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Course Criteria
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3.00 Credits
Comprehensive introduction to the basic concepts of Solid State Physics as applied to electronic devices, including heat and charge transport and electron spin effects in materials such as Silicon, Gallium Arsenide, and Gallium Nitride. The electronic structure of crystalline solids is described, as well as their phonon spectra. Carrier dynamics is discussed in detail by emphasizing the importance of the Boltzmann transport equation for both electrons and phonons. Spin transport in semiconductors will be introduced as well. Credit will be given for either ECE 415 or PHYS 415, but not for both. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: EECE Professional Elective
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4.00 Credits
This course provides hands-on experience. It covers the principles of industrial electronics and automation systems, automation components and devices, implementation of fundamental industrial electronics algorithms using digital processors, electronic design methodologies, rapid prototyping, and sensors/transducers. The simulation mini-projects and lab experiments in the course will emphasize industrial electronics systems analysis, design, and automation. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture/Lab Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: EECE Professional Elective
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3.00 Credits
This is an introduction into power distribution systems from the utility engineering perspective. The course looks at electrical service from the distribution substation to the supply line feeding a customer. The course studies the nature of electrical loads, voltage characteristics and distribution equipment requirements. The fundamentals of distribution protection are reivewed including fast/relay coordination. Finally, power quality and reliability issues are addressed. 3. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Graduate, Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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3.00 Credits
Transmission systems analysis and design. Large scale network analysis using Newton-Raphson load flow. Unsymmetrical short-circuit studies. Detailed consideration of the swing equation and the equal-area criterion for power system stability studies. Credit will be given for ECE 418 or ECE 419, but not for both. Prerequisite Required: ECE 319 or graduate standing. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate,Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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4.00 Credits
Transmission systems analysis and design. Large scale network analysis using Newton-Raphson load flow. Unsymmetrical short-circuit studies. Detailed consideration of the swing equation and the equal-area criterion for power system stability studies. Use of commercial power system analysis tool to enhance understanding in the laboratory. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture/Lab, Lab, Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: EECE Professional Elective
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3.00 Credits
Fundamentals of power systems operation and planning. Economic operation of power systems with consideration of transmission losses. Design of reliable power systems, power systems security analysis, optimal scheduling of power generation, estimation of power system state. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: EECE Professional Elective
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3.00 Credits
Maxwell's equations, waves in free space, metallic and dielectric waveguides, microstrips, microwave cavity resonators and components, ultra-high frequency generation and amplification. Analysis and design of microwave circuits and systems. Credit will be given for either ECE 421 or ECE 423, but not for both. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: EECE Professional Elective
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4.00 Credits
Maxwell's equations, waves in free space, metallic and dielectric waveguides, microstrips, microwave cavity resonators and components, ultra-high frequency generation and amplification. Analysis and design of microwave circuits and systems. Credit will be given for either ECE 421 or ECE 423, but not for both. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture/Lab, Lab, Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: Communications Requirement, Lab Safety Instruction, EECE Professional Elective
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3.00 Credits
Contemporary analog and digital integrated circuit analysis and design techniques. Bipolar, CMOS and BICMOS IC fabrication technologies, IC Devices and Modeling, Analog ICs including multiple-transistor amplifiers, biasing circuits, active loads, reference circuits, output buffers; their frequency response, stability and feedback consideration. Digital ICs covering inverters, combinational logic gates, high-performance logic gates, sequential logics, memory and array structures. Team design projects. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: EECE Professional Elective
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4.00 Credits
Processing, fabrication, and design of Very Large Scale Integration (VLSI) circuits. MOS transistor theory, VLSI processing, circuit layout, layout design rules, layout analysis, and performance estimation. The use of computer aided design (CAD) tools for layout design, system design in VLSI, and application-specific integrated circuits (ASICs). In the laboratory, students create, analyze, and simulate a number of circuit layouts as design projects, culminating in a term design project. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Graduate Doctoral, Graduate Business, Graduate, Undergraduate Schedule Types: Lecture/Lab, Lab, Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: Communications Requirement, Lab Safety Instruction, EECE Professional Elective
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