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Transcript
ECE 103: DC Circuit Analysis IN OUT Concepts: Differential and Integral Calculus - Can differentiate and integrate exponentials, polynomials, and trigonometric functions Complex Numbers - Can resolve complex numbers into Cartesian or polar representatives - Can do complex algebra Graphics, Functions - Understands elementary theory of functions (continuity, monotinicity, inversion, etc.) Pre-requisites: - MCC160 - Calculus for physical scientist - Electrical variables and systems of units • Charge • Resistance, Capacitance, Inductance • Current and voltage • Power and energy - Ohm’s Law - Kirchhoff’s Law - Series and parallel connections - Circuit Analysis • Nodal and Mesh analysis - Circuit theorems • Thevenin and Norton equations - Source transformation - Operational amplifiers • Ideal Op Amp, OpAmp circuits - Source-free RC/RL circuits - Step response RC/RL circuits - Source free RLC circuits - Step response RLC circuits Circuit Analysis - Can use node and mesh analysis, source transformation and linearity to determine node voltage and loop currents - Can find Thevenin and Norton Equivalent Circuits - Can analyze basic OpAmp circuits Laboratory Skills - Can analyze measurements - Has command of lab and measurement procedures - Can write lab reports Applications: - DC voltage and current power supply design - Summing amplifier - Differential amplifier - Digital to analog converter - Cascade amplifiers - First order RC, RL circuits - Delay circuits Tools: - MATLAB Modeling and Simulation - Has introduction to MATLAB - Understands role of modeling and simulation
