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Catalog Course Description
Analysis of direct current and alternating current linear electric circuits;
laws and concepts that characterize their behavior. Operational amplifiers;
sinusoidal steady-state analysis: phasor concept; single phase circuits
power analysis.
3 credits
Prerequisites: MATE 3063 (Calculus III), FISI 3172 (Physics II)
Course Purpose
This course is designed to introduce 3rd year students to electric
circuit analysis techniques, including the Kirchhoff’s Laws. Basic
circuit elements such as, transformer, operational amplifiers, resistors,
inductors, capacitors, dependent and independent sources are introduced.
Single phase circuits power analysis and first-order linear circuit analysis
techniques are also presented.
Course Goals
After completing the course, each student should be able to analyze
a DC or an AC electric circuit using the techniques learned in class. In
addition, the student should be able to solve circuit problem containing
operational amplifiers. The student should be able to perform sinusoidal
steady-state power calculations and to analyze first order RC, RL, and
RLC circuits.
Topics Covered
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Circuit variables and units
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Circuit Elements, Kirchhoff’s Laws.
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Resistive Circuits.
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Techniques of Circuit Analysis
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The ideal Operational Amplifier and its inverting and non-inverting configurations
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Inductance (L), Capacitance (C) and Mutual Inductance (the transformer
in the time domain)
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The Phasor and the frequency domain
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Power; instantaneous, average (P), reactive (Q), complex (S) and power
factor (pf). Maximum power transfer
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RC, RL and RLC Circuits
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