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Educational Psychology |
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EPSY 4391 - Student Teaching in Special Ed Credit Hours: 3.0
Lecture Contact Hours: 0 Lab Contact Hours: 12
Prerequisite: admission to Teacher Education program and approval of advisor.
Supervised observation and student teaching in general and special education assignments.
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EPSY 4392 - Student Teaching in Special Ed Credit Hours: 3.0
Lecture Contact Hours: 0 Lab Contact Hours: 12
Prerequisite: admission to Teacher Education program and approval of advisor.
Supervised observation and student teaching in general and special education assignments.
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EPSY 4397 - Selected Topics Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: consent of instructor.
Selected topics in educational psychology. May be repeated for credit when topics vary.
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Electrical and Computer Engineering |
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ECE 1111 - Introduction to Electrical and Computer Engineering Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Formerly ECE 1000 Introduction to Electrical and Computer Engineering
Prerequisite: credit for or concurrent enrollment in MATH 1431 .
An overview of electrical and computer engineering and the professional opportunities available.
Note: Should be taken by Electrical and Computer Engineering students in the first semester in which the prerequisite is satisfied.
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ECE 1331 - Computers and Problems Solving Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: MATH 1431 and credit for or concurrent enrollment in ECE 1111 and ENGI 1100 .
Introduction to personal computers and engineering workstations; techniques and standards for networked computers; computer-based tools for engineering problem-solving; programming constructs, algorithms, and applications.
Typically Offered: Fall, Spring
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ECE 2100 - Circuit Analysis Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: credit for or concurrent enrollment in ECE 2202 .
Introduction to the electronics laboratory equipment. Introductory experiments in circuit analysis. Formal report writing. This laboratory course is a prerequisite for all other ECE laboratory courses.
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ECE 2201 - Circuit Analysis I Credit Hours: 2.0
Lecture Contact Hours: 1 Lab Contact Hours: 3
Formerly ECE 2300 Circuit Analysis
Prerequisite: ENGI 1331 and credit for or concurrent enrollment in MATH 2433 , MATH 3321 , PHYS 1122 and PHYS 1322 .
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ECE 2202 - Circuit Analysis II Credit Hours: 2.0
Lecture Contact Hours: 1 Lab Contact Hours: 3
Prerequisite: ECE 2201 .
Analysis of electric circuits, including inductors, capacitors, and first order circuits; sinusoidal analysis.
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ECE 2355 - Honors Circuits and Electronics Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ENGI 1331 , MATH 1432 , PHYS 1321 , credit for or concurrent enrollment in MATH 2433 and PHYS 1322 and membership in the Honors Engineering Program.
Electric circuit analysis, inductors, capacitors, first order circuits. Sinusoidal analysis, complex power and frequency response. Transformers, ac power an power distribution. Diodes and op-amps.
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ECE 3155 - Electronics Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 4
Prerequisite: ECE 2100 and ENGI 2304 and credit for or concurrent enrollment in ECE 3355 .
Laboratory projects concerning topics studied in electronics
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ECE 3317 - Applied Electromagnetic Waves Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: PHYS 1122 and PHYS 1322 . Credit for or concurrent enrollment in ECE 3337 .
Maxwell’s equations in time and frequency domains, Poynting’s theorem, plane wave propagation, reflection and transmission in lossless and lossy media, transmission lines, waveguides, and antennas.
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ECE 3318 - Applied Electricity and Magnetism Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 1111 , MATH 2433 , MATH 3321 , and PHYS 1322 .
Fundamentals of electricity and magnetism, vector calculus, Maxwell’s equations, Kirchhoff’s laws, static electric and magnetic fields, resistance, capacitance, inductance, magnetic circuits, and transformers.
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ECE 3331 - Programming Applications in Electical and Computer Engineering Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: MATH 3321 and credit for or concurrent enrollment in ECE 2201 .
Procedural programming in C and C++, with applications in electrical and computer engineering.
