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Course Criteria
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3.00 Credits
Prerequisite: EEL 3111, MAP 2302 or permission of the instructor. Electric and magnetic fields and forces, Maxwell's equations in point and integral form, plane wave propagation, energy and power.
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4.00 Credits
Prerequisites: A programming language. This course covers basic digital design technology. Topics include number systems, boolean algebra, combinational and sequential circuit design and analysis, hardware description language, and programmable logic devices. Laboratory is included. (A laboratory fee of $60 will be assessed.)
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3.00 Credits
Prerequisite: COP 2220. This course covers fundamental software and hardware aspects of embedded systems applications and object-oriented software design and development. Weekly programming assignments will focus on solving engineering problems utilizing embedded controllers and microprocessors. Topics will include but not be limited to: programming concepts, graphical user interfaces, data structures, real-time systems and distributed process control. Emphasis is on applying embedded controllers to solve advanced engineering problems. This course has a laboratory component.
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3.00 Credits
Prerequisites: EEL 3472 Electromagnetic fields and applications of permission of instructor This course focuses on fiber optic waveguides. Topics covered in the course include optical sources, detectors, receivers, transmission systems and fiber-based broadband communication networks.
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3.00 Credits
Prerequisites: EEL 4657C. This course covers the design and analysis of control systems using state-space methods. Topics include linear algebra, modeling of physical systems as state-space equations, transformations, stability, controllability and observability, state feedback, observer design, introduction to optimal control, and Riccati equations.
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4.00 Credits
Prerequisites: EEL 3135, EEL 4744C This course covers the design and analysis of control systems using transfer function-based methods. Topics include modeling of physical systems as transfers functions, stability analysis, design specifications, design of controllers by root locus method, frequency response techniques, computer-added analysis and design. Laboratory experiments include position and speed controls using proportional, PI, PD, and PID controllers. (A laboratory fee of $60 will be assessed.)
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4.00 Credits
Prerequisites: EEL3701C, EEL3304 This course covers the analysis, design, simulation, and implementation of advanced combinational logic circuits and synchronous/asynchronous state machines using modern programmable logic devices. Electrical and timing characteristics of physical devices are covered. CAD-based design and development using hardware description languages are used throughout the course. Laboratory is included.
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3.00 Credits
Prerequisite: EEL 3701C. Corequisite: EEL 4713L. Modern computers are becoming highly integrated complex devices. To understand their complex architecture it is not possible to separate the hardware and the software. So much of the computer hardware design depends on what type of applications the use intends to run and especially the operating system. This senior level electrical engineering class is about computer architecture. To provide a focus to the course and some hands-on, in-depth practical experience, we will work closely with the Motorola MC68908GP32 Microcontroller and the MicroC/OS-II real-time kernel.
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1.00 Credits
Prerequisite: EEL 3701C. Corequisite: EEL 4713. This lab is to be taken with EEL 4713. We will systematically working with a professional grade C compiler to generate code for the HC08 microprocessor. We will also develop simple device drivers for our peripheral components. In the lab, each student will construct a modern power supply and build a MicroOsprey08 computer using surface mount components. The MicroOsprey08 takes a daughter board and each student will design his or her own daughter board for interface for their class project. The class project will be a working computer with both hardware and software built by the student.( A laboratory fee of $60 will be assessed)
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4.00 Credits
Prerequisite: EEL 3701C This course covers the elements of microcontroller-based systems, hardware interfacing, software design, and applications. Topics include microcontroller software architecture, instruction set, addressing modes, memory map, gpios, analog-to-digital converters, timers, input capture, output compare, PWM, communication interfaces, and interrupts, code development using assembly languages and C. weekly laboratory experiments.
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