ENGR 252 - Electrical Circuits II

1. Calculate real power (average power), reactive power, apparent power, and complex power for AC single-phase sinusoidal steady-state circuits.
2. Determine the RMS value of periodic signals.
3. Solve for maximum power transfer in single-phase sinusoidal steady state circuits.
4. Transform circuit elements in the S domain and analyze circuits in s domains.
5. Analyze series and parallel RL, RC, and RLC frequency selective circuits selective circuits (low-pass filters, high pass filters, band-pass and band-reject filters).
6. Use transfer function to calculate step and impulse response.
7. Use transfer function to calculate the steady-state sinusoidal response.
8. Plot straight-line amplitude and phase the first-order poles and zeroes, and amplitude of complex poles and zeroes (Bode Diagrams).
9. Calculate real, reactive and complex power in a simple balance three-phase circuit.
10. Use the ideal op-amp model to design first-order low pass and high-pass filters.
11. Use low-pass and high-pass active filters to design band pass and band-reject active filters.
12. Determine Fourier series of periodic signals in trigonometric and exponential forms.
13. Apply Fourier series for circuit analysis.

• Transfer function
• LaPlace transform in circuit analysis
• Low-pass filters
• Op-amp band pass and band reject filters
• High-pass filters
• Trigonometric form of the Fourier series
• Band-pass filters
• First-order low-pass and high-pass filters
• Bode diagrams
• Fourier series analysis
• Band-reject filters

 
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