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ECE 3336 - Introduction to Circuits and Electronics Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: PHYS 1322 and MATH 2433 , and either CIVE 1331 or INDE 1331 or MECE 1331 or CHEE 1331 .
For BSIE, BSCE, BSME, BSPetE majors only. Electric circuit analysis, ac circuits and frequency response, transformers, power supplies, ac power and power distribution, diodes, op amps and solid state devices.
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ECE 3337 - Signals and Systems Analysis Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 2201 . Credit for or concurrent enrollment in ECE 2202 .
Time and frequency domain techniques for signals and systems analysis. Engineering applications of the convolution integral, Fourier series and transforms, and Laplace transforms.
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ECE 3340 - Numerical Methods for Electrical and Computer Engineers Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3331 .
Basic numerical methods with engineering applications. Emphasis on use of computer-based solution techniques.
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ECE 3355 - Electronics Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3337 , ENGI 2304 , and credit for or concurrent enrollment in ECE 3155 .
Signal and amplifier concepts; operational amplifiers; diodes and nonlinear circuits; bipolar junction transistors; biasing, small and large signal analysis; transistor amplifiers.
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ECE 3364 - Circuits and Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3337
Three-phase circuits, self inductance, mutual inductance single-phase transformers, three-phase transformers, Laplace transform circuit analysis, analysis and design of frequency-selective circuits, control system characteristics and stability.
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ECE 3366 - Introduction to Digital Signal Processing Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3337 .
Credit may not be received for more than one of ECE 3366 and BIOE 3366 . Discrete-time signals and systems, discrete Fourier methods, sampling, z-transform, modulation, synthesis of discrete-time filters using digital signal processors. Examples will be taken from bioelectrical signals.
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ECE 3399 - Senior Honors Thesis Credit Hours: 3.0
Prerequisite: approval of department chair.
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ECE 3436 - Microprocessor Systems Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: Credit for or concurrent enrollment in ECE 2100 and ECE 3331 .
Memory devices, microcomputer architecture, assembly language programming, I/O programming, I/O interface design, data communications, and data acquisition systems. Laboratory exercises in assembly language and C.
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ECE 3441 - Digital Logic Design Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 2100 , and ECE 2202 .
Boolean algebra, combinational logic, sequential machine analysis and synthesis.
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ECE 3456 - Analog Electronics Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3155 and ECE 3355 .
Bipolar, MOS, and JFET transistors; multistage amplifier design; frequency response and feedback concepts; operational amplifiers; analysis and design using discrete and integrated devices.
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ECE 3457 - Digital Electronics Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3355 .
Analysis of discrete and integrated digital electronic devices and components and their use in the design and implementation of digital circuits.
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ECE 4113 - Energy Conversion Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 and credit for or concurrent enrollment in ECE 4363 .
Selected experiments in electromechanical energy conversion devices.
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ECE 4115 - Control Systems Laboratory I Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 and credit for or concurrent enrollment in ECE 4375 .
Introductory experiments in automatic control systems.
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ECE 4117 - Telecommunications Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 and credit for or concurrent enrollment in ECE 4371 .
Selected experiments in telecommunications.
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ECE 4119 - Solid State Devices Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: credit for or concurrent enrollment in ECE 4339 .
Introduction to the methods of solid state device characterization and the use of CAD tools in the design of discrete devices.
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ECE 4198 - Independent Study Credit Hours: 1.0
Prerequisite: approval of department chair.
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ECE 4298 - Independent Study Credit Hours: 2.0
Prerequisite: approval of department chair.
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ECE 4335 - Electrical and Computer Engineering Design I Credit Hours: 3.0
Lecture Contact Hours: 2 Lab Contact Hours: 3
Prerequisite: ECE 3155 , ECE 3317 , ECE 3340 , ECE 3355 , ECE 3436 , INDE 2333 , and a core approved economics elective.
Propose and begin team projects involving open-ended design problems supplied by industry and faculty. Professionalism, research methodologies, design tools, and technical communication.
