Difference between revisions of "Electrical Engineering Courses"
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== '''EE 164''' (Power Electronics and Electric Machines Laboratory) == | == '''EE 164''' (Power Electronics and Electric Machines Laboratory) == | ||
* '''Description''': Electronic control and operation of electrical machines; characterization of electrical machines and transformers. | * '''Description''': Electronic control and operation of electrical machines; characterization of electrical machines and transformers. | ||
| + | * '''Course Goals''': To use power electronic devices for machine operation and characterization and to be able to design and characterize transformers. | ||
* '''Prequisite''': [[EEE Courses #EEE 141 (Electronic Circuits and Systems)| EEE 141]]], [[EEE Courses #EEE 145 (Electromechanical Energy Converters)| EEE 145]] | * '''Prequisite''': [[EEE Courses #EEE 141 (Electronic Circuits and Systems)| EEE 141]]], [[EEE Courses #EEE 145 (Electromechanical Energy Converters)| EEE 145]] | ||
* '''Credit''': 1u (3 hrs lab) | * '''Credit''': 1u (3 hrs lab) | ||
Revision as of 15:16, 27 December 2023
Taken from the BS Electrical Engineering curricular proposal document, June 22, 2018 (pdf)
Contents
- 1 EE 161 (Introduction to Power Electronics)
- 2 EE 163 (Electrical Machines and Equipment)
- 3 EE 164 (Power Electronics and Electric Machines Laboratory)
- 4 EE 165 (Electric Power Generation and Transmission)
- 5 EE 167 (Electric Energy Distribution and Utilization)
- 6 EE 168 (Electric Power System Laboratory)
- 7 EE 199 (Special Problems in Electrical Engineering)
EE 161 (Introduction to Power Electronics)
- Description: Switching devices and converter circuits for the control, storage, and conversion of electric energy.
- Course Goals: The students will gain a basic understanding of power electronic circuits, components, and applications in motor drive, renewable energy, and electric utility systems.
- Prerequisite: EEE 141]
- Credit: 3u (3 hrs lec)
EE 163 (Electrical Machines and Equipment)
- Description: Dynamics and control, overcurrent protection, and surge protection of motors and generators, power and distribution transformers, power capacitors, and power distribution circuits.
- Course Goals: To provide students with models and methods for analyzing steady-state and dynamic behavior of electrical machines and equipment under normal and abnormal operating conditions, that can be used in designing power distribution, control, and protection systems.
- Prerequisite: EEE 145, EEE 155
- Credit: 3u (3 hrs lec)
EE 164 (Power Electronics and Electric Machines Laboratory)
- Description: Electronic control and operation of electrical machines; characterization of electrical machines and transformers.
- Course Goals: To use power electronic devices for machine operation and characterization and to be able to design and characterize transformers.
- Prequisite: EEE 141], EEE 145
- Credit: 1u (3 hrs lab)
EE 165 (Electric Power Generation and Transmission)
- Description: Detailed power system operations and analyses. Various technology options in electric energy generation, storage, and transmission; including future directions.
- Prerequisite: EEE 155
- Credit: 3u (3 hrs lec)
EE 167 (Electric Energy Distribution and Utilization)
- Description: Residential, commercial and industrial systems; demand-side management; distribution system modeling, planning and analysis; distributed energy resources; and smart grid technologies.
- Prerequisite: EEE 155
- Credit: 3u (3 hrs lec)
EE 168 (Electric Power System Laboratory)
- Description: Design and computer simulation of electric power systems from generation and transmission systems to distribution and utilization.
- Prequisite: EEE 155
- Credit: 1u (3 hrs lab)
EE 199 (Special Problems in Electrical Engineering)
- Description: Undergraduate capstone project in Electrical Engineering.
- Prerequisite: EEE 196
- Credit: 3u (9 hrs lab)
