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Course Criteria
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1.00 Credits
1 hr. This laboratory course provides a hand-on approach to digital fundamentals through the use of Complex Programmable Logic Devices (CPLDs and FPGAs). A number of laboratory projects will be completed. Early experiments concentrate on basic logic devices, and then more complex combinatorial circuits follow, including adders, multiplexers, encoders, and decoders. Low level memory devices including latches and flip-flops, counters and registers are developed. The use of advanced logic device technology prepares students for work using an industry-standard design environment. Corequisite: EE 320
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3.00 Credits
3 hrs. A study of number systems, binary arithmetic, basic structure and operation of microcomputer systems. The microprocessor will be studied in both machine code and assembly language levels. Students will write code in assembly language, interface external devices to the microcomputer system, and study bus protocols. Prerequisite: EE 320
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3.00 Credits
- 3 hrs. This course is a continuation of the material presented in EE 203 and includes concepts of advanced electronic circuit design and analysis. Prerequisite: EE 203.
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1.00 Credits
- 1 hr. This course is the companion lab to EE 333.
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1.00 Credits
Lab. 1 hr. This course consists of experiments for determining the operating characteristics of electrical machines. Transformers, induction motors, synchronous machines, and DC machines are covered. Stepper motors, brushless DC motors, and other special machines are introduced. Prerequisite: EE 202
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3.00 Credits
3 hrs. Principles of structured VLSI design with emphasis on MOS field effect transistor characteristics; VLSI fabrication techniques for MOS circuits; circuit characterization and performance estimation, logic design and testing. Prerequisite: EE 305.
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1.00 Credits
Lab. 1 hr. This lab is designed to support the concepts taught in areas of microwaves and transmission lines, the seven layered communication protocol, and lecture courses offered in the junior year of the electrical engineering curriculum. Prerequisite: EE 301
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3.00 Credits
3 hrs. A study of energy conversion; D.C. machines, motors, generators, principles of operation, characteristics, and applications; transformers and induction machines, principles of operation, characteristics, and applications; and synchronous machines, alternators, synchronous motors, principles of operation, characteristics, and applications. Prerequisite: EE 303
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3.00 Credits
3 hrs. A study of open and closed loop systems; time domain analysis; transfer functions, poles, and zeros; frequency response, Bode plots; root locus methods; system stability, Routh-Hurwitz criterion, Nyquist criterion; system compensation and design; state space methods, state equations, state transition matrix, and system response. Prerequisite: EE 301
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3.00 Credits
3 hrs. A study of communication signals and systems; AM and FM methods; pulse code modulation; multiplexing, and digital communications. Prerequisite: EE 301
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