||This course covers sinusoidal steady-state analysis, AC power, magnetically coupled circuits, Laplace transform methods, frequency response, basic filters, two-port networks and computer-aided analysis.
|| ECE 1201
|| ECE 1203
- Demonstrate ability to apply knowledge of mathematics, science and engineering to analyze linear circuits.
- Demonstrate ability to apply phasor analysis methods to analyze linear circuits operating under sinusoidal steady-state conditions.
- Make power calculations (average power, effective values, apparent power and complex power) on linear circuits operating under sinusoidal steady-state conditions and perform power factor correction.
- Analyze circuits containing mutually coupled coils, linear transformers or ideal transformers.
- Apply s-domain techniques (Laplace transform) to analyze the behavior of linear circuits.
- Derive the frequency response (magnitude response and phase response) of simple resistance-inductance, resistance-capacitance and resistance-inductance-capacitance circuits.
- Analyze and design simple passive filters.
- Derive the y, z, h and t parameters for a two-port network and analyze circuits using these parameters.
- Demonstrate ability to analyze linear circuits using the latest tools, techniques and skills.
- Perform PSpice simulations (DC bias point, transient, and AC sweep analysis) of circuits containing resistors, capacitors, inductors and transformers with independent and dependent sources.
|MnTC goal areas:
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