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Show Technology — Manufacturing Engineering magnetic applications. Prerequisites: RTE 114 concurrently. Two lectures and 1 lab per week, A 184. DC & AC Generators (4) Theory and technical material pertaining to AC & DC generators and motors. Prerequisites: IE 181, 182. Three lectures and 1 lab. W 185. AC Theory Lecture (3) Theory and procedures pertaining to impedance, AC relationships, single and polyphase circuits, and application to electrical machinery. Prerequisites: IE 181, 182. Three lectures per week. W 186. AC Theory Lab (2) Laboratory activities related to impedance, AC relationships, and polyphase systems. Prerequisites: IE 181,182. Two labs per week. W 187. AC & DC Motors (3) Theory and technical information as it relates to AC & DC motors, principles of operation, and motor types for different applications. Prerequisites: IET 185. Two lectures and 1 lab per week. S 192. Automatic Control Circuits (3) The use of automation systems using electrical, electronics logic and statis switching devices, as found in automation controls circuits in industry. The applications of solid states and magnetic amplifiers is included. Digital control is stressed. Prerequisites: IE 187. Two lectures and one lab per week. S 196. Basic Industrial Electronics (3) Basic tube and transistor functions; replacement characteristics; amplifiers; amplidyne oscillators; high frequency and dielectric heating; power tubes; electronic relays. Prerequisites: IE 186. Three lectures per week. S 197. Industrial Electronics Lab (2) Laboratory experience in Industrial Electronics. Some basic repair techniques will be practiced. Prerequisites: IE 186. Two labs per week. S 292. Short Courses, Workshops, Institutes and Special Programs (1-6) In order to provide flexibility and to meet many different needs, a number of specific offerings are possible using this catalog number. When the number is used it will be accompanied by a brief and specific descriptive title. The specific title with the credit authorized for the particular offering will appear on the student transcript. A W S Su INSTRUMENT REPAIR The Instrument Repair Emphasis is a three quarter program designed to meet the needs of industry. Students interested in this program should be high school graduates or equivalent or eighteen years of age. They must meet the physical and aptitude requirements necessary to achieve in this area. Prerequisite classes relative to this program are not mandatory; however, one should have a working knowledge of mathematical principles and have a desire to work in the area of electronics. Certificates of skill proficiency will be issued for agreed upon achievement levels within the program and an Institutional Certificate will be awarded for completion of the program. Program: Instrument Repair—Institutional Certificate I. General Requirements: A. English 101 (3) and 102 (3). B. An overall G. P. A. of 2.00 or C. C. 45 total hours are required. II. Specific Requirements: A. Electronic Technology courses required (35 credit hours): Electronic Technology 121 (5), 122 (5), 123 (5), 129 (3), 136 (5), 137 (2), 247 (5), 248 (2), 254 (4). B. Support courses required: Related Technical Education 114 (5), 115 (5); Engineering Graphics 115 (3), 215 (3). DEPARTMENT OF MANUFACTURING ENGINEERING TECHNOLOGY Robert E. Wallentine, Chairman Professors: Ross W. Eskelson, Clifton B. Larsen, A. Kent Randall, Robert G. Stein, and Robert E. Wallentine; Associate Professors: Dee W. Flitton; Assistant Professors: Keith Allred, William Johnson, Ross Shelton, and C. Brent Wallis; Instructors: Kelly Harward, Leon Rogers; Instructor Specialists: Stanley G. Hunter and Evan Murray. Technology — Manufacture Engineering Technology Manufacturing Engineering Technology Program This curriculum is designed to give the student fundamental knowledge of, and basic skill in the planning and selection of the methods of manufacturing, the design of tooling and equipment for manufacturing, selection and treatment of materials used in manufacturing, the use of computers in design and manufacturing, development of process sheets, equipment specifications and installation, value analysis, production and quality control, and coordination with the design and production functions. A Manufacturing Engineering Technology degree is also offered with an emphasis in the following areas: Industrial Engineering Technology This emphasis would cover functions such as method analysis, work simplification, time standards, plant layout, materials handling, equipment selection, cost analysis, and cost reduction. Equipment & Tool Design This emphasis would cover functions such as test equipment design, pre-production design and analysis, value engineering, tool design, and material handling equipment design. Computer-Aided Design/Computer Aided Manufacturing This emphasis would cover functions such as drafting, and design, design analysis, numerical control programming and group technology. A two year program in Manufacturing Technology is provided to prepare students for employment as technicians or engineering aids. The skills learned can be utilized to perform such functions as drafting, detail designing, time study, experimental machining, welding, inspection, quality assurance, engineering/laboratory assisting, and numerical control programming. Students completing this two-year program will earn an Associate of Applied Science degree. Certificate of skills proficiency will be issued for attainment of agreed upon skill levels. The Manufacturing Engineering Technology program is ABET (formerly ECPD) accredited. Program: Manufacturing Technology—Associate of Applied Science Degree I. General Requirements: A. A minimum of 102 credit hours. B. Courses in major field require a minimum of 67 credit hours. C. English 101 (3), 102 (3), or Communication 102 (3) or 232 (3). D. At least 20 hours from the general education courses listed in the catalog, with at least one course in each of the five areas: Humanities, Life Science Physical Science, Social Science, and other. (DP 101). E. An overall G.P.A. of 2.00 or C. II. Specific Requirements: A. Manufacturing Engineering Technology courses required (13 credit hours): Manufacturing Engineering Technology 123 (3), 132 (3), 231 (2), 232(2), 244(3). B. Technical Courses Required (36 credit hours): Machine Tool 100 (1), 101 (2), 102 (1), 103 (2), 202 (1), 203 (2); Engineering Technology 142 (4), 244 (4), 236 (5), 330 (5), 331 (4); Industrial Engineering Technology 142 (3), 350 (4), 353 (3); Engineering Graphics 245 (3). C. Support courses required (27 credit hours): Chemistry 101 (5) or 121 (5); Data Processing 101 (3); Related Technical Education 114 (5), 115 (5), 117 (5), Welding 165 (2). 266 267 |
