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Course Criteria
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3.00 Credits
This course considers the application of the time-harmonic Maxwell’s equations to electromagnetic wave propagation, transmission lines, wave guides, antenna, and methods for numerical analysis. Matlab and computer aided design software is used for simulation of electromagnetic wave propagation in engineering applications. Mode: Lecture.
Prerequisite:
EE 3712 (0220)
Corequisite:
EE 3723 (0223)
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1.00 Credits
Laboratory for EE 3722 (0222): Electromagnetic Wave Propagation. Mode: Laboratory.
Prerequisite:
EE 3712 (0220)
Corequisite:
EE 3722 (0222)
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3.00 Credits
Fundamentals of electromechanical energy conversion, electromechanical devices, and systems. Energy state functions, force-energy relationships, basic transducers, and introduction to AC and DC machines. DC motors and generators, synchronous motors and generators, induction motors, and transformers.
Mode: Lecture.
Prerequisite:
EE 2322 (0165), EE 3712 (0220) and MATH 3041 (0251)
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4.00 Credits
This course covers continuous time signal models, convolution, and superposition integral and impulse response. Students also study Fourier series and periodic signals, Parseval’s theorem, energy spectral density, Fourier transform and filters, discrete time signals, difference equations, Z transforms, and discrete convolution. This honors course will be very challenging.
Prerequisite:
EE 2922/2923 and MATH 2043
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3.00 Credits
Students study finite-state machines in process control, assembly language programming of the Intel i186EX 16-bit microprocessor and its hardware system implementation. Additional topics include: dynamic RAM read/write and DMA access, hardware interrupts, I/O port addressing, peripheral interface design, microprocessor addressing modes, op codes, and arithmetic computation. A stimulating and challenging Honors course.
Prerequisite:
EE 2922, 2612 and 2613
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1.00 Credits
This course is the hardware and software laboratory in microprocessor systems.
Prerequisite:
EE 2612/2613
Corequisite:
EE 3914
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1.00 - 4.00 Credits
Topics vary by semester. See the course schedule for the specific topic each semester.
Prerequisite:
Special authorization required for non-majors
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3.00 Credits
This course emphasizes solving software design problems as well as advanced study of electronic devices and their application to linear, non-linear, and digital circuits. Further topics include: transistors, FET’s filters, oscillators, amplifiers, A/D, D/A, some integrated circuits, and VLSI systems.
Mode: Lecture.
Prerequisite:
EE 3312 (0254)
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3.00 Credits
This course introduces the hierarchical design methodology of VLSI and the study of basic logic elements and design methods in MOS and CMOS, as well as the physics of MOS devices and the fabrication process. Design rules and computation of circuit parameters from layout, and system level design are further topics. Mode: Lecture and Laboratory.
Prerequisite:
EE 4312 (0355)
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3.00 Credits
Analysis and design of control systems using state variable techniques, including discrete and continuous state variable analysis, linear vector spaces, eigenvalues, eigenevectors, controllability, observability, stability, state feedback design, and observer design. Mode: Lecture.
Prerequisite:
EE 3412 (0282)
Corequisite:
EE 4413 (0351)
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