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C OLLEGE OF E NGINEERING DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING Professors: H. Robert Farrah Ronald C. Foster (chair) Robert D. Hatch, emeritus Richard R. Johnston Richard S. Maslowski Kelvin Shih Lewis N. Walker Assistant Professor: Peter Csaszar EEE1002 INTRODUCTION TO ELECTRICAL AND COMPUTER ENGINEERING Co-requisite: MCS0093. Survey of the scope of electrical and computer engineering and the engineer’s role in society. Professional issues including ethics, sustainability and history of the profession will be covered. Basic electrical and computer engineering tools such as simulation, modeling, and other computing tools will be used. Lect. 2 hrs. 2 hours credit EEE2114 CIRCUITS I Co-requisites: MCS2423, PHY2423. Voltage current, power. Kirchoffs laws, Ohms law, resistance, independent and dependent sources, operational amplifiers. Formulation and solution of network equations, Mathcad, Spice, linearity and superposition, Associate Professors: Lisa M. Anneberg Michael J. Cloud Nabil Hachem, emeritus Mohammad H. Hassan William B. Kolasa Lecturers: Additional guest lecturers are assigned to selected courses and sections based on their specialties and expertise, and are listed in the faculty roster Thevenins theorem, maximum power transfer. Capacitance, inductance, mutual inductance. Sinusoidal steady state analysis, AC power, three phase systems. Transfer functions, frequency response, Bode diagrams, filters. First order transient responses. Lect. 4 hrs. 4 hours credit EEE2111 CIRCUITS 1 LAB Co-requisite: EEE2114. Safety. Proper use of test equipment. Measurement of resistances, measurement of constant voltages and currents, instrument loading, error analysis. Design of voltage and current dividers, T and PI attentuators. Measurement of power, source resistance, Thevenin parameters. Op amps, dependent sources, wave-forms, first and second order transient circuits. Balanced bridges, strain guages, thermistors, thermocouples. Lab. 2 hrs. 2 hours credit EEE2123 CIRCUITS AND ELECTRONICS (For non-EE majors) Co-requisites: MCS2423, PHY2423. Fundamental laws. Circuit parameters, elementary network theory. Forced and transient response, semi-conductor devices, electronic circuits, digital logic and counting circuits. Lect. 3 hrs. 3 hours credit EEE2211 DIGITAL ELECTRONICS LAB Co-requisite: EEE2213. Lab experiments dealing with the concepts from EEE2213, Digital Electronics. Experiments include studies of various logic gates, and the design of various combinational and sequential circuits. Lab. 2 hrs., Lab fee. 1 hour credit EEE2213 DIGITAL ELECTRONICS Prerequisite: Junior standing. Logic gates, minimization and design of combinational circuits, MSI and LSI circuits and applications, sequential circuit analysis and design. Lect. 3 hrs. 3 hours credit EEE3121 CIRCUITS 2 LAB Prerequisite: EEE2111, Co-requisite: EEE3123. Measurement of magnitude and phase of sinusoidal signals, measurement of magnitude and phase response as a function of frequency. Superposition, Thevenin, and Norton analyses in the frequency domain. Differentiators, integrators, constant current sources, transformers. Interface and filter design. Parasitic inductance, capacitance, and resistance. Lab 2 hrs. 1 hour credit EEE3123 CIRCUITS 2 Prerequisite: EEE2114. Ramp, step, and impulse functions. Second order transient responses, differential equations, transfer functions, convolution, impulse response. Laplace transforms, Fourier analysis, two-port networks. Lect. 3 hrs. 3 hours credit EEE3153 ELECTRICAL MACHINES AND CONTROLS (For non-EE majors) Prerequisite: EE2123. Magnetic circuits, DC and AC machines, transformers, linear systems, models and equations, time and frequency response of control systems, root locus, Bode plots, stability, control system design methods, sinusoidal steady state, three phase systems. Lect. 3 hrs. 3 hours credit EEE3161 INTRODUCTION TO EE LABS (For non-EE majors) Co-requisite: EEE3153. Electrical and electronic measurements, op-amps, diodes and rectifier circuits, bipolar junction transistors, field effect transistors, amplifiers, digital electronics. Physical system modeling, satisfying design and performance criteria. Fundamentals of DC and AC machine operations. Lab 2 hrs. 1 hour credit EEE3221 ADVANCED DIGITAL ELECTRONICS LAB Prerequisite: EEE2211, Co-requisite: EEE3223. Laboratory experiments covering the principles studied in EEE3223. PLDs, I/O and peripheral circuitry, image processing, digital signal processing, and other related topics. Lab. 2 hrs., Lab fee. 1 hour credit EEE3223 ADVANCED DIGITAL ELECTRONICS Prerequisite: EEE2213. Implementation of state machines using programmable logic devices (PLDs), design of computer hardware and related I/O circuitry using hardware description language VHDL. Memory control unit, graphics and image processing, digital signal processing, bus interface circuitry, communication devices, peripheral hardware design, and industrial control applications. Lect. 3 hrs. 3 hours credit 142 U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7
