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Show Technology Electronic Technology ELECTRONIC TECHNOLOGY COURSES 052. Direct Current Circuits (5) A course in fundamental electronic theory. Atomic structure of matter, voltage, _ current power, resistance, inductance and capacitance as they apply to direct current circuits. Prerequisite and/or concurrent high school algebra or equivalent. Five lectures. A (Evening) 053. Direct Current Laboratory (3) Experiments to correlate with Electronic Technology 052. A study of electronic symbols and basic circuit diagrams; basic construction practices, use of volt-ohm-meters and vacuum tube voltmeters. Three 3-hour labs a week. A (Evening) 054. Alternating Current Circuits (5) The effects of resistance, inductance, and capacitance on current, voltage, and power relationships in an alternating current circuit. Prerequisite: Electronic Technology 052 or equivalent. Five lectures. W (Evening) 055. Alternating Current Laboratory (3) The student investigates circuits and principles discussed in Electronic Technology 054. Use of test instruments and shop procedure will be taught. Three 3-hour labs a week. W (Evening) 056. Basic Electronic Circuits (5) Fundamental vacuum tube and transistor circuits, such as rectifiers, amplifiers, detectors, oscillators. Prerequisite: Electronic Technology 054. Five lectures. S (Evening! 057. Basic Electronics Laboratory (3) Principles and concepts discussed in Electronic Technology 056 will be experimentally investigated by the student. Three 3-hour labs a week. S (Evening) 060. Wire Preparation (2) Soldering and wiring principles used in the electronic industry, including preparation of wire, wiring harnesses, cables, connectors, tie strips, lay-outs. Two 3-hour labs a week. A W S (Evening) 061. Electronic Assembly (2) Assembly and mounting of component parts into groups or lay-outs on mounting boards, brackets, tie points, chassis, as a whole or part of a subassembly. Two 3-hour labs a week. A W S (Evening) 062. Special Projects (1) Special projects in electronics of interest to the student, such as Stereophonic, Hi-Fidelity, phono and tape systems, amateur transmitters and receivers, citizen band equipment, etc. The student should have sufficient background in electronics to carry on his project work with some supervision from the instructor. A W S Su (Evening) 065. Novice Amateur Radio Techniques (2) Basic principles and knowledge required to pass the FCC Novice Amateur Examination. Two 3-hour labs a week. Su (Evening) 066. General Amateur Radio Techniques (2) Basic principles and knowledge required to pass the FCC examination for the General Class Radio Amateur's License. Su (Evening) 102. General Electronic Principles (5) Basic electronic concepts and principles. Prerequisite or concurrent: high school Algebra, Related Technical Education 113. or equivalent. Three lectures and three 2-hour labs a week. A 110. Introduction to Electronic Principles (3) The student is introduced to electronic terms, symbols, component parts, and basic measuring instruments. Three lecture-demonstrations. A 114. Advanced Direct Current Circuits (3) Designed to meet the needs of the student who has had previous electronic training but needs additional study in network theorems. Replaces Direct Current Fundamentals. Prerequisite: Qualifying examination. Two lectures and one 3-hour lab a week. A 121. Measuring Principles I (5) A combined theory and lab course designed to teach the theory, mechanical construction, repair and calibration of the most common pressure and mechanical transducers now employed in modern aircraft. A 122. Measuring Principles II (5) A combined theory and lab class which presents the basic principles and methods used in repairing and testing gyro and synchro devices. W 123. Introduction to Control Systems (5) A combined theory and lab course designed to prepare the student for work in the area of navigational computers, directional and stabilized platform gyro systems and Central Air Data Computer Systems. S 129. Advanced Instrumentation (3) A course designed to summarize the student's experience in areas of measurement, printed circuit fabrication and repair procedures now employed in the field of avionics and instrument repair. S 130, 132, 134. Electric Circuit Fundamentals (3-3-3) DC and AC circuit analysis as applied to electronics including topics on Atomic Theory, Ohm's Law, Kirchhoff's Law, power, resistance, inductance, capacitance, and electronic instruments. Prerequisite or concurrent: Related Technical Education 114 or equivalent. A W S 131, 133, 135. Electric Circuit Fundamentals Laboratory (1-1-1) Laboratory correlated with Electronic Technology 130, 132, 134. Designed to give experience in instrument usage and applications of DC and AC circuits encountered in the field of electronics. A W S 150, 152, 154. Introduction to Electronics (3-3-3) A study of beginning concepts in Electronics with primary