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Course Criteria
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3.00 Credits
3 credits. 5 hours. (Lecture 1 hour. Laboratory 4 hours.) Learn basic shielded metal arc welding of flat, horizontal, vertical and overhead carbon steel plates and cutting with oxy-fuel equipment. Also covered: basic welding theory included coated electrode specs, welding power sources, polarities, duty cycles, cutting gases, gas cylinders, gas regulators, basic weld joints and weld joint preparation.
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3.00 Credits
3 credits. 5 hours. (Lecture 1 hour. Laboratory 4 hours.) Prerequisite: INTE 167. The course is designed to cover advanced SMAW techniques commonly used in the welding industry. Various types of V groove joints are taught. Different kinds of electrodes are taught and used. The course has an introduction to the technique for pipe welding using the SMAW process.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisite: HVAC 109 or INTE 115. The course is designed to present the fundamentals of electrical motor control components, circuits and systems. Topics include electrical control symbols, power distribution, control transformers, solenoids and relays, motor starters, pilot devices, timers and sequencers, dc and ac motor principles, proximity sensors and troubleshooting.
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3.00 Credits
3 credits. 3 hours. (Lecture 0 hour.) This course is designed to give the student real world experience in the industrial technologies field. The student will perfect techniques and job responsibilities learned in prior courses under the direction of a mentor.
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3.00 Credits
3 credits. 3 hours. (Lecture 3 hours.) Prerequisite: INTE 115. This course introduces the student to industrial prints. The student will become familiar with electrical schematics, wiring diagrams, one-line diagrams and P&IDs (Process & Instrumentation Diagrams). Upon completion of this class, the student will be able to demonstrate the ability to use these prints to maintain, troubleshoot and install electrical systems in the workplace. They will be able to determine safety hazards and proper procedures for guarding against those hazards.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisites: HVAC 201. Fundamentals of commercial and residential plumbing. Modern and historical plumbing materials and methods will be covered. Hardware and fixture use and installations. Drain and pipe installations and repair. Pipe cutting, threading, braising and welding. Drain and pipe cleaning. Sink, drain and heater replacement. General codes.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisites: INTE 225 and INTE 272. The course is designed to provide the individual with an ability to understand the various control schemas found in industrial settings. The course covers pressure, temperature, level, and flow detection and calculations. Lab activities will include calibration, tuning and installation of various analog and smart equipment used in industry.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisite: INTE 110 and 175. The course is designed to provide the individual with an ability to understand the various output methods, programming and troubleshooting techniques using the programmable controller (PLC). I-O methods for dc and ac and analog, ladder programming and analysis, logical functions, timers and counters, forcing and troubleshooting techniques are among the specific topics covered.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequiisites: INTE 115 and 271. This course is designed to provide the individual with the skills needed to study process control, motion control, addressing Input/Outputs and intercommunications. Topics include: advanced instruction sets for applications, analog, stepper, searching, on-line editing, cross referencing and ControlLogix software.
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3.00 Credits
3 credits. 4 hours. (Lecture 2 hours. Laboratory 2 hours.) Prerequisite: INTE 175 and 271. The course will cover the theory and application of AC and DC Motors and their uses in industry. Theory and application of the various methods to control the speed of AC and DC electric motors using solid state devices will also be covered including thyristor and transistor controlled circuits, three phase triggered circuits, variable phase, frequency and voltage circuits.
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