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Course Criteria
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3.00 Credits
This course is designed to develop a better understanding of the learning process within the domain of science, math and engineering technology. The course will use flexible learning strategies and creative problem solving techniques to include critical thinking skills. The ultimate goal of the course is to assist students in successfully meeting the demands of the technology field. Prerequisite: ENG104.
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3.00 Credits
This course is the study of the fundamentals of computer technology software used in engineering technology fields. Emphasis will be placed on technical and scientific computer applications. Topics to be covered will include an introduction to computer concepts, Windows, Microsoft Word, Excel, Access, and PowerPoint, and other specific software applications used to interface various engineering technologies fields.
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3.00 Credits
This course is a study of processes, materials, and equipment used in the semiconductor-manufacturing field. Topics to be covered will include an introductory level study of wafer preparation, contamination control, diffusion, photolithography, etching, thin films, electrical testing, and sorting. This course will include a laboratory. The laboratory will emphasize a hands-on approach to problem solving, computer usage, and teamwork.
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3.00 Credits
This course describes a variety of basic manufacturing processes applied to metals and plastics. Topics include industrial materials, machining, casting and molding, cold and hot forming processes such as forging, extrusion, and rolling. Lab is a major component of this course focusing on manufacturing a variety of parts using lathe, milling, shear, and drilling machines.
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3.00 Credits
This course is a study of the basic elements of computer-numerical-control (CNC). This course will emphasize basic programming in G and M code and programming of a CNC lathe and mill. Manual program entry of G and M code will be required for each CNC tool as well as the use of CAD /computer-aided manufacturing (CAM) software for part production and one time proof-of-concept class projects. The course will focus on safety, identification, and operation of CNC equipment. The laboratory will allow the student to develop hands-on skills once lecture material has been presented on a particular topic. Prerequisite: SMT202.
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3.00 Credits
This course is a study of vacuum technology and vacuum systems. Topics to be covered will include gas laws/properties, operation/application of vacuum system components (pumps, gauges, and valves), and vacuum system instrumentation/ troubleshooting. This course will include a laboratory. The laboratory will emphasize a hands-on approach to problem solving, computer usage, and teamwork. Prerequisite: SMT201.
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3.00 Credits
This course is a study of radio frequency (RF) power and its applications in the semiconductor manufacturing industry. Topics to be covered will include plasma physics, RF applications, RF safety, RF generators, RF transmission lines, and RF interference. This course will include a laboratory. The laboratory will emphasize a hands-on approach to problem solving, computer usage, and teamwork. Prerequisite: ELEC196.
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4.00 Credits
This course is a study of processes, materials, and equipment used in the semiconductor-manufacturing field as well as vacuum technology and vacuum systems. Topics to be covered will include an introductory level study of wafer preparation, contamination control, diffusion, photolithography, etching, thin films, electrical testing, and material sorting. As well as gas laws/properties, operation/application of vacuum system components (pumps, gauges, and valves), and vacuum system instrumentation/troubleshooting. This course will include a laboratory. The laboratory will emphasize a hands-on approach to problem solving, computer usage, and teamwork.
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3.00 Credits
This course is a study of modern electro-mechanical systems. Topics to be covered will include electro-mechanical system operation/design, reading system/component schematics, fabrication of a rudimentary system, system troubleshooting techniques, programming, and P.C. control schemes. This course will include a laboratory and a final project. The laboratory will emphasize a hands-on approach to system analysis, critical thinking, solution to open-ended problems, computer usage, and teamwork. Corequisites: ELEC201 and ELEC204.
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3.00 Credits
This course is a study of modern industrial robotic systems and rudimentary terrestrial robotic vehicle systems. Topics to be covered will include an introduction to the operation and use of industrial robotic manipulators and terrestrial rovers. Topics to be covered will include feedback mechanisms, actuators, sensors, power supplies, micro-controllers, P.C. computer control and programming. This course will include a laboratory and final project. The laboratory will emphasize a hands-on approach to system analysis, critical thinking, solution to open-ended problems, computer usage and teamwork. Prerequisite: ELEC201.
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