ECET 2111: Circuits II

3 Credit Hours

Prerequisite: ECET 1101 and ECET 1101L
Concurrent: MATH 2202 and ((PHYS 2212 and PHYS 2212L) or (PHYS 1112 and PHYS 1112L))
Description
This course primarily extends the circuit analysis techniques learned in ECET 1101 to circuits containing all three types of passive circuit elements and sinusoidal sources. Several adjunct topics are then presented including analysis of complex networks, dependent sources, transformers, 3-phase circuit analysis, resonance, filters and Bode plots. Laboratory exercises reinforce theoretical concepts presented in the class and provide various opportunities to become proficient in working with standard instrumentation in electrical engineering technology.

Course Learning Outcomes
Students who successfully complete this course will be able to:

Effectively use several network theorems to determine AC voltages, currents and impedances for RLC circuits.
Compute the power components of an AC network, including the power factor correction.
Analyze and implement series and parallel resonant circuits.
Design series and parallel resonant circuits for a given Q, band width, and resonant frequency.
Determine the mathematical transfer function of a given RL or RC network.
Accurately plot the gain and phase vs. frequency response from the transfer function of an RC or RL network.
Analyze three phase systems, including power calculations, for all four configurations (delta-wye, delta-delta, wye-wye, and wye-delta).
Effectively analyze transformer circuits utilizing transformer specifications.
Determine the reflected and coupled impedances of transformer circuits.
Utilize two-port parameters in determining voltage gains, current gains, input and output impedances.