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ECE 4336 - Electrical and Computer Engineering Design II Credit Hours: 3.0
Lecture Contact Hours: 2 Lab Contact Hours: 3
Prerequisite: ECE 4335 and graduating senior standing.
Complete, construct, demonstrate, and defend team projects begun in ECE 4335 .
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ECE 4339 - Physical Principles of Solid State Devices Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3155 , ECE 3355 , and credit for or concurrent enrollment in ECE 4119 .
Electronics, modern physics, and electromagnetism used to develop fundamental understanding of bipolar, Schottky, and MOS solid state device operation.
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ECE 4363 - Electromechanical Energy Conversion Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3364 and credit for or concurrent enrollment in ECE 4113 .
Electromechanical energy conversion principles, transformers, rotating machines, and solid-state motor control.
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ECE 4371 - Introduction to Telecommunications Engineering Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3337 and INDE 2333 .
Linear systems, filters, convolution, spectra, random processes, noise, baseband transmission, amplitude modulation and angle modulation, baseband digital communication and digital modulation.
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ECE 4375 - Automatic Control Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3337 and credit for or concurrent enrollment in ECE 4115 .
Automatic control systems: mathematical modeling, block diagram, transfer function, system response, stability, root-locus, Bode analysis, Nyquist analysis, Nichols analysis, compensator design.
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ECE 4398 - Independent Study Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 0
Prerequisite: approval of chair.
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ECE 4399 - Senior Honors Thesis Credit Hours: 3.0
Prerequisite: approval of department chair.
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ECE 4437 - Embedded Microcomputer Systems Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3155 , ECE 3355 , ECE 3436 and ECE 3441 .
Hardware and software components of real-time embedded microcomputer systems; programming and interfacing to real-time external devices.
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ECE 4458 - Instrumentation Electronics Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3155 , ECE 3337 , and ECE 3355 .
BJT review; FETs; differential amplifiers; op-amp non-ideal characteristics; measurements with low signal-to-noise ratio and high source impedance such as bioelectrical signals; electrical safety; electrodes; transducers.
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ECE 4498 - Independent Study Credit Hours: 4.0
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ECE 4598 - Independent Study Credit Hours: 5.0
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ECE 5113 - Microwave Engineering Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 and credit for or concurrent enrollment in ECE 5317 .
Selected topics in microwave engineering.
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ECE 5114 - Antenna Engineering Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 and credit for or concurrent enrollment in ECE 5318 .
Selected topics in antenna engineering.
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ECE 5115 - Control Systems Lab II Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 , ECE 4375 , and credit for or concurrent enrollment in ECE 5335 .
Computer simulations and computer-aided control system design.
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ECE 5119 - Nanotechnology Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 2
Prerequisite: Credit for or concurrent enrollment in ECE 5319 .
Laboratory exercises pertaining to ECE 5319 . Introduction to nanotechnology, metrology and fabrication methods.
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ECE 5120 - Nanomaterials Engineering Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 2
Prerequisite: ECE 5119 or CHEE 5119 or MECE 5119 , concurrent enrollment in ECE 5320 and instructor permission.
Introduction to engineering of nanomaterials with emphasis on structural, optical, photonic, magnetic and electronic materials. Experimental design, synthetic and analytical characterization will be emphasized.
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ECE 5121 - Nanofabrication Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 2
Prerequisite: ECE 5120 or CHEE 5120 or MECE 5120 , concurrent enrollment in ECE 5321 , and consent of instructor.
Design, fabrication, and metrology of nanoscale devices.
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ECE 5127 - Power Transmission and Distribution Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ECE 2100 and credit for or concurrent enrollment in ECE 5377 .
Real and reactive power, power flow and voltage regulation, parallel lines and transformers, series and parallel network compensation, phase shift transformers, protection.
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ECE 5197 - Selected Topics Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
May be repeated for credit when topics vary.
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ECE 5317 - Microwave Engineering Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3317 .