C OLLEGE OF E NGINEERING EEE3231 MICROPROCESSORS LAB Co-requisite: EEE3233. Study and design of assembly language and programming, hardware emulation, clock design and interface, input/output and memory design and interface. Design of a turnkey microcomputer system. Lab. 2 hrs. 1 hour credit EEE3233 MICROPROCESSORS Prerequisite: EEE2213, EEE2114. Architecture, timing, instruction set, memory and input/output techniques for various microprocessors, design of a microcomputer system. Lect. 3 hrs. 3 hours credit EEE3311 ELECTRONICS LAB Co-requisite: EEE3311. Experiments on power supplies voltage regulators, transistor class A amplifiers, timers, simple operational circuits, active filters, sample and hold circuits are performed. Lab. 2 hrs., Lab fee. 1 hour credit EEE3314 ELECTRONICS Prerequisite: EEE3123. Study and design of passive and active semiconductor devices, circuits, operational amplifiers, voltage comparator circuits and non-linear circuits, design of power supplies, voltage regulators, and timers. Solid state semi-conductor materials and characteristics will be covered. Lect. 4 hrs. 4 hours credit EEE3414 ELECTROMAGNETIC FIELDS AND WAVES Prerequisite: PHY2423. Vector analysis. Electrostatics and magnetostatics in free space. Fields in the presence of engineering materials. Time-varying fields and Maxwells equations. Plane electromagnetic waves. Transmission line theory. Lect. 4 hrs. 4 hours credit EEE3422 ADVANCED COMPUTER APPLICATION LAB Prerequisites: MCS3413, EEE3123, Co-requisite: EEE3313. Computation techniques for electrical engineering, including matrix methods and solution of differential and integral equations. Application of specialized programs for solving engineering problems. Use of computer simulation techniques. Lect. 1 hr., Lab. 2 hrs. 2 hours credit EEE3511 INTRODUCTION TO ELECTRICAL SYSTEMS LAB Co-requisite: EEE3513. Electrical safety, measurement of single phase and three phase AC voltages, currents and power. Transformers, relays, torque, power, and rotational speed. Lab 2 hrs. 1 hour credit EEE3513 INTRODUCTION TO ELECTRICAL SYSTEMS Prerequisite: EEE3123. Phasors, single phase AC power, three phase systems, three phase power, magnetic circuits, relays, transformers. Fundamentals of rotating machinery. National Electric Code, short circuit current calculations, fuses and circuit breakers. Lect. 3 hrs. 3 hours credit EEE4131 ELECTRICAL MACHINERY LAB Co-requisite: EEE4133. Electrical and rotating machine safety, measurement of current, power, torque, and efficiency of DC machines, and synchronous machines. Determination of machine model parameters, chopper control of electric machines. Lab. 2 hrs. 1 hour credit EEE4133 ELECTRICAL MACHINERY Prerequisite: EEE3513, Co-requisite: EEE4131. Steady state and dynamic modeling of DC machines, induction machines, and synchronous machines. Power, torque, loss mechanisms, efficiency. Power electronic control of electric machinery. Lect. 3 hrs. 3 hours credit U N D E R G R A D U A T E C A T A L O G 2 0 0 5 - 2 0 0 7 EEE4151 ELECTRIC DRIVES LAB Co-requisite: EEE4153. Electrical safety, measurement of current, power torque, and efficiency of DC, induction, and synchronous machines. Determination of model parameters, chopper control of DC and AC motors. Lab. 2 hrs. 1 hour credit EEE4153 ELECTRIC DRIVES Prerequisite: EEE3513, Co-requisite: EEE4151. Electronic control, and both steady-state and dynamic modeling of DC motors and generators, induction motors, and synchronous motors and generators. Power, torque, loss mechanisms, and efficiency. Lect. 3 hrs. 3 hours credit EEE4231 MICROPROCESSORS 2 LAB Prerequisite: EEE3231, Co-requisite: EEE4233. Study and design of hardware aspects of computer technology, including memory, interface, and I/O circuitry, interrupt and exception protocols. The lab will include a major student project incorporating the principles studies in EEE4233. Lab. 2 hrs. 1 hour credit EEE4233 MICROPROCESSORS 2 Prerequisite: EEE3233, Co-requisite: EEE4231. A continuation of Microprocessors 1, emphasizing the hardware aspects of computer technology. Specific architectures studied include advanced Intel and Motorola processors, and various memory and I/O devices and strategies. Lect. 3 hrs. 3 hours credit EEE4241 EMBEDDED SYSTEMS LAB Co-requisite: EEE4243. Program development using a microcontroller evaluation module board (EVB); design of experiments using an EVB development tool; various I/O interfacing design examples. Term design project. Lab 2 hrs. 1 hour credit EEE4243 EMBEDDED SYSTEMS Prerequisite: EEE3233. Utilization of microcontrollers in design of instruments and embedded controllers. Description of onchip resources, programming framework, parallel I/O, main timer and real-time interrupt, pulse accumulator, A/D converter and serial communication subsystems. Interfacing techniques. Lect. 3 hrs. 3 hours credit EEE4253 COMPUTER ARCHITECTURE I Prerequisite: EEE3233. Analysis of state machines. CPU design with consideration for data flow, I/O, and ALU. Basic computer architecture classifications. Memory systems including memory cache and virtual memory design. Pipeline design techniques. RISC and CISC computer architectures. Selected 8, 16, 32, and 64 bit microprocessor chips. Lect. 3 hrs. 3 hours credit EEE4261 COMPUTER NETWORKING LABORATORY Co-requisite: EEE4263. Local asynchronous communication; extending LANs-modems, repeaters, bridges, switches; packer switches; service paradigms; protocols and layering; binding protocol addresses; networking management software; network security, filtering, firewalls. Lab. 2 hrs. 1 hour credit EEE4263 COMPUTER NETWORKING Prerequisites: EEE2114, EEE3223. Local asynchronous communication; extending LANsmodems, repeaters, bridges; switches; packet switches; service paradigms; protocols and layering; binding protocol address; network management software; network security-filtering and firewalls. Course contains lecture and laboratory sections. Lect. 3 hrs. 3 hours credit 143
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