Industrial Electricity Manufacturing Engineering General Information 356. Microprocessor Software (4) An introduction to microprocessor and microcomputer software devebpmenL Assemblers, cross assemblers, simulators, and emulators as applied to specific hardware will be used to develop software and hardware integration. Prerequisite: Elentc 355. 364. Communications Circuits II (4) A continuation of Eltech 264 with emphasis on receivers and modulation of signals including AM, FM, PM, single side-band and balanced modulators. Three one-hour lectures and one three-hour lab per week Prerequisite: Eltech 264. 385. Introduction to Industrial Control (4) An introduction to programmable controller theory and application vising various types of controllers. Two one hour lectures, and two three hour labs per week Prerequisites: Eltech 124, Reltec 114, Elentc 355. 389. Cooperative Work Experience (1-9) Open to all third year students in Electronic Engineering Technology. A continuation of Eltech 289. 424. Analog/Digital Systems (5) System design techniques utilizing microprocessors. Large scale integrated microprocessor peripherals, both digital and analog, wiU be used extensively. Three one-hour lectures, two 3-hour labs per week Prerequisites: Elentc 322 and 355. Elentc 356 is recommended. 444. Digital Signal Processing (5) An introduction to digital filter analysis and design; also signal processing using Discrete Fourier Transform and Fast Fourier Transform. Four one-hour lectures, one three-hour lab per week Prerequisites: Hentc 319, 332. 452. Fundamentals of Automatic Control (5) An introduction to the theory and components of control systems including system response, stability and compensation. Four one- hour lectures, one three-hour lab per week Prerequisites: Elentc 319. Elentc 320 (may be taken concurrently). Fortran and Elentc 332 recommended. Four one-hour lectures, one three-hour lab. 454. Microwave Techniques (4) Elementary study of microwave generation and propagating devices; emphasis on phenomena peculiar to microwave signals. Three one-hour lectures, one three-hour lab per week Prerequisites: Elentc 364; Reltec 117. 455. Microwave Devices (4) Review of passive and active microwave devices used for bw and high power microwave systems. Study of operating characteristics and applications of solid state and vacuum oscillators and amplifiers and associated passive system devices. 456. Microwave Systems (4) Review of microwave systems applications. Study of design of specific systems from analysis to selection of components for implementation. 461,462, 463. Senior Projects (1-3-3) An engineering problem will be selected for team solution. Problems wfll require design, development, production, testing, presentations, and a complete documentation manual. Elentc 462 & 463, one one-hour lecture and two three-hour labs. Elentc 461 one-hour lecture. Prerequisites: Permission of the instructor. one INDUSTRIAL ELECTRICITY COURSES - INDELC 474. Acoustics and Sound (5) Lecture and lecture-laboratory experiences in basic acoustic properties and problems. Sound system design with a discussion of microphone techniques and applications, reverberation calculations and measuremenL Four one-hour lectures, one three-hour lab per week Prerequisites: Eltech 264; Elentc 364. Offered every other year. 479. Senior Problems (2) Special problems covering scope of study during the previous four years. Two lectures. 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. 487. I.C. Fundamentals (4) Semiconductor theory as related to silicon devices, P-N junctions, diodes, current and voltage relationships. Four lectures per week Prerequisites: Eltech 154, Hentc 319. 488. I.C. Devices (4) Semiconductor theory as related to silicon transistors and field effect devices, including MOS devices. Prerequisite: Hentc 487. Four lectures per week 489. Cooperative Work Experience (1-9) Open to all fourth year students in Electronics Engineering Technology. A continuation of Elentc 389. 492. Short Courses, Workshops, Institutes and Special Programs (1-6) Li 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 wfll appear on the student transcripL 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. INDUSTRIAL ELECTRICITY The courses listed are designed to give students skills in a variety of electrical applications frequently found in commercial building, factories, and other industrial settings. Certificales of skill proficiency will be issued for agreed-upon achievement levels within the program. These courses are scheduled only upon sufficient student demand. An Institutional Certificate will be given upon completion of the program. 170. NEC Residential Wiring (2) The National Electrical Code regulations pertaining to residential wiring. Two lectures per week 171. NEC Commercial Wiring (2) The National Electrical Code regulations pertaining to industrial wiring. Two lectures per week 172. NEC Industrial Wiring (2) The National Electrical Code regulations pertaining to industrial wiring. Two lectures per week 181. Basic Electricity Theory (3) The theory of matter, voltage, current, resistance, series, parallel and series-parallel circuits. Two lectures and one lab per week Prerequisites: Reltec 114 cxmcurrently. 182. Magnets & Magnet Circuits (3) Current carrying capacity of conductors, voltage drop, conductivity, magnets and magnetic fields reluctance, permeability, flux density, magnetic circuits and magnetic applications. Two lectures, one lab per week Prerequisites: Reltec 114 concurrently. 184. DC & AC Generators (4) Theory and technical material pertaining to AC & DC generators and motors. Prerequisite: Reltec 114 concurrently. Two lectures and one lab per week 185. AC Theory Lecture (3) Theory and procedures pertaining to impedance, AC relationships, single and polyphase circuits, and application to electrical machinery. Three lectures per week Prerequisites: Indelc 181, 182. 186. AC Theory Lab (2) Laboratory activities related to impedance, AC relationships, and polyphase systems. Two labs per week Prerequisites: Indelc 181, 182. 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. Two lectures, one lab per week Prerequisite: Indelc 185. 192. Automatic Control Circuits (3) The use of automation systems using electrical, electronics logic and statis switching devices, as found in automation control circuits in industry. The applications of solid states and magnetic amplifiers is included. Digital control is stressed. Two lectures and one lab per week Prerequisites: Indelc 187. 196. Basic Industrial Electronics (3) Basic tube and transistor functions; replacement characteristics; amplifiers, amplidyne oscillators; high frequency and dielectric heating; power tubes; electronic relays. Three lectures per week Prerequisite: Indelc 186. 197. Industrial Electronics Lab (2) Laboratory experience in Industrial Hectronics. Some basic repair techniques will be practiced. Two labs per week Prerequisites: Indelc 186. 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 vising 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 offerings will appear on the student transcripL DEPARTMENT OF MANUFACTURING ENGINEERING TECHNOLOGY Chair: Roy D. Thornock Location: Engineering Technology, Room 214 Telephone Contact: LaDon Swaner 626-6305 Professors: Ross W. Eskelson, A. Kent Randall, Robert E. Wallentine; Associate Professors: Keith Allred, John Boyer, Larry Leavitt, Roy D. Thornock; Assistant Professors: Mark Crookston, Kerry Tobin; Instructor Specialist: Kevin Collier, Kelly Harward. Programs: Manufacturing Engineering Technology (BS) Manufacturing Technology (AAS) Design & Graphics Technology (AAS) Machine Tool Technology (AAS, IC, ID) Maintenance Technology (AAS, IC, ID) PROGRAM: MANUFACTURING TECHNOLOGY-ASSOCIATE OF APPLIED SCIENCE DEGREE This curriculum is designed to give the student fundamental knowledge of and basic skill in drafting, ma- chining, time study, inspection, quality assurance and numerical control programming. Students could perform as engineering aides or laboratory assistants. Students completing this two-year program will earn an associate of applied science degree. General Requirements: • A minimum of 105 credit hours. • Courses in major field required a minimum of 57 credit hours. • Engl 101 (3). Requirements continued next page Student Services Interdisc. Programs Allied Health Sciences Arts & Humanities Business & Economics Education Natural Sciences Social Sciences Technology 240 241 Continuing Education