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Course Criteria
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3.00 Credits
Lec 2, lab 1. Prereq: ELEC 421/821. Analysis of BJT's and MOSFET's from a first principle materialsviewpoint. Static and dynamic analysis and characterization. Device fabrication processes.
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3.00 Credits
Prereq: Senior or graduate standing. Physics of plasmas and gas discharges developed. Includes basic collisional theory, the Boltzman equation and the concept of electron energy distributions. Results are related to specific gas discharge systems used in semiconductor processing, such as sputtering, etching, and deposition systems.
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3.00 Credits
(3 cr) Lec 3. Prereq: PHYS 213. Introduction to semiconductor fundamentals, charge carrier concentration and carrier transport, energy bands, and recombination. PN junctions, static and dynamic, and special PN junction diode devices.
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3.00 Credits
(PHYS 422/822) (3 cr) Prereq: PHYS/ASTR 213 or CHEM 481/881, MATH 220/820 or 221/821, or permission. Introduction to structural, thermal, electrical, and magnetic properties of solids, based on concepts of atomic structure, chemical bonding in molecules, and electron states in solids. Principles underlying molecular design of materials and solidstate devices.
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3.00 Credits
Prereq: ELEC 216. Power systems principles, three phase circuits, transmission line parameters, transmission line modeling, transformers, per unit analysis, generator modeling, and power flow analysis.
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3.00 Credits
(3 cr) Prereq: MATH 221. Applications of partial differential equations, matrices, vector analysis, complex variables, and infinite series to problems in electrical engineering.
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3.00 Credits
Prereq: ELEC 304. Classical (transfer function) and modern (state variable) control techniques. Both time domain and frequency domain techniques are studied. Traditional proportional, lead, lag, and PID compensators are examined, as well as state variable feedback.
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3.00 Credits
Prereq: ELEC 304. In-depth introduction to the theory of linear systems. Includes: the concept of state and state-variable models of both timevarying and time-invariant continuous and discrete-time systems; linear state feedback, controllability and pole placement design; observability and observer design, stability theory; and realization theory.
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3.00 Credits
Prereq: ELEC 438/838. Characteristics and generating units. Control of generation, economic dispatch, transmission losses, unit commitment, generation with limited supply, hydrothermal coordination, and interchange evaluation and power pool.
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3.00 Credits
Prereq: ELEC 304 and 361. Fundamental design concepts, trade-offs and design techniques of modern active filters are studied. Active R networks, compensation of op-amp imperfections, switched capacitor filters introduced.
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