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Course Criteria
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3.00 Credits
Oxy-Fuel Welding Fundamentals is designed for students with no prior experience in Oxy-Fuel welding techniques. Hands on training will include the proper care and handling of Oxy-Fuel welding equipment, proper set up and starting, proper shutdown techniques, as well as Fusion welding, Braze welding, silver soldering, and the proper interpretation of welding symbols and welding alloys. Throughout the course real life welding situations will challenge the student along the way to welding proficiency. (Prerequisite: None) (3 credits: 2 lecture/1 lab)
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3.00 Credits
The course will start out with a study of the fundamental concepts of AC and DC electricity. Students will utilize Ohm's Law, construct basic circuits and learn the operation of basic test equipment. Students will be introduced to basic electrical components and systems found in the industrial maintenance world. Magnetic induction, AC waveforms, impedance and troubleshooting techniques, wiring diagrams, and a review of electrical safety are most of the topics covered. (Prerequisite: None) (3 credits: 2 lecture/1 lab)
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3.00 Credits
Electric motors feature skills needed by every automation technician in an industrial setting. Students learn proper motor identification, connection techniques, reversing, replacement selection, and routine maintenance on motor operated equipment. Motors covered in the instruction include Shaded Pole, Split Phase, Permanent Split Capacitor, Capacitor, Capacitor Start Induction Run, 3 Phase, D.C. Motors, programmable Motors, Permanent Magnet and Wound Field Inspection and repair of power tools will also challenge the students troubleshooting ability. Brush maintenance installation, commutator, and slip ring preventative maintenance, and an introduction to drives will round out this must have instruction. (Prerequisite: none) (3 credits: 2 lecture/1 lab)
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3.00 Credits
The course will start out with a review of the fundamental concepts of electricity. Students will be introduced to basic electrical components and systems found in the industrial maintenance world. Switches, relays, electrical motors, indicators, basic test equipment and operation, troubleshooting techniques, wiring diagrams, and a review of electrical safety are most of the topics covered. (Prerequisites: none) (3 credits: 2 lecture/1 lab)
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3.00 Credits
Small engine basics present the basic engine fundamentals common to all small engine designs. Topics covered include internal combustion systems, engine electrical systems, governor on systems, troubleshooting, failure analysis, and engine application and selection. Overall, system operation theory will be reinforced with engine component and system examples. (Prerequisite: None) (3 credits: 2 lecture/1 lab)
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3.00 Credits
Advanced small engines & systems designed to further enhance the knowledge and understanding of engine-operated equipment. Areas of study include precision measuring equipment, overhaul techniques, electrical charging systems, and governor operations, oil pressure, filtration, and cooling systems. Hands on training in troubleshooting, failure analysis will deepen the students understanding in engine operation. (Prerequisite: INDS1640) (3 credits: 2 lecture/1 lab)
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3.00 Credits
Small engine auxiliary systems and transmissions coursework designed to enhance the technician's abilities to perform routine maintenance, overhaul, and troubleshooting on drive components of the engine operated equipment. These areas of study will include suspension, transmissions, steering, axles, safety interlocking systems, and auxiliary systems maintenance. Instruction will be given in proper storage, and removal from storage of engine operated equipment. Enhanced troubleshooting and failure analysis will be included in an environment of hands-on learning. (Prerequisite: INDS1640) (3 credits: 2 lecture/1 lab)
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4.00 Credits
An introduction to basic tools, common materials and processes will be covered. The various types of mechanical drives and their features will be discussed along with building and preventive maintenance programs. (Prerequisites: none) (4 credits: 2 lecture/2 lab)
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4.00 Credits
This course applies basic physics to engineering evaluations of mechanical products, structures and procedures. Students will study and evaluate mechanical drive systems including service, repair, and troubleshooting principles as they pertain to HVAC systems. Thermodynamic principles are studied in heating and cooling systems. The student will be introduced to industrial programmable controllers and electro-thermal systems. (Prerequisites: INDS1660) (4 credits: 2 lecture/2 lab)
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3.00 Credits
This course explores advanced Programmable Logic Controller (PLC) concepts including the integration of timers, counters, and sensors into hardware and software applications. This includes implementation of advanced Human Machine Interface operations, Variable Frequency Drive (VFD) control, and close-loop control algorithms. (Prerequisites: none) (3 credits: 2 lecture/1 lab)
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