Course Search Results

• ENGT 3255: Automated Safety Systems Lab

  1.00 Credits

  Utah Valley University

  
  Prerequisite(s): AET 2270, AET 2275, and University Advanced Standing. Corequisite(s): ENGT 3250. Applies safety systems and technology in a lab environment. Discusses wiring of safety relays and other hardwired safety devices. Explores interface wiring and programming of safety programmable relays. Teaches wiring of safety I/O and programming a safety PLC including safety instructions. Focuses of troubleshooting safety systems. Corequisite:    ENGT 3250
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• ENGT 3600: Capstone I Design

  3.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 3020 and University Advanced Standing.. Integrates previous course work to design senior capstone project. Analyzes electrical AC/DC/Servo/Stepper motors, pneumatics, hydraulics for application in capstone project. Develops automated systems layouts of mechanical, actuators, electrical box, safety, and wiring diagrams. Applies project based proposal writing and approval process. Requires selection and documentation of components needed to complete project.
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• ENGT 4100: Power System Protection and Automation

  3.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 3100 and University Advanced Standing. Pre- or Corequisite(s): ENGT 3150, ENGT 4105. Reviews phasors and polarity, symmetrical components, sequence networks, and the per unit system. Introduces general protection philosophies, definitions, and ANSI device numbers. Discusses relay input devices, instrument transformers, and accuracy classes. Focuses on introductory concepts related to power system protection fundamentals including protecting, lines, feeders, buses, transformers, motors, and generators. Introduces standardized protection methods and emphasizes system grounding methods and principles. Teaches trip circuits and automation principles in multi-function microprocessor based relays. Emphasizes troubleshooting and testing of protection elements.
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• ENGT 4105: Power System Protection and Automation Lab

  1.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 3100 and University Advanced Standing. Corequisite(s): ENGT 4100. Applies phasors, symmetrical components, sequence networks, and relaying theory to electrical mechanical and microprocessor based protective relays in a lab setting. Configures, programs, tests, and troubleshoots various types of protective relays, protective elements, and field circuits. Utilizes a current and voltage industry test set. Emphasizes relay settings, testing, and troubleshooting protection elements. Introduces revenue metering, industrial automation controllers, and communications. Corequisite:    ENGT 4100
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• ENGT 4130: Distribution System Protection

  2.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 4100, ENGT 4105, and University Advanced Standing. Corequisite(s): ENGT 4135. Discusses distribution system equipment and components including transformers, buses, feeders, fuses, circuit breakers, reclosers, sectionalizers, and capacitor banks. Outlines protection principles used in modern distribution systems. Includes system modeling, differential protection, overcurrent coordination, reclosing, power factor correction, and bus configurations. Covers concepts related to protection of induction motors. Corequisite:    ENGT 4135
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• ENGT 4135: Distribution System Protection Lab

  1.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 4100, ENGT 4105, and University Advanced Standing. Corequisite(s): ENGT 4130. Applies distribution system protection principles to electrical equipment and apparatus including transformers, buses, and feeders. Discusses fuses, circuit breakers, reclosers, sectionalizers, and capacitor banks. Applies protection principles used in modern distribution systems in a lab environment. Corequisite:    ENGT 4130
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• ENGT 4150: Energy Systems and Power Converters

  3.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 3150, ENGT 3020, and University Advanced Standing. Teaches concepts of electrical energy conversion, storage, and power electronic interface systems in modern electrical energy systems. Introduces AC-DC, DC-DC, DC-AC, AC-AC switching converters, voltage source converters, and other power electronic converters. Emphasizes modern applications of electrical energy conversion, storage, and power electronic interface systems. Analyzes models of power electronic converters, voltage source converters, and controls associated with utility power electronics. Uses mathematics and industry simulation software to analyze energy systems and power electronic converters.
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• ENGT 4160: Generator and Transmission Protection

  2.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 4100, ENGT 4105, and University Advanced Standing. Corequisite(s): ENGT 4165. Discusses generator and transmission system equipment and components including generators, lines, transformers, buses, circuit breakers, and capacitor banks. Outlines protection principles used in generation and transmission systems. Includes differential protection, distance protection, traveling wave, reclosing, single-pole tripping, equal area criterion, and bus configurations. Introduces fault location considerations. Corequisite:    ENGT 4165
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• ENGT 4165: Generator and Transmission Protection Lab

  1.00 Credits

  Utah Valley University

  
  Prerequisite(s): ENGT 4100, ENGT 4105, and University Advanced Standing. Corequisite(s): ENGT 4160. Applies generator and transmission system protection to equipment and components including generators, lines, transformers, and buses. Applies protection principles used in generation and transmission systems. Includes differential protection, distance protection, traveling wave, reclosing, and single-pole tripping. Corequisite:    ENGT 4160
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• ENGT 4200: Advanced Automated Systems

  3.00 Credits

  Utah Valley University

  
  Prerequisite(s): (AET 2270, AET 2275) or (MECH 2550, MECH 2555) and University Advanced Standing. Reviews fundamentals of programming programmable logic controllers (PLCs) including fundamental instructions, UDTs, AOIs, function blocks, program efficiency, and organization. Reviews PLC programming languages including ladder diagram and function block diagram. Introduces structured text, STL, and SCL languages. Introduces multiple automation platforms including distributed control systems (DCS) and related programming and design specifications. Focuses on SCADA software to interface to the PLC in order to monitor, control, analyze data, and visualize the system. Introduces web-based deployment of SCADA software and alarm notifications.
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