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Western Washington University
Upper Level Courses Completed
| Course Title | Description | Grade Achieved |
|---|---|---|
| EECE 372 Electromechanical Devices |
A study of electrical power concepts and electromechanical devices’ theory, operation and analysis. Topics covered include basic electromagnetic theory, three phase power systems, dc machines, synchronous generators, power transformers and induction machines. | B |
| EECE 374 Energy Processing |
A study of power electronics devices and circuits applied to power conditioning. Topics covered include switching characteristics of power semiconductor devices, power converter topologies, control techniques in power converters and practical applications of power electronics converters in motor drives. | B |
| EECE 378 Smart and Renewable Power |
A study of smart grid and renewable energy technologies. Topics covered include basics of power system operation, smart grid objectives and main features, alternative energy technologies and interface to utility grid, storage systems technology, Plug-in Hybrid Electric vehicle technology, demand response and demand side management and smart grid monitoring. | A- |
| ENRG 320 Science of Energy Resources |
Overview of energy resources and processes within a unified physical framework. Addresses traditional and renewable resources including fossil fuels, nuclear, wind, solar, hydroelectric, geothermal, and biofuels. Systems-level issues such as efficiency, transmission, and reliability are also covered. | A- |
| EECE 360 Communication Systems |
This course introduces analog and digital communication systems with an emphasis on system level concepts. Fundamental principles underlying communication systems will be studied, including modulation and demodulation, radio architectures and receiver structures, bandwidth requirements, SNR, pulse shaping, and synchronization. | B |
| EECE 361 Signal Propagation |
Signal transmission through both guided and unguided media. Distributed-circuit concepts, transmission line theory, and RF impedance matching. RF signal propagation, wireless channel modeling, and basic concepts in antenna theory. Emphasis on applications to communication systems. | A- |
| EECE 480 Control Systems |
A study of analog control systems and techniques using operational mathematics, Laplace transforms, transfer functions, second-order systems, stability criteria, frequency response analysis, PID compensation. Laboratory investigation of control systems and computer modeling. | B |
| EECE 344 Embedded Microcontrollers II |
Upper-division study of analysis and design of electronic systems using embedded microcontrollers. This course focuses on using the C programming language for embedded microcontrollers, real-time programming techniques, and on-chip resources. Various hardware resources and interfacing techniques will be introduced and applied in laboratory design problems. | B |
| EECE 444 Embedded Systems |
The advanced study of real-time embedded systems hardware and software analysis and design. Includes real-time kernels, kernel services, and networking in a variety of hardware and software applications. | B |