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Course Criteria
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0.00 - 3.00 Credits
1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Design and analysis of electronic circuits and devices. Semiconductor processes, discrete devices and integrated circuits. Equivalent circuits and modeling, Linear and digital integrated circuit applications. Prerequisite: EENG 0322, EENG 0325. Corequisite EENG 330L.
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0.00 - 3.00 Credits
1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Continued study of vector calculus, electrostatics and electromagnetics. Maxwell's equation. Introduction to electromagnetic waves, transmission lines, and radiation from antennas. Prerequisites EENG 0322, MATH 0209, and PHYS 0311. EENG.
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3.00 Credits
1st and 2nd Semester. Lect. 2, Lab 3, 3 credits. Operation and applications of microprocessors including system level organization, analysis of specific processors and software and hardware interface design. Microprocessor development systems including in-circuit emulation, programming using higher-level languages, and implementation of application algorithms. Laboratory work is required. Prerequisites: EENG 0221, EENG 221L, EENG 260, EENG 260L, and CSCI 0229.
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0.00 - 3.00 Credits
1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. (For non EENG majors only). Circuit analysis; network theorems, electronic devices and engineering applications, electromagnetics, digital devices, electromechanical systems, electronic circuits, instruments and instrumentation systems. Prerequisites: PHYS 0311, MATH 0208. Corequisite: EENG 380L.
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0.00 - 3.00 Credits
1 st and 2 nd Semester. Lect. 3, Lab 0, 3 credits. Engineering and moral complexity; moral reasoning; engineering as social experimentation; commitment to safety; workplace responsibilities and rights; global issues; case studies; contemporary engineering issues. Prerequisite: Junior Standing.
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0.00 - 3.00 Credits
1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Physics of semiconductor devices. Properties of materials and devices used in electrical engineering. Theory of operation of semiconductor devices to include semiconductor fundamentals, PN junction diodes, bipolar junction transistor, and field-effect transistors. Prerequisites: EENG 0325, and PHYS 0311.
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1.00 - 3.00 Credits
1st and 2nd Semester. Lect. 0, Lab 3, 1 credit. Laboratory and design experience to accompany EENG 0413. Prerequisite: EENG 0325 and PHYS 0311. Corequisite: EENG 413.
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0.00 - 3.00 Credits
1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Various types of energies and their convertibility. The electromagnetic field; forces in EM fields; induced electromagnetic forces and rotating magnetic fields; the DC Machine, generator and motor operation and performance characteristics. Single phase and three phase transformers; the Induction Machine; three phase and single phase induction motors. Three phase synchronous machine-performance and operating characteristics; parallel operation of three phase alternators. Prerequisite: EENG 0333.
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0.00 - 3.00 Credits
1st and 2nd Semester. Lect. 3, Lab 0, 3 credits. Fundamental principles of open loop and closed loop automatic control systems. System functions. Analysis of closed loop control systems and their transient and steady state response; stability and design of stabilizing controllers. Bode plots, polar plots, root locus and compensation network methods. State variable analysis. Prerequisite: EENG 0323.
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3.00 Credits
1st Semester. Lect. 2, Lab 3, 3 credits. Fundamental principles of design of instrumentation to measure and control physical quantities. Electromechanical transducers. Signal analysis, processing and transmission. Display System. Prerequisites: EENG 0323, EENG 0330 and EENG 330L.
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