Course Information
Description
This course explores electrical engineering concepts including phasors and sinusoidal steady-state analysis and power. Resonant circuits. Mutual inductance. Transient response of linear networks with Laplace transform.
Total Credits
4
Course Competencies
-
Analyze electrical circuits with sinusoidal excitation using phasor analysis techniques
-
Calculate and interpret AC power quantities including real power, reactive power, apparent power, power factor, and RMS signal levels
-
Analyze transient responses of first- and second-order circuits using analytical methods, including Laplace transform techniques
-
Determine the frequency response and phase response of electrical networks
-
Design operational amplifier circuits for signal processing and amplification applications
-
Analyze three-phase electrical circuits
-
Analyze circuits containing mutual inductance and transformer coupling
-
Use laboratory instruments—including function generators and oscilloscopes—to measure and interpret phase shift, transient response, and frequency response in electrical circuits
-
Construct and test electrical circuits using breadboarding and soldering techniques
-
Use SPICE or equivalent circuit simulation software to model and analyze electrical circuits
-
Prepare clear and well-organized engineering laboratory reports documenting circuit analysis, experimental procedures, measurements, and conclusions
This Outline is under development.