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Show Technology Electronic Engineering Technology 240. Electronic Circuit Operation (5) Basic circuitry found in many electronic equipments will be taught. Particular stress will be placed on test equipment, radio television, tape recorder, and amplifier circuits. Prerequisite: Electronic Technology 212 or equivalent. W S 241. Electronic Circuit Maintenance (3) Maintenance of basic electronic circuits and equipment. Test instruments, radio, television, tape recorders, amplifiers, will be used to develop the student's skills. Three 3-hour labs a week. W S ance of medium and high frequency transmitters, radio-frequency circuits, antennas, modulation and power supplies. Prerequisite: Electronic Technology 212. Five lectures. S 263. Communications Circuits Laboratory (3) Testing, adjustment, and operation of radio frequency circuits. Correlated with Electronic Technology 262. Three 3-hour labs a week. S 270. Advanced Troubleshooting and System Analysis (Formerly Aircraft Instrument Repair 250) (5) Introduces the newest concepts and techniques in system analysis and troubleshooting in the fields of avionics and instrument repair. 271. Automatic Test Equipment (Formerly Aircraft Instrument Repair 251) (5) Concepts and procedures used in the field of computer controlled measuring devices. Subjects covered will include logic, number systems, computer theory, and programming. 272. Automatic Test Equipment (Continued) (Formerly Aircraft Instrument Repair 252) (5) Subjects covered will include advanced programming, digital voltmeters, counters, wave analyzers, and other automated devices. Prerequisite: Electronic Technology 271. 286. International Morse Code (1) Development of considerable skill in sending and receiving Morse code. May be repeated for credit up to three times if satisfactory progress shown. Two labs a week. AWS ELECTRONIC ENGINEERING TECHNOLOGY The Electronic Engineering Technology curriculum is designed for the student who desires to continue his technical training and broaden his general education. A student who has received the Associate of Applied Science degree at Weber State in Electronic Technology may continue his education by pursuing the Electronic Engineering Technology curriculum. Also any graduate from an accredited two-year Electronic Technician program may make application for admission to a course of study in Electronic Engineering Technology. Students desiring to graduate with a bachelor of science degree in Electronic Engineering Technology must satisfy the general college requirements: English 101, 102, 103; Health Education; Physical Education; the area requirements, and department requirement. Electronic Engineering Technology MajorThe student completing the outlined course is prepared to go into industry in any one of many areas where electronic equipment is involved. Bachelor of Science DegreeElectronic Engineering Technology 355, 356; a minimum or six major lecture-laboratory combined classes, including Electronic Engineering Technology 310, 311; 320, 321; 422, 423 ; 479 or equivalent. (The student must receive a grade of "C" or better in the six major 5 credit hour lecture-laboratory combination classes); Chemistry 111; Physics 111, 112, 113, or 261, 262, 263; Industrial Engineering Technology 330, 332. Engineering Graphics 215, 144; Data Processing 260; Communication 232, or 326. Sufficient additional hours of upper division course work in Electronic Engineering Technology, Industrial Engineering Technology, Manufacturing Engineering Technology, Mathematics, Education, Business or other approved supporting field to satisfy the 60 credit hour minimum. Students graduating with an Electronic Engineering Technology major are not required to take a minor. 208 Technology Electronic Engineering Technology Electronic Engineering Technology MinorA student may select Electronic Engineering Technology as a supporting minor. Course work should include 26 quarter hours of credit from the following courses: Electronic Technology 212 and 213; Electronic Engineering Technology 320, 321; 341, 343; 422, 423 or equivalent. Additional courses in instrument circuits -and instrumentation are recommended. Prerequisites: Algebra and Trigonometry. Electronic Engineering Technology (Example Only) Junior Year Courses Credits Electronic Engineering Technology 320, 321, 310, 311, 324, 325, 355, 356 21 Chemistry 101 5 Data Processing 260 3 Engineering Graphics 144 4 Area Requirements 16 49 Senior Year Courses Credits Electronic Engineering Technology 422, 423, 464, 465, 450, 451, 479 17 Industrial Engineering Tech. 330, 332 10 *Electives 4 Area Requirements 17 48 *The student is urged to elect course work that will support and strengthen his selected profession or career. Additional Electronic Engineering Technology Education, Business, Mathematics, or Industrial Manufacturing Engineering Technology course work is suggested but should appear as part of his approved course of study. COURSES OF INSTRUCTION 310. Instruments and Measurements (3) Basic theory pertaining to the function, operation, application, and adjustment of precision type electronic instruments and devices. Prerequisite: Sophomore level electronic course work. Three lectures. S 311. Instruments and Measurements Laboratory (2) Operation of equipment studied in Electronic Engineering Technology 310. Two 3-hour labs a week. S 320. Transistor Circuit Analysis (4) Analysis of Transistor circuits through the use of equivalent circuit's. Prerequisites: Electronic Technology 212, and 213, or equivalent. Four lectures. A 321. Transistor Circuits Laboratory <1) A practical laboratory course to give the student additional understanding of the principles taught in Electronic Engineering Technology 320. Prerequisite: Electronic Technology 212. One 3-hour lab a week. A 324. Pulse and Digital Circuit* (3) Basic theory, operation and waveforms for R-C and R-L time constant circuits; application to special purpose circuits. Prerequisite: Electronic Engineering Technology 320 or equivalent. Three lectures. W 325. Pulse and Digital Circuits Laboratory (2) Operation and adjustment of circuits and related control readout components used in pulse and digital circuits. Two 3-hour labs a week. W 338. Missile Guidance Systems (5) Electronics principles, circuitry and operation concepts used in missile guidance systems. Prerequisite: Related Technical Education 118, Physics 111 or equivalent. (Offered alternate years.) Five lectures. W 341. Fundamentals of Electronics (5) For the engineering technology student not majoring in electronics. Electronic concepts in D.C. and A.C. circuits. Meets five times each week. To be taken concurrently with Physics 112. Prerequisite: Related Technical Education 117 or equivalent. W 343. Fundamentals of Electronics (3) For the technical student not majoring in electronics. Transistor and vacuum tube principles and fundamental circuits. Two lecture-recitations and one lab period a week. Prerequisite: Electronic Engineering Technology 341 or equivalent. S 345. FCC License Examination Study (2) Material covered in the Federal Communications Commission 2nd class commercial license examination. Two lectures. Prerequisite: Electronic Technology 212 or equivalent. A 346. FCC License Examination Study (2) Material covered in the Federal Communications Commission 1st class commercial license examination. Two lectures. Prerequisite: Electronic Technology 212 or equivalent. W 354, 355, 356. Calculus for Electronics (3-3-3) Concepts and applications in differentiation and integration as used in electronics. Prerequisite: Related Technical Education 118 or equivalent. Three lectures. AWS 422. Microelectronics and Integrated Circuits (4) Fundamentals pertaining to design principles for monolithic, hybrid, multi-phase, and thin film circuits. Fabrication principles. Prerequisite: Electronic Engineering Technology 320 or equivalent. Four lectures. A 423. Microelectronic and Integrated Circuits Laboratory (1) Testing and assembly procedures used with microminiature circuit modules. One 3-hour lab a week. A 432. Radar Fundamentals (3) Theory of circuits used in radar and television; Prerequisite: Electronic Technology 262, and Electronic Engineering Technology 464. Three lectures. S 209 |
