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Course Criteria
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5.00 Credits
Elements of drive systems, speed-torque characteristics of e ric motors and industrial loads, solid-state converter. Starting and braking methods of loaded motors. Speed control of electric motors. Solid-state drives. Transient analysis of loaded motors. Special forms of individual- and multimotor drives. 0 in E E 351.
Prerequisite:
1
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4.00 Credits
Introduction to methods of analyzing power systems. Includes symmetrical components, calculation of line parameters, representation of transmission lines and power components, and power flow control. 0 in E E 351.
Prerequisite:
1
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4.00 Credits
Analysis of symmetrical and unsymmetrical power systems’ networks, fault analysis, and stability studies. 0 in E E 351.
Prerequisite:
1
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4.00 Credits
Design-oriented course in power system engineering. Students are assigned a project concerning system operation and planning, steady-state and dynamic behaviors of power systems, or distribution systems. Each involves formulation of design criteria, development of approach, application of existing software. 0 in E E 454 or 1.0 in E E 455.
Prerequisite:
either 1
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4.00 Credits
Introduction to e ric utility distribution systems. Primary and secondary network analysis and design, distribution substation problems, distribution transformers, capacitor application, overcurrent and overvoltage protection. System planning and reliability. 0 in E E 351.
Prerequisite:
1
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4.00 Credits
Computer network architectures, protocol layers, network programming. Transmission media, encoding systems, switching, multiple access arbitration. Network routing, congestion control, flow control. Transport protocols, real-time, multicast, network security. Offered: jointly with CSE 461.
Prerequisite:
CSE 143; either MATH 390/STAT 390, STAT 391, IND E 315, or CSE 321
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4.00 Credits
Design-oriented course in autonomous mobile robots. C programming, microprocessors, motors, gears, sensors, advanced sensing techniques, serial communications, PID control, algorithmic control, reactive control, multitasking. exercises include design, construction, and testing of autonomous mobile robots, which compete at the end of the term.
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4.00 Credits
Design-oriented course in autonomous mobile robots. C programming, motors, sensors, IR and RF wireless communication, digital image processing, and robot motion control. exercises include design, construction, and testing of autonomous mobile robots, which compete at the end of term.
Prerequisite:
E E 462
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4.00 Credits
Wave propagation in optical waveguiding structures, signal distortion, coupling of modes, modulation, sources and detectors, fabrication and measurement methods, communication and sensor systems. 0 in E E 332; recommended: E E 361.
Prerequisite:
1
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4.00 Credits
Fundamentals of antennas, analysis, synthesis and computer-aided design, and applications in communications, remote sensing, and radars. Radiation pattern, directivity, impedance, wire antennas, arrays, numerical methods for analysis, horn antennas, microstrip antennas, and ref or antennas. 0 in E E 361.
Prerequisite:
1
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