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Course Criteria
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2.00 Credits
Introduces electrical symbols and their use in construction blueprints, electrical schematics, and diagrams. Topics include: electrical symbols, component identification, and print reading. Hours: Class/Week 3 D.Lab/Week 2 Credit 4 Prerequisites: IFC 100, IFC 101
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3.00 Credits
Introduces commercial wiring practices and procedures. Topics include: National Electrical Code, commercial load calculations, and safety. Hours: Class/Week - 4 P.Lab/Week 3 Credit 5 Prerequisites: ELT 106, ELT 121, IFC 100
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3.00 Credits
Presents the study of three-phase power systems, fundamentals of AC motor controls, and the basic transformer connections. Topics include: three-phase power systems, fundamentals of AC motor control, and transformer connections (single-phase and three-phase step down). Hours: Class/Week 4 P.Lab/Week 3 Credit 5 Corequisite: ELT 107
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3.00 Credits
Presents the theory and practical application of conduit instal ation, system design, and related safety requirements. Topics include: conduit installation, system design concepts, and safety procedures. Hours: Class/Week 4 P.Lab/Week 3 Credit 5 Corequisites: ELT 107, ELT 108
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3.00 Credits
Introduces the fundamental theories and applications of single-phase and three-phase motors. Topics include: motor theory/operating principles, motor terminology, motor identification, NEMA standards, motor efficiencies, preventive maintenance, troubleshooting/failure analysis, and NEC requirements. Hours: Class/Week 4 P.Lab/Week 3 Credit 5 Prerequisite: ELT 119, IFC 100, IFC 101
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3.00 Credits
Introduces types of electric motor control, reduced voltage starting, and applications. Emphasis wil be placed on motor types, control er types, and applications. Includes information on wye and delta motor connections; part wind, auto transformer; adjustable frequency drives and other applications; and oscilloscopes and their operation. Topics include: motor controls, types of reduced voltage starting, reduced voltage motor connections, adjustable frequency drive, and oscilloscope operations. Hours: Class/Week 3 P.Lab/Week 3 Credit 3 Corequisite: ELT 111
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1.00 Credits
Introduces operational theory, systems terminology, field wiring/instal ation, and start-up procedures for programmable logic controls. Emphasis is placed on PLC programming, connections, instal ations, and start-up procedures. Topics include: introductory programming, PLC functions and terminology, processor unit and power supply, introductory numbering system, relay/programming logic, and field wiring/installation and start-up. Hours: Class/Week 4 D.Lab/Week 1 P.Lab/Week 1 Credit - 4 Prerequisite/ Corequisite: IFC 101, IFC 102, IMT 120
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3.00 Credits
Introduces line and low voltage switching circuits, manual and automatic controls and devices, and circuits. Emphasis wil be placed on switching circuits, manual and automatic controls and devices, line and low voltage switching circuits, operation, application and ladder diagrams, AC and DC servo drives, and DC stepper drives. Topics include: ladder and wire diagrams, switching circuits, manual controls and devices, automatic controls and devices, and application and operation of controllers and controls. Hours: Class/Week 3 D.Lab/Week 2 P.Lab/Week 3 Credit 5 Corequisites: ELT 111, ELT 112, ELT 108
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2.00 Credits
Introduces the theory and application of varying sine wave voltages and current. Topics include: magnetism, AC wave generation, AC test equipment, inductance, capacitance, and basic transformers. Hours: Class/Week 3 D.Lab/Week 2 Credit 4 Prerequisite: IFC 100 Corequisite: MAT 101, IFC 101
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3.00 Credits
Introduces residential wiring practices and procedures. Topics include: residential circuits, print reading, National Electrical Code, and wiring materials. Hours: Class/Week 3 D.Lab/Week 2 P.Lab/Week 3 Credit 5 Prerequisite: IFC 100 Corequisites: ELT 106, ELT 119, ELC 121, IFC 101
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