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Show Technology — Electronic Technology B. Support courses required: 1. Data Processing 260 (3). 2. Physics 112 (4), 115 (1) or Physics 262 (4), 265 (1), or Chem. 101 (5). 3. Related Technical Education 114 (5), 115 (5), 117 (5), 118 (5) or Mathematics 105 (5), 106 (5), 107 (5), 211 (5), and 212 (5). 4. Engineering Technology 142 (4), 355 (3). 5. Six credit hours of electives chosen from the following group: Industrial Engineering Technology 350 (3), 360 (3), Engineering Technology 345 (3), 456 (3). Technology — Electronic Engineering Technology Program: Electronic Service Technician—Institutional Certificate I. Generall Requirements: A. An overall G.P.A. of 2.00 or C. B. 45 total hours are required. C. English 101 (3) & 102 (3). II. Specific Requirements: A. Electronic Technology courses required (22 credit hours): 124 (5), 136 (5), 137 (2), 246 (4), and at least six credit hours from 147 (5), 148 (2), 222(4), 239(4). B. Support courses required: 1. Related Technical Education 115 (5). ELECTRONIC TECHNOLOGY COURSES 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 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 t'o prepare the student for work in the area of navigational computers, directional and stabilized platform gyro systems and Central Air Data Computer Systems. S 124. Introduction to Digital Electronics (.">) A combined lecture-laboratory class which introduces the fundamentals from digital electronics, e.g., number systems, codes, combinational logic, sequential logic, etc. Prerequisite: Related Technical Education 113 or equivalent (may be taken concurrently). Three one hour lectures, two labs per week. A W S Su 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 136. Fundamentals of Electric Circuits and Electronics (5) An introduction to the fundamental laws of electric circuit analysis and an introduction to electrical and electronic devices and components. Topics covered are DC and AC theory and the associated circuits which can be analyzed using a single equation. Must be taken concurrently with ELTCH 137. Prerequisites: Related Technical Education 115 or Math 106 (may be taken concurrently). A W S Su 137. Fundamentals of Electric Circuits and Electronics — Laboratory (2) Two three-hour laboratory periods each week, designed to support Electronic Technology 136. Must be taken concurrently with Electronic Technology 136. A W S Su 147. Circuit Analysis and Operational Amplifiers (5) Advanced Techniques in Circuit Analysis as applied to operational amplifiers and linear integrated circuits. Thevenin's and Norton's Theorems, superposition, nodal and mesh analysis. Prerequisites: Electronic Technology 136, 137, Related Technical Education 117 (may be taken concurrently). Must be taken concurrently with Electronic Technology 148. AWS 148. Circuit Analysis and Operational Amplifiers Laboratory (2) Two three-hour laboratory periods each week. Must be taken concurrently with Electronic Technology 147. AWS 154. Semiconductor Devices & Circuits (5) A study of basic electronic amplifying circuits employing semiconductor devices. Topics include Transistor Bias, Bias Stability, Thermal Limitations, Gains, Frequency Response, and bandwidth. Prerequisites: Electronic Technology 136,137,147,148. AWS 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 222. Digital Design (4) A continuation of Electronic Technology 124 involving the design and analysis of multiple input and output digital circuits. Prerequisites: Electronic Technology 124, 136-137,147-148,154. A S 239. Electronic Amplifier and Control Systems (4) Applications of the principles of Electronics and Electricity to control systems and amplifier systems. Topics covered include power supplies, oscillators, detectors, phase locked loop, feedback. Prerequisites: Electronic Technology 147,148,154. A S 246. T.V. Theory and Servicing Procedures (4) Operation, maintenance and adjustment of black and white and color television receivers. Particular stress will be placed on proper procedures in test equipment use and in diagnosis of troubles. Prerequisites: Electronic Technology 126, 136, 137. Four three-hour lecture-lab integrated classes per week. A 250. Industrial Electronics (3) Industrial applications of electronic circuits: fundamental concepts of induction and dielectric heating, magnetic amplifiers, special oscillator circuits, and power rectification. Three lectures. W 251. Industrial Electronics Laboratory (2) Testing and operation of basic circuits. Two 3-hour labs a week. W 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 be assured of building upon previous courses and knowledge of his field. Students desiring to graduate with a Bachelor of Science Degree in Electronic Engineering Technology must satisfy the requirements described below. 264. Communication Circuits I (4) Lecture and laboratory experiences with cables and connector installation, amplifier matching, Class C Amplifiers, amplitude modulation, frequency modulation and transmitter control circuitry. Prerequisites: Related Technical Education 117 and Electronic Technology 154. Three one hour lectures, one lab per week. S 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 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 Program: Electronic Engineering Technology—Bachelor Degree I. General Requirements: A. Specific course requirements of the college (see index). B. Bachelor Degree General Education requirements (see index). C. A minor is not required. D. Electronic Engineering Technology majors must have a C or better in major courses. E. An overall G. P. A. of 2.00 or C. F. 198 total hours required for this degree. G. 60 of the 198 total hours must be upper division (courses numbered 300 and above). II. Specific Requirements: A. Courses required 1. Electronic Technology 147 (5), 148 (2), 154 (5), 222 (4), 239 (4), 264 (4). 2. Electronic Engineering Technology 322 (4), 332 (5), 350 (4), 364 (4), 424(4), 428(4), 479(2). 3. Two of the courses selected from the following group: Electronic Engineering Technology 356 (4), 444 (5), 452 (5), 454 (4), 474 (5), 493 (5). 262 263 |