emphasis on application of circuit devices such as diodes, transistors, operational amplifiers, etc. Prerequisite or concurrent: Related Technical Education 114 and Electronic Technology 130 A W S 151, 153, 155. Introduction to Electronics Laboratory (1-1-1) Laboratory correlated with Electronic Technology 150, 152, 154. Designed to give practical experience in use of devices. A W S 189. Cooperative Work Experience (1-9) Open to all first year students in Electronics Technology. The course objectives for each student will be developed between the student, the department, and a suitable employer providing the opportunity for on-the-job experience. Evaluation of course participants will be shared between the employer, student, and the department. A W S Su 212. Basic Electronics (Continued) (5) A study of basic circuits, such as automatic volume control, audio amplifiers, radio frequency amplifiers, oscillators, detectors, discriminators, automatic frequency control. Prerequisite: Electronic Technology 152 or equivalent. Five lectures. A 260 Technology Electronic Engineering Technology 213. Basic Electronics Laboratory (continued) (3) A practical laboratory course to correlate with Electronic Technology 212. Three 3-hour labs a week. A 220. Transistor Circuits (3) Analysis of the operation of both small signal and large signal amplifier circuits. Simple design criteria will be discussed. Prerequisite: Electronic Technology 152 or equivalent. Three lectures. A 221. Transistor Circuits Laboratory (2) A practical laboratory course to give the student additional understanding of principles taught in Electronic Technology 220. Prerequisite and/or concurrent: Electronic Technology 220 or equivalent. Two 3-hour labs a week. A 226. Pulse and Switch Circuits (3) A study of the operation and design considerations of pulse and switching circuits. Prerequisite and/or concurrent: Electronic Technology 212 or equivalent. Three lectures. S 227. Pulse and Switching Circuits Laboratory (2) An applied laboratory to allow the student to experimentally correlate practical and theoretical circuit problems developed in Electronic Technology 226. Two 3-hour labs a week. S 230. Test Equipment Circuits (3) Theory of operation of basic test equipment circuits. Maintenance and adjustment operations. Prerequisite: Electronic Technology 212 or equivalent. Three lectures. S 231. Test Equipment Laboratory (2) Circuit operation, adjustment and repair of basic test equipment used in electronic shops and laboratories. Prerequisite and/or concurrent: Electronic Technology 230 or equivalent. Two 3-hour labs a week. S 240. Electronic Circuit Operation (5) Basic circuitry found in many electronic eouip-ments will be taught. Particular stress will be placed on test equipment, radio, television, tape recorder, and amplifier circuits. Prerequisite: Electronic Technology 150 or equivalent. WS 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 242. Color Television Circuits (3) Color television theory and maintenance. Prerequisite: Electronic Technology 240. Three lectures. S 243. Color Television Maintenance (2) Operation, maintenance and adjustment of color television receivers; servicing and maintenance of all types of electronic equipment is encouraged. Two 3-hour labs a week. S 250. Industrial Electronics (3) Industrial applications of electronic circuits: fundamental concepts of induction and dielectric heating, magnetic amplifiers, special oscillator circuits, and power rectification. Prerequisite: Electronic Technology 212. Three lectures. W 251. Industrial Electronics Laboratory (2) Testing and operation of basic circuits. Two 3-hour labs a week. W 262. Communications Circuits (5) Theory of operation, adjustment and maintenance 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 (5) Introduces the newest concepts and techniques in system analysis and troubleshooting in the fields of avionics and instrument repair. 271. Automatic Test Equipment (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! (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. A W S 289. Cooperative Work Experience (1-9) Open to all second year students in Electronics Technology. A continuation of Electronic Technology 189. A W S Su 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 ELECTRONIC ENGINEERING TECHNOLOGY The Electronic Engineering Technology curriculum is designed for the student who desires to continue his technical training and broaden his education. A student who has sufficient background in electronics may continue his education by pursuing the Electronic Engineering Technology curriculum. Because of the diversity of background of the students and the dynamic and changing nature of the field of electronics, each student is considered individually when his program is planned. It is necessary that each student consult with the department prior to his registering for classes and in this process the student can then 261 |
