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Course Criteria
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3.00 Credits
A minimum GPA of 2.5 in all ECE courses is required for enrollment. Variable credit course.
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3.00 Credits
Variable credit course.
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3.00 Credits
Application of the basic laws and techniques of circuit analysis to AC circuits. Complex numbers and algebra with an emphasis on phasor representation of circuits. Calculation of the frequency response of circuits with R, L, and C components, independent sources, controlled sources, and operational amplifiers. Analysis of AC steady-state circuits and determination of average power. Magnetically coupled circuits. Laplace and Fourier transforms. Representation of circuits by two-port models. Pre: 2704. Co: 3074. (3H,3 Credits).
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3.00 Credits
For students in curricula other than ECE. Fundamentals of electric circuits: circuit laws and network theorems, operational amplifiers, energy storage elements, response of first and second order systems. AC steady state analysis. Pre: PHYS 2306. Co: MATH 2214. (3H,3 Credits).
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3.00 Credits
Construction, analysis, and characterization of circuits with student-owned Lab-in-a-Box system. Experiments include: sinusoids and phasors including impedance, admittance, and Kirchhoff's laws; sinusoidal steady-state including node and mesh analysis, Thevenin and Norton equivalent, and op amps; ac power analysis including instantaneous and average power, power factor, and complex power; magnetically coupled circuits including mutual inductance, energy in a coupled circuit, and transformers; frequency response including transfer functions, Bode plots, resonance, and passive and active filters; and two-port circuits. A C- or better is required for all prerequisites. Pre: 2074. Co: 3004. (3L,1 Credits).
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3.00 Credits
Maxwell's equations and their application to engineering problems. 3105: transmission lines, electrostatics, magnetostatics. 3106: time-varying fields, Maxwell's Equations, waves, propagation, guided waves, radiation. Pre: PHYS 2306, MATH 2224, (ECE 2004 or ECE 2004H) for 3105; 3105 for 3106. (3H,3 Credits).
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3.00 Credits
Small signal modeling of transistors. Basic architecture and functionality of linear amplifiers including transistor biasing circuits, current sources, differential amplifier, common emitter amplifier, common source amplifier, emitter follower, and source follower. Operational amplifier operating principles, circuit design, and applications. Frequency response of single stage and multistage amplifiers. Feedback systems and stability analysis of amplifiers. Pre: 2204, 2704. Co: 3274. (3H,3 Credits).
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3.00 Credits
For students in curricula other than EE and CpE. Fundamentals of electronics, including basic device principles. Circuit applications include digital, op-amp, and analog analysis for industrial applications. I,II,IV. Pre: 3054. (2H,3L,3 Credits).
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3.00 Credits
Design, build, and test amplifiers and other electronic circuits to meet specifications. Bipolar and field-effect transistors, diodes, integrated circuits such as operational amplifiers, and passive components are used. Gain, bandwidth, input and output impedance, positive and negative feedback, and circuit stability are implemented in the designs. Digital oscilloscopes, ammeters, voltmeters, function generators, and power supplies are used. A grade of C- or better is required in all pre-requisite courses. Pre: 2274, 3074. Co: 3204. (3L,1 Credits).
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3.00 Credits
Basic concepts of AC systems, single-phase and three-phase networks, electric power generation, transformers, transmission lines, electric machinery and the use of power. Pre-requisite 3004 with C- or better. Pre: 3004. (3H,3 Credits).
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