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Show Technology Industrial Electricity tronic Technology 264, Electronic Engineering Technology 364. Offered every other year. Four one hour lectures, one three hour lab per week. 479. Senior Problems (2) Special problems covering scope of study during the previous four years. Two lectures. S 486. Electronic Equipment Maintenance (3) Adjustment and maintenance of electronic equipment such as test equipment and electronic equipment used in industrial applications. Supervised study and shop practice. May be repeated up to three times where work and study is on different types of equipment or systems. Prerequisites: Sufficient work experience or related training in the area of study for the student to benefit from additional supervised instructions. W S 489. Cooperative Work Experience (1-9) Open to all fourth year students in Electronics Engineering Technology. A continuation of Electronic Engineering Technology 389. 492. 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 493. Special Topics in Electronic Technology (2-5) Designed primarily for majors and high school teachers who desire to explore areas of electronics not covered in regular course offerings. May be repeated for credit. A W S Su INDUSTRIAL ELECTRICITY The courses listed are designed to give student skills in a variety of electrical applications frequently found in commercial buildings, factories, and other industrial settings. Certificates of skill proficiency will be issued for agreed-upon achievement levels within the program. These courses are scheduled only upon sufficient student demand. INDUSTRIAL ELECTRICITY COURSES 181. Fundamentals of Electricity (3) Electron theory; Ohms law; series and parallel circuits; Kirchhoff's law; work, power, torque, and transmission of power. (Evening) 182. Conductors and Magnetism (3) Current carrying capacity of conductors, voltage drop, and conductivity magnets and magnetic fields; reluctance, permeability and flux density; magnetic circuits and magnetic applications. (Evening) 183. Armature Winding (3) Voltage in a rotating coil; lap and wire winding; paths and multiplicity; selection of type of winding; slot, segments, coils, and pitch, and armature testing. (Evening) 184. Direct Current Motors, Generators and Controllers (3) Principles of the motor torque, power, and armature reaction; construction of generators: controllers: dynamic braking and reversing controllers. (Evening) 185. Alternating Current and Circuits (3) Resistance, inductance, and capacity in series and parallel circuits: impedance, resonance, and power factor problems and correction; power and reactive power in AC circuits. (Evening) 186. Trasformers and Polyphase Systems (3) Efficiency of transmission; transformer principles and construction; types of transformers; polyphase transformers and induction regulators. (Evening) 187. Alternating Current Motors (3) Rotating magnetic field, speed, torque and efficiency; types of AC motors: frequency and rotary converters, and stator windings. (Evening) 188. Alternators and AC Controllers (3) Revolving field alternators: across the line, drum, and reversing controllers; compensators and multi-speed controllers. (Evening) 189. Electrical Instruments (3) Permanent magnet, electrodynamic, iron vane inclined coil, and induction-type instruments. (Evening) 190. Industrial Electronics (3) Basic tube and transistor functions; replacement characteristics; amplifiers: amplidynes oscillators: high frequency and dielectric heating: types of power tubes: electronic relays. (Evening) 191. Welding Systems and Electronic Motor Control (3) Constant-voltage generators; arc. resistance, spot, and projection welding; control of welding ignition tubes: non-synchronous and synchronous welders. (Evening) 192. Automation and Instrumentation (3) Servo-mechanisms: amplifier circuits: capacitance control circuits; cathodery control circuits; counting circuits: measuring circuits: timing circuits: photo electric circuits; automatic control theory: miscellaneous industrial instruments. (Evening) 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 PROGRAM 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 274 Technology Manufacture Engineering Technology 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 RepairInstitutional Certificate I. General Requirements: A. English 101A (1), 101B (1), 101C (1) and 103B (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 and Robert Wallentine; Associate Professors: Dee W. Flitton, William Johnson, Robert G. Stein and Roy D. Thornock, Assistant Professors: W. Ross Shelton, H. Paul Stymelski and C. Brent Wallis; Instructors: Keith Allred and Leon Rogers. Manufacturing and associated industries encompass many occupations which require skills and knowledge provided in the following programs: Carpentry and Milling, Architectural Technology, Engineering Graphics, Machine Tool, Manufacturing Technology, Manufacturing Engineering Technology, Welding, and Management Logistics. Individuals can be trained for such occupations as drafters, machine operators, inspectors and time and motion technicians in one year in our present programs. With two years of training, individuals can be qualified as civil drafters, tool design drafters, architectural technicians, tool and die makers, manufacturing process technicians, and quality control technicians. Numerical control programmers, tool designers, cost estimators, production controllers, and inventory control technicians can be properly trained within our programs in three years. The four year programs can lead to bachelor of science degrees for Manufacturing Engineering Technologists and Logistics Engineers and Managers. More complete descriptions of the fields of study and example programs for those without prior training and experience are included in the specific program descriptions. Surveying (EG 204) will prepare the student for beginning employment as a member of a surveying team. CARPENTRY AND MILLING Leon Rogers, Adviser This program provides a career-ladder approach to building trades training with Certificates, Diplomas, or Associate of Applied Science degrees available upon completion of specified programs. Individuals who qualify for the Associate of Applied Science would be qualified as a third year apprentice. The program combines classroom, shop, field experience and cooperative work experience to assure efficient progress toward the student's chosen occupation level. 275 |
