 23, 25.
Lab: Exercise 1, Problem session and math review

3
This week we introduce AC power and complex numbers. Complex numbers are extremely important- you can't do the remaining material without them, so make sure that you master the concepts.

Reading: Finish chapter 14.
Problems: Do first 6 problems from Weekend Fun Worksheet. Chapter 14: 29, 31, (The problems in the 40's are multi-part and may take a while. You must be able to do these. Consider it an investment in time) 41, 42, 43, 44, 45, 48, 49, 53.
Lab: Exercises 3 & 4, RLC Components

4
We now begin elementary AC network analysis in chapter 15. The first topic is series networks.

Reading: Start chpater 15.Check out the series RL simulation doc.
Problems: Finish remaining problems from Weekend Fun Worksheet. Chapter 15: 1, 3, 5, 7 (hits all the bases), 15, 19, 21 (you'll be seeing this again in Op Amps and Telecom!), 25.
Lab: Exercises 5 & 6, Series RL and RC Networks

5
This week we look at parallel networks and introduce series-parallel networks.

Reading: Finish chapter 15 and start chapter 16 by week's end.
Problems: Chapter 15: 27, 33, 39. Chapter 16: 1, 5.
Lab: Exercise 7, Phase Measurements

6
We conclude with series-parallel networks and have a test.

Reading: Finish chapter 16.
Problems: Chapter 16: 9, 13.
Lab: Exercises 8 (parts 1 and 2) and 20 (part 1), Series RL and RC Networks

7
Our next major topic is network theorems and analysis. This will be spread over a few weeks. This week we start with chapter 17 on methods of analysis (source conversions, dependent sources, mesh, nodal, etc.)

Reading: First portion of chapter 17.
Problems: Chapter 17: 1, 3, 5, 7 (imagine doing this entirely by hand), 15, 17. Start the Mesh, Nodal, et al. Worksheet.
Lab: Exercises 8 (part 3) and 20 (part 2), Series RLC Networks

8
We finish off methods of analysis and begin network theorems (Superposition, Thevenin, Norton).

Reading: Finish chapter 17 and begin chapter 18.
Problems: Chapter 17: 35, 41. Chapter 18: 1, 12, 27. Continue the Mesh, Nodal, et al. Worksheet.
Lab: Exercise 9 (parts 1 and 2), Parallel RL and RC Networks

9
This week we conclude network theorems (Maximum Power Transfer, Substitution, etc). By the end of the week we'll begin AC power.

Reading: Finish chapter 18 and begin chapter 19 by week's end.
Problems: Chapter 18: 39, 41, 45, 47. Chapter 19: 3, 5.
Lab: Exercise 9 (part 3), Parallel RLC Network

10
We finish AC power this week and have a test (probably the end of the week).

Reading: Finish chapter 19.
Problems: Chapter 19: 7, 11, 15, 17, 19. Finish the Mesh, Nodal, et al. Worksheet.
Lab: Exercise 10, Series-Parallel Networks

11
This week we begin another major topic: frequency response and resonance. We will be working through chapter 20 and 21 concurrently. Only a portion of chapter 21 will be examined, primarily as applications. The first item of interest is series resonance. This will take up about one week.

Reading: Begin chapter 20 (up through section 7) and 21 (sections 4, 5, and 6).Read the parallel-series transform proofs
Problems: Chapter 20: 1, 3, 5, 7, 11 (requires some thought) Chapter 21: 19, 23 (do plots in MultiSIM).Try the resonance problems worksheet
Lab: Exercise 11, first half, Thevenin's Theorem

12
This week we spend on parallel resonance.

Reading: Finish chapters 20 and 21 (sections 7 and 8).
Problems: Chapter 20: 13, 15, 21, 25 (a good test of your knowledge) Chapter 21: 27, 31 (do plots in MultiSIM).
Lab: Exercise 11, second half, Maximum Power Transfer

13
When we have completed resonance, we begin with chapter 23, Polyphase Power.

Reading: Start chapter 23.
Problems: Chapter 23: 3, 5, 7, 11, 13
Lab: Exercise 12, Series Resonant Circuit

14
We finish off polyphase power and begin chapter 25, Transformers (end of the week).

Reading: Finish chapter 23 and start chapter 25.
Problems: Chapter 23: 19, 21, 27, 28, 32, 39 Chapter 25: 1, 5.
Lab: Exercise 13, Parallel Resonant Circuit

15
We wrap up transformers and have our last in-class test (time permitting).

Reading: Finish chapter 25.
Problems: Chapter 25: 9, 13, 23, 25
Lab: Course review, or time permitting, computer simulation of series-parallel resonant circuits.

