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Course Criteria
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3.00 Credits
This laboratory course is related to the topics in EE 335. Students get hands-on experience with transformers, induction machines, synchronous machines, and a small-scale physical model of a transmission line. They experimentally validate the electrical models and characteristics of these components of the power systems derived in EE 335. Corequisite: EE 335. 1 semester hour.
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3.00 Credits
This course focuses on theory, modeling, and performance of power system components, such as synchronous machines, induction machines, transformers, and transmission lines. Prerequisite: ENGR 220. 3 semester hours
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4.00 Credits
This course focuses on the representation, design, and analysis of continuous and discrete-time signals and systems. Topics include convolution, Fourier series, Fourier transform, Nyquist sampling theorem, z-transform, and linear filters. Associated laboratory work. Prerequisite: ENGR 220. 4 semester hours
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1.00 Credits
An introduction to the operation of solid state devices at the circuit component level through various modeling and graphical methods. Analytical techniques include small signal circuit models, biasing considerations, and AC/DC load lines. The OPAMP, PN junction diode, Zener diode, BJT and FET family of transistors are presented. Applications include rectifiers, regulators and amplification schemes. One-credit laboratory is included. Prerequisite: ENGR 219; PHYS 261 is also strongly recommended. 4 semester hours
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4.00 Credits
Building on the inventory of solid-state devices introduced in EE 337, this course develops greater sophistication in circuit applications. Topics such as differential/difference amplifiers, frequency response, GBW product, BW compensation, power amplification, negative feedback amplifier theory, stability, and positive feedback oscillators are covered. Students must complete a design project. Prerequisites: EE 337 and ENGR 220. 4 semester hours
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4.00 Credits
Introduction to basic data structures and abstract data types such as arrays, tables, stacks, queues, trees, and graphs; use of recursive algorithms in problem solving; introduction to the notion of computational complexity and its use in analysis of algorithms; comparison of various algorithms for sorting and searching; algorithms for solving engineering problems, including depth-first and breadth-first search, shortest path, backtracking and maximal flow algorithms; introduction to the development of algorithms for parallel and distributed architectures. Students must complete a design project. Prerequisite: ENGR 112. Corequisite: EE 342 or by permission of instructor. 4 semester hours
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3.00 Credits
This course is an introduction to C++ procedural programming, control structures, functions, arrays, pointers, and strings. Extensions of C++ to object-based programming include classes, abstract data types, encapsulation, member access control, constructors, and destructors. C++ is an object-oriented language that uses operator overloading, inheritance, virtual functions, polymorphisms, I/O streams, templates, and exception handling. The course is intended primarily for students in the electrical engineering program enrolled in the computer track. Prerequisite: ENGR 112. 3 semester hours
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3.00 Credits
Senior elective offering special topics according to student and faculty interest. 1-3 semester hours
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2.00 Credits
This laboratory course is based on material in EE 471, EE 473, and EE 477. Students design, implement, and test circuits or systems in controls, computers, and communications. Prerequisites: EE 471, 473, 477. 2 semester hours
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3.00 Credits
Application of Maxwell's equation to problems in electromagnetic fields. Power and communication transmission lines, waveguides, cavity resonators, antennas, and other radiating systems. Prerequisite: EE 313. 3 semester hours
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