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| Course ID: | ENGR 2170-2170L. 3 hours. 2 hours lecture and 2 hours lab per week. | | Course Title: | Applied Circuit Analysis | Course
Description: | An overview of basic circuit elements, circuit models, and techniques for circuit analysis. The course emphasizes the application of Kirchhoff’s laws in determining the transient and steady state response for inactive and active circuit elements of first and second order systems. | | Oasis Title: | Applied Circuit Analysis | | Duplicate Credit: | Not open to students with credit in ENGR 2170E | | Prerequisite: | PHYS 1212-1212L or PHYS 1252 | | Pre or Corequisite: | MATH 2700 or MATH 2700E | Semester Course
Offered: | Offered every year. | | Grading System: | A-F (Traditional) |
| | Course Objectives: | 1) Analyze a DC and AC Resistive Circuit Using
a. Kirchhoff’s Laws
b. Thevenin’s and Norton’s Theorems
c. Superposition
d. Source Transformation
2) Determine Maximum and Average Power in DC and AC
3) Determine Power Factor and Correction
4) Analyze Steady State AC and DC Circuit with Ideal Op Amps
5) Analyze Steady State AC and DC Circuit with Ideal Transformer
6) Analyze Steady State AC and DC Circuit with Ideal Diode and
Transistors
7) Determine First Order Network Responses
8) Determine Second Order Network Responses | | Topical Outline: | Introduction to Electricity
Voltage and Current
Series and Parallel Resistive Circuits
AC Representations: Phasors, Complex, Rectangular, Polar
Capacitors and Inductors
Source Transformation
Superposition
Thevenin’s and Norton’s Theorems
Average and Maximum Power Transfer
AC Power
Power Factor and Correction
Ideal Transformer Circuits
Ideal Diode Circuits
Ideal Transistor Circuits
Ideal Op Amp Circuits
1st Order Network Transient Response
2nd Order Network Transient Response | | Honor Code Reference: | All academic work must meet the standards contained in "A
Culture of Honesty." Students are responsible for informing
themselves about those standards before performing any
academic work. | |
| Course ID: | ENGR 2170E. 3 hours. |
| Course Title: | Applied Circuit Analysis |
Course
Description: | An overview of basic circuit elements, circuit models, and techniques for circuit analysis. The course emphasizes the application of Kirchhoff’s laws in determining the transient and steady state response for inactive and active circuit elements of first and second order systems. |
| Oasis Title: | Applied Circuit Analysis |
| Duplicate Credit: | Not open to students with credit in ENGR 2170 |
| Nontraditional Format: | This course will be taught 95% or more online. |
| Prerequisite: | PHYS 1212-1212L or PHYS 1252 |
| Pre or Corequisite: | MATH 2700 or MATH 2700E |
Semester Course
Offered: | Offered every year. |
| Grading System: | A-F (Traditional) |
|
| Course Objectives: | 1) Analyze a DC and AC Resistive Circuit Using
a. Kirchhoff’s Laws
b. Thevenin’s and Norton’s Theorems
c. Superposition
d. Source Transformation
2) Determine Maximum and Average Power in DC and AC
3) Determine Power Factor and Correction
4) Analyze Steady State AC and DC Circuit with Ideal Op Amps
5) Analyze Steady State AC and DC Circuit with Ideal Transformer
6) Analyze Steady State AC and DC Circuit with Ideal Diode and Transistors
7) Determine First Order Network Responses
8) Determine Second Order Network Response |
| Topical Outline: | Introduction to Electricity
Voltage and Current
Series and Parallel Resistive Circuits
AC Representations: Phasors, Complex, Rectangular, Polar
Capacitors and Inductors
Source Transformation
Superposition
Thevenin’s and Norton’s Theorems
Average and Maximum Power Transfer
AC Power
Power Factor and Correction
Ideal Transformer Circuits
Ideal Diode Circuits
Ideal Transistor Circuits
Ideal Op Amp Circuits
1st Order Network Transient Response
2nd Order Network Transient Response |
Syllabus:
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