WEBER STATE COLLEGE Bulletin 77-78

Technology Electronic Technology Program: Electronic TechnologyAssociate of Applied Science Degree I. General Requirements: A. A minimum of 114 credit hours. B. The required courses in major field require a minimum of 67 credit hours. C. Engish 101A (1), 101B (1), 101C (1); and 103B (3) or Communication 232 (3) or 326 (3). D. At least 20 hours from the general education courses listed in the catalog, including at least one course in each of the five areas, Humanities, Life Science, Physical Science, Social Science, and Other. E. An overall G. P. A. of 2.00 or C. II. Specific Requirements: A. Electronic Technology courses required (40 credit hours): 124 (5), 126 ( 2), 130 (4), 150 ( 5), 234 (4), 244 ( 5), 246 (4), 254 (4), 264 ( 4). One of the following: 224 (3), 266 (3), or 276 (3). B. Support courses required: 1. Data Processing 260 (3). 2. Physics 111 (4), and 112 (4) or Physics 261 (4) and 262 (4). 3. Related Technical Education 114 (5), 115 (5), 117 (5), 118 (5) or Mathematics 105 (5), 106 (5), 107 (5) and 211 (5). 4. Engineering Technology 142 (4), 355 (3). 5. Six credit hours of electives chosen from the following group: Welding 165 (3); Machine Tool 127 (3); Distributive Education 120 (5); Engineering Technology 456 (3). Program: Electronic Service TechnicianInstitutional Certificate I. General Requirements: A. An overall G. P. A. of 2.00 or C. B. 45 total hours are required. C. English 101A (1), 101B (1), 101C (1), and 103B (3). II. Specific Requirements: A. Electronic Technology courses required (26 credit hours): 124 (5), 126 (2), 130 (4), 150 (5), 246 (4) and at least six credit hours from 224 (3), 266 (3), 276 (3). B. Support courses required: 1