Resources

Sine Wave Notes

Basic series RL MultiSim example using Transient Analysis

Weekend Fun Worksheet

Mesh, Nodal, et al. Worksheet

Parallel-Series Transform Proofs

Resonance Problems Worksheet

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1	We begin with RC and RL transients. We then transition to AC concepts of time varying quantities: sinusoidal functions and waveforms, and calculation of average and RMS value. Reading: Last half of chapters 10 and 12, and first portion of chapter 13. Check out the Sine Wave Notes doc. Problems: Chapter 10: 17, 21, 41, 43. Chapter 12: 23, 25. Chapter 13: 1, 5, 9, 15, 17, 18. Lab: As always, we start the semester with proper lab safety procedures. Then we'll perform Exercise 2, The Oscilloscope
2	We finish chapter 13 and launch into chapter 14 with an examination of reactance and impedance. Reading: Finish chapter 13 by monday and begin chapter 14. Problems: Chapter 13: 29, 41, 43. Chapter 14: 1, 7, 9, 13, 17, 23, 25. Lab: Exercise 1, Problem session and math review
3	This week we introduce AC power and complex numbers. Complex numbers are extremely important- you can't do the remaining material without them, so make sure that you master the concepts. Reading: Finish chapter 14. Problems: Do first 6 problems from Weekend Fun Worksheet. Chapter 14: 29, 31, (The problems in the 40's are multi-part and may take a while. You must be able to do these. Consider it an investment in time) 41, 42, 43, 44, 45, 48, 49, 53. Lab: Exercises 3 & 4, RLC Components
4	We now begin elementary AC network analysis in chapter 15. The first topic is series networks. Reading: Start chpater 15.Check out the series RL simulation doc. Problems: Finish remaining problems from Weekend Fun Worksheet. Chapter 15: 1, 3, 5, 7 (hits all the bases), 15, 19, 21 (you'll be seeing this again in Op Amps and Telecom!), 25. Lab: Exercises 5 & 6, Series RL and RC Networks
5	This week we look at parallel networks and introduce series-parallel networks. Reading: Finish chapter 15 and start chapter 16 by week's end. Problems: Chapter 15: 27, 33, 39. Chapter 16: 1, 5. Lab: Exercise 7, Phase Measurements
6	We conclude with series-parallel networks and have a test. Reading: Finish chapter 16. Problems: Chapter 16: 9, 13. Lab: Exercises 8 (parts 1 and 2) and 20 (part 1), Series RL and RC Networks
7	Our next major topic is network theorems and analysis. This will be spread over a few weeks. This week we start with chapter 17 on methods of analysis (source conversions, dependent sources, mesh, nodal, etc.) Reading: First portion of chapter 17. Problems: Chapter 17: 1, 3, 5, 7 (imagine doing this entirely by hand), 15, 17. Start the Mesh, Nodal, et al. Worksheet. Lab: Exercises 8 (part 3) and 20 (part 2), Series RLC Networks
8	We finish off methods of analysis and begin network theorems (Superposition, Thevenin, Norton). Reading: Finish chapter 17 and begin chapter 18. Problems: Chapter 17: 35, 41. Chapter 18: 1, 12, 27. Continue the Mesh, Nodal, et al. Worksheet. Lab: Exercise 9 (parts 1 and 2), Parallel RL and RC Networks
9	This week we conclude network theorems (Maximum Power Transfer, Substitution, etc). By the end of the week we'll begin AC power. Reading: Finish chapter 18 and begin chapter 19 by week's end. Problems: Chapter 18: 39, 41, 45, 47. Chapter 19: 3, 5. Lab: Exercise 9 (part 3), Parallel RLC Network
10	We finish AC power this week and have a test (probably the end of the week). Reading: Finish chapter 19. Problems: Chapter 19: 7, 11, 15, 17, 19. Finish the Mesh, Nodal, et al. Worksheet. Lab: Exercise 10, Series-Parallel Networks
11	This week we begin another major topic: frequency response and resonance. We will be working through chapter 20 and 21 concurrently. Only a portion of chapter 21 will be examined, primarily as applications. The first item of interest is series resonance. This will take up about one week. Reading: Begin chapter 20 (up through section 7) and 21 (sections 4, 5, and 6).Read the parallel-series transform proofs Problems: Chapter 20: 1, 3, 5, 7, 11 (requires some thought) Chapter 21: 19, 23 (do plots in MultiSIM).Try the resonance problems worksheet Lab: Exercise 11, first half, Thevenin's Theorem
12	This week we spend on parallel resonance. Reading: Finish chapters 20 and 21 (sections 7 and 8). Problems: Chapter 20: 13, 15, 21, 25 (a good test of your knowledge) Chapter 21: 27, 31 (do plots in MultiSIM). Lab: Exercise 11, second half, Maximum Power Transfer
13	When we have completed resonance, we begin with chapter 23, Polyphase Power. Reading: Start chapter 23. Problems: Chapter 23: 3, 5, 7, 11, 13 Lab: Exercise 12, Series Resonant Circuit
14	We finish off polyphase power and begin chapter 25, Transformers (end of the week). Reading: Finish chapter 23 and start chapter 25. Problems: Chapter 23: 19, 21, 27, 28, 32, 39 Chapter 25: 1, 5. Lab: Exercise 13, Parallel Resonant Circuit
15	We wrap up transformers and have our last in-class test (time permitting). Reading: Finish chapter 25. Problems: Chapter 25: 9, 13, 23, 25 Lab: Course review, or time permitting, computer simulation of series-parallel resonant circuits.