Transmission lines, waveguides, microstrip circuits, microwave circuit theory, scattering matrices, impedance transformers, passive microwave devices, resonators, microwave tubes, and solid state active devices.
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ECE 5318 - Antenna Engineering Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3317 .
Antenna concepts, linear wire antennas, linear arrays, aperture and horn antennas, printed-circuit radiators, frequency-independent antennas, and measurement techniques.
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ECE 5319 - Introduction to Nanotechnology Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: Credit for or concurrent enrollment in ECE 3317 or consent of program director.
Fundamental concepts underlying various nanotechnologies.
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ECE 5320 - Intro Nanomaterials Engineering Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 5319 or CHEE 5319 or MECE 5319 , concurrent enrollment in CHEE 5120 , or consent of instructor.
Engineering of nanomaterials with emphasis on structural, optical, photonic, magnetic, an electronic materials. Synthetic methods and analytical characterization with design for applications will be emphasized.
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ECE 5321 - Nanoscale Design & Fabrication Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 5320 or CHEE 5320 or MECE 5320 , concurrent enrollment in ECE 5121 , or consent of instructor.
Design and fabrication at the nanoscale. Effects of nanoscale phenomena on device scaling; technological advantages and challenges. Design, fabrication, metrology, and device integration at nanoscale.
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ECE 5322 - Nanoengineering Research Credit Hours: 3.0
Prerequisite: Guided research in nanoengineering technology.
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ECE 5335 - State-Space Control Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 4375 .
State-space modeling, matrix algebra, system response, coordinate transformation, stability, controllability, observability, realization, state-feedback design and observers, nonlinear systems, Lyapunov functions, and optimal control.
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ECE 5340 - Introduction to Well-Logging Techniques Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3317 or GEOL 4330 or PHYS 4321 or consent of instructor.
Logging tools, including electrical resistivity, induction, acoustic, dielectric, natural gamma ray, neutron density, pulse neutron, NMR, and dipmeter. Production tools, along with well log data transmission, processing, and recording.
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ECE 5344 - Signal Integrity Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3317 , ECE 3355 and instructor permission.
Introduction to signal integrity for high-speed digital system.
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ECE 5346 - VLSI Design Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3456 or ECE 3457 .
Integrated circuit design using computer-aided design methods; MOS, GaAs and bipolar techniques; standard cells, digital subcircuit and memory layout and design. Includes project requiring students to design and to have fabricated a functional integrated circuit.
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ECE 5354 - Digital Video Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3331 and ECE 3337 .
Concepts, theory, and applications of digital video compression. Sampling and quantization, data compression, adaptive coding, BMP and JPEG image standards, H.261 video-conferencing, MPEG codecs, mathematical animation techniques.
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ECE 5356 - CMOS Analog Integrated Circuits Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3456 .
Analysis and design of CMOS analog integrated circuits at the transistor level, single-stage and multistage amplifiers, differential pairs, current source biasing circuits, current mirrors, and operational amplifier circuit design.
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ECE 5358 - Modern Optics and Photonics Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3317 .
Lightwave fundamentals: geometrical and wave optics, interference, diffraction, scattering, Fourier optics; photonic passive & active devices: waveguides, lasers detectors, modulators, photonic integrated circuits, displays; optical system design and engineering.
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ECE 5367 - Introduction to Computer Architecture and Design Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3436 and ECE 3441 .
Computer organization, computer arithmetic, instruction sets, programming with MIPS assembly language, CPU design, pipelining, and memory hierarchy including caching and virtual memory.
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ECE 5377 - Power Transmission and Distribution Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3364 and concurrent enrollment in ECE 5127 .
Power transmission and distribution system models, steady-state operation, and protection.
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ECE 5380 - Power Electronics and Electric Drives Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3155 and ECE 3355 .
Power electronics; power semiconductor switches; converters and inverters; DC, induction and synchronous motor drives; industrial applications; harmonics and filtering.
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ECE 5388 - Renewable Energy Technology Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ECE 3364 .
Introduction and comprehensive overview of renewable energy technology. Topics include distributed generation and renewable energy including wind power, solar power, fuel cells and hydropower.
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ECE 5397 - Selected Topics Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Cr. 3. (3-0). May be repeated for credit when topics vary.
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ECE 5436 - Adv Microprocessor Systems Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3436 and ECE 3441 .
Microcomputer assembly language programming, I/O programming, I/O interface design, memory interfacing.
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ECE 5440 - Advanced Digital Design Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3155 , ECE 3355 , ECE 3441 , and credit for or concurrent enrollment in ECE 3436 .
Design fundamentals and techniques using application specific integrated circuit development and synthesis tools and field programmable gate arrays. Design of control units, arithmetic and logic units, memory and I/O subsystems, and cache.
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ECE 5451 - Principles of Internetworking Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: ECE 3355 .
Local area networks, IP addressing, routing protocols, TCP flow, congestion and error control, Domain Name System (DNS), Dynamic Host Configuration Protocol (DHCP), and Network Address Translation (NAT). Selected applications.
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ECE 5497 - Selected Topics Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
May be repeated for credit when topics vary.
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Electrical-Electronics Technology |
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ELET 1400 - Circuit Theory and Lab I Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Formerly ELET 1300/1100
Prerequisite: credit for or concurrent enrollment in MATH 1431 .
Principles and applications of direct current electricity. Applications to series, parallel, and series-parallel circuitry including Ohm’s Law, Kirchhoff’s Laws, mesh and nodal analysis, resistance, capacitance, inductance, magnetism, and electromagnetism.
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ELET 1401 - Circuit Theory and Laboratory II Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Formerly ELET 1301/1101
Prerequisite: C or better in ELET 1400 .
Analysis and applications of single phase and three phase alternating current circuits, transformers and electric power concepts.
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ELET 2101 - Poly-Phase Circuits and Transformers Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: credit for or concurrent enrollment in ELET 2301 .
Experiments in poly-phase circuits and power transformers.
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ELET 2103 - Digital Systems Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Corequisite: ELET 2303 .
Experiments in digital systems, including basic gates, combinational and sequential systems, binary arithmetic circuits, MUX/DEMUX, decoder and encoder devices. Use of modern software simulation tools is emphasized.
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ELET 2105 - Semiconductor Devices and Circuits Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Corequisite: ELET 2305 .
Experiments in semiconductor circuits and systems.
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ELET 2300 - Introduction to C++ Programming Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: MATH 1330 .
Fundamentals of C++ programming, conditional and looping constructs, functions and function overloading, arrays, pointers and references, class concepts, and files. Emphasis on practical applications.
Core Category: [90] Math/Reasoning
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ELET 2301 - Poly-phase Circuits and Transformers Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: C or better in ELET 1401 .
Poly-phase circuit analysis and fundamentals of power transformers.
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ELET 2303 - Digital Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ELET 1401 or ELET 2307 .
Corequisite: ELET 2103 .
Digital systems and their applications, gates, Boolean algebra, simplification methods, design of combinational logic circuits, counters, IC characteristics, MSI, and memory devices.
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ELET 2305 - Semiconductor Devices and Circuits Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: C or better in ELET 1401 and credit for or concurrent enrollment in ELET 2105 .
Solid state devices and circuits, including single stage and multistage amplifiers, frequency response, and semiconductor circuit applications.
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ELET 2307 - Electrical-Electronic Circuits Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: credit for or concurrent enrollment in MATH 1330 .
For non-CETE and non-EPTE majors. Basic dc and ac circuits.
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ELET 3107 - Electrical Machines and Controls Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: credit for or concurrent enrollment in MATH 1431 and ELET 3307 or equivalents.
Experiments in the characteristics, operation, and control of DC and AC motors and generators.
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ELET 3112 - Rotating Machine Controls Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: concurrent enrollment in ELET 3307 .
Experiments in electromechanical, PLC, and solid-state controls for rotating machines.
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ELET 3301 - Linear Systems Analysis Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: C or better in MATH 1432 , and credit for or concurrent enrollment in ELET 2305 .
Differential equations, Fourier series & transforms, Laplace transforms. Applications to linear systems: electrical circuits, communication, signal processing, and control. Use of modern simulation software packages.
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ELET 3307 - Electrical Machines and Controls Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: credit for or concurrent enrollment in ELET 2301 and MATH 1431 or consent of instructor.
Characteristics and operation of dc and ac motors, generators, and basic motor control principles.
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ELET 3312 - Programmable Logic Controllers & Motor Control Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: Minimum grade of C- in ELET 3307 .
Programmable Logic Controllers and microprocessor-based controls for electrical motors and generators.
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ELET 3402 - Communications Circuits Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: Minimum grade of C- in ELET 3301 .
Analysis of tuned circuits, rf oscillators, amplifiers, modulation/demodulation theory and circuits and rf and fiber optic transmission lines.
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ELET 3403 - Sensor Applications Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Formerly ELET 3303
Prerequisite: Minimum grade of C- in ELET 2305 and credit for or concurrent enrollment in ELET 3301 .
Sensor technology and its applications, including OpAmp and signal conditioning circuits, modern sensors, ADC/DAC, AC/DC and step motor control circuits, and interfaces between these components.
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ELET 3405 - Microprocessor Architecture Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: Mininmum grade of C- in ELET 2300 , and ELET 2303 .
Architecture and operation of microprocessor-based systems including basic hardware, software, and interfaces.
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ELET 3425 - Embedded Systems Credit Hours: 4.0
Lecture Contact Hours: 3 Lab Contact Hours: 3
Prerequisite: Minimum grade of C- in ELET 3405 and credit for or concurrent enrollment in ELET 3403 .
Hardware and software design of embedded microprocessor/microcontroller systems: system architecture, memory management, I/O programming, real-time operating systems, and application development using a high level programming language.
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ELET 4104 - Control Systems Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Corequisite: ELET 4304 .
Experiments in feedback control. Simulation using modern software packages.
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ELET 4126 - Power Converter Circuits Laboratory Credit Hours: 1.0
Lecture Contact Hours: 0 Lab Contact Hours: 3
Prerequisite: ELET 2305 and ELET 3301 .
Pspice simulation and laboratory experiments involving power converter circuits and their control/application.
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ELET 4198 - Independent Study Credit Hours: 1.0
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ELET 4208 - Senior Project Laboratory Credit Hours: 2.0
Lecture Contact Hours: 0 Lab Contact Hours: 6
Prerequisite: ELET 4308 .
Senior project laboratory in computer engineering technology including progress reports, prototypes construction and testing, final project reports, and presentations.
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ELET 4300 - Unix Operating System Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ELET 3425 .
Unix operating system concepts, fundamental command-line features, file and directory system navigation, file security, simple editors and vi text editor, command shells, shell scripts, mail, and basic network use.
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ELET 4302 - Data Communication Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: ELET 3402 .
Analysis and design of communication systems, emphasizing system performance evaluation, microwave channels, linear, nonlinear, and pulse/digital modulation, multiplexing, and propagation effects.
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ELET 4303 - Computer-Based Power Distribution and Transmission Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: Minimum grade of C- in ELET 3307 .
Principles of operation and applied design of bulk power distribution and transmission systems and substations.
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ELET 4304 - Control Systems Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Prerequisite: Minimum grade of C- in ELET 3301 .
Modeling and analysis of single-input, single-output feedback control systems. Tuning of cascade compensator parameters, stability, analog and digital implementation, frequency-domain methods, and simulation using modern software packages.
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ELET 4305 - Electrical Power System Design and Project Management Principles Credit Hours: 3.0
Lecture Contact Hours: 3 Lab Contact Hours: 0
Formerly ELET 3310
Prerequisite: ELET 3307 .
Design and layout of electrical power systems for commercial and industrial facilities, and project management principles.
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