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This course covers PLC hardware structure, input/output modules, software, and programming. While the instruction formats may not be the same for different brands, the hardware structures and programming concepts are very similar. They can be found in almost any manufacturing facility. PLCs are currently used widely in industrial and commercial environments. Compared to relay logic controls, the PLC's advantages include easy programming and installation, high control speed, hardware and software security, network compatibility, troubleshooting and testing convenience, and high reliability. The first PLC was introduced in the late 1960s to replace relay logic controls in the automotive industry.
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Students will be introduced to the Programmable Logic Controller (PLC) which is a device that is capable of being programmed to perform control functions. This course is designed for students who wish to be involved with the architectural and engineering design fields and for those interested in machine control programming. Writing assignments, as appropriate to the discipline, are part of the course. The course can lead to industry recognized certifications such as, Starrett PMI metrology, Lincoln Electric print reading, 3MSafety certificates, all NC3. The course also provides a general understanding of the behavior of the materials commonly used in manufacturing, the basic techniques used in processing them into useful products, the scientific theory underlying those processes, and the criteria for selecting particular tools, machines, and processes. Computer-aided Design (CAD) will be introduced. The concepts of (GD&T) Geometric Dimensioning and Tolerancing, and quality tools are introduced. The use of micrometers and dial calipers are stressed. Visualization of 3D objects from orthographic views. This course presents the fundamentals of print reading, measuring skills needed to verify if produced parts meet print requirements and provide a general understanding of the materials and processes used in manufacturing.
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