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Course Criteria
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1.00 - 36.00 Credits
No course description available.
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3.00 Credits
This course is a practical study of the theory, setup and operation of communication equipment used in control systems. The course includes lecture to describe commonly used communication hardware and protocols and laboratory work to configure the communication methods. The student must demonstrate the ability to describe these topics and to successfully configure various communication scenarios in the lab.
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3.00 Credits
This course is designed to provide the students with a theoretical, yet practical, look at PLC's and their associated devices and systems. Topics of study include safety, schematic and ladder diagrams, programmable logic controller applications, programming and operation. The student must demonstrate the ability to connect and troubleshoot practical industrial control circuits and basic programming of PLC's upon completion of this course.
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3.00 Credits
This course is a practical study of theory, operation, and service of power distribution systems. Coursework will provide training in DC and AC (both single phase and 3 phase) power systems. Students will study power distribution fundamentals, equipment, and maintenance of these systems.
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3.00 Credits
This course is designed to enhance skills to troubleshoot electrical equipment in the industrial setting. Topics of study may include troubleshooting techniques for Instrumentation and Process Control systems; Motor Controls, and PLC/DCS (analog and digital) systems; and Motors Transformers, Branch and Feeder Circuits (480V to 34.5KV). This course is intended to build on previous study in these topics and to enhance their skills so that system failures can be analyzed and corrected efficiently.
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3.00 Credits
This course is designed to instruct students on electrical, motor, and mechanical devices used in industrial control circuits. Topics of study include safety, schematic and ladder diagrams, DC and AC motors, transformers, contactors, manual and automatic starters, interlocks, timers, control devices, alarm and indicator circuits. The student must demonstrate the ability to design, connect and troubleshoot motor control circuits upon completion of this course.
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1.00 Credits
This course is designed to instruct students on electrical, motor, and mechanical devices used in industrial control circuits. Topics of study include safety, contactors, interlocks, manual and automatic starts, alarm and indicator circuits. The student must demonstrate the ability to connect and troubleshoot motor control circuits upon completion of this course.
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3.00 Credits
This course will teach the methodology for programming the various IEC-61131 languages. The course will include classroom lecture that will be reinforced with lab work using industry standard software and hardware. Topics of learning may include safety, establishing communication between a PC and a controller, database creation, I/O selection and configuration, MODBUS addressing, and the IEC-61131 programming languages: 1) ladder logic, 2) function block diagrams, 3) structured text and 4) sequential function charts. The student must demonstrate the ability to connect to, program and troubleshoot a controller.
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3.00 Credits
This course will teach the methodology for programming human machine interfaces (HMI's). The course will include classroom lecture that will be reinforced with lab work using industry standard hardware and software. Topics learning may include safety, HMI communication to a controller, database creation, window creation using programming objects, parameter files, animation and alarming. The student must demonstrate the ability to connect an HMI to a controller, create an HMI project and troubleshoot an HMI.
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3.00 Credits
This course is a continuation of ELTR 2815 (Programmable Logic Controllers) in the study of PLC's. This course focuses on the techniques and laboratory practice for programming and troubleshooting PLC's and their incorporation in industrial control circuits. Topics of study include safety, schematic and ladder diagrams, as well as programmable logic controller applications, programming, operation, and graphic user interface programs such as human machine interfaces (HMI's). Other topics learned may include safety, HMI communication to a controller, database creation, window creation using programming objects, parameter files, animation and alarming. The student must demonstrate the ability to connect an HMI to a controller, create an HMI project and troubleshoot an HMI, as well as demonstrate the ability to program, connect, and troubleshoot practical industrial control circuits utilizing PLC's and personal computers. This course will include classroom lecture that will be reinforced with lab work using industry standard hardware and software.
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