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Course Criteria
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisite: INTE 175. Installation and maintenance of electrical control equipment, timing devices, solenoids, limit switches, electrical power distribution, reduced voltage motor starting, overcurrent protection and preventative maintenance are covered.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisite: INTE 275. The course is designed to present the systematic approaches to electrical troubleshooting. An emphasis is placed on electrical and electromechanical controls. Discussions of trouble analysis will be followed by the student analyzing various introduced troubles into control systems. Replacement of components are covered.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisites: INTE 115 and 271. This course is designed to provide the individual the skills needed to troubleshoot and repair Programmable Logic Controllers in the workplace. Topics include: Hardware, searching, documentation, fault routines, Preventative maintenance, wiring and schematic diagrams and communication problems.
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5.00 Credits
5 credits. 8 hours. (Lecture 2 hours. Laboratory 6 hours.) This course introduces the student to the proper and safe methods of wood pole climbing. The student must master climbing wood pole structures without the use of fall arrest equipment. The student will be taught Pole top rescue methods. Upon completion of this class, the student will be able to demonstrate the ability to safely climb a wooden pole and conduct work practices associated with the electrical utility industry.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours, Laboratory 2 hours.) The student will learn the different methods and types of electrical power distribution systems. Transmission and distribution structures and equipment will be emphasized. The student will learn how the Power Grid is interlocked across multiple utilities.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) The student will learn the hazards and safe work practices of an electrical line technician. The student will learn CPR, First Aid and OSHA rules and regulations associated with the utility industry.
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3.00 Credits
3 credits. 5 hours. (Lecture 1 hour. Laboratory 4 hours.) Prerequisites: LINE 104 and 106. This will give the student a working knowledge of the line construction specifications and knowledge of pole framing on the ground and aerial framing. The student will be able to recognize the different types of materials used for the different types of construction by sight and definition. They will also be introduced to the different sizes and types of overhead and underground conductors.
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3.00 Credits
3 credits. 5 hours. (Lecture 1 hour. Laboratory 4 hours.) Prerequisites: LINE 104 and 106. The student will learn the basic principles in setting and replacing poles. There will be an emphasis on the proper use of cover-up material, both hard shell and rubber goods, vehicle grounding practices, and manual pole setting. The student will gain working knowledge of temporary pole supports, rigging and worksite hazard analysis.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisite: INTE 110, and LINE 106 and 210. The student will gain a thorough knowledge of transformer theory and installation. Single-phase and three-phase configurations with different types of connections will be included. Topics will include: over voltage and over current protection, equipment grounding, cutout protection, proper cover-up techniques, lightning arrestor application and installation, basic troubleshooting practices and current and potential transformers use and safety.
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3.00 Credits
3 credits. 5 hours. (Lecture 1 hour. Laboratory 4 hours.) Prerequisite: LINE 237. The student will gain extensive knowledge of single and three-phase watt-hour meters; meter locations; and the different types of copper and aluminum conductors. The student will also gain practical experience in the sizing, installation, stringing, sagging, dead-ending, and splicing of service conductors. The student will also be exposed to the construction of meter loops and poles; instrument metering; temporary meter locations; compression sleeves; connectors and tools including strap hoists, chain hoists, sag charts and tables, pulling grips and mechanical jumpers. Also included are disciplines on meter tampering, power theft, proper grounding techniques and safe work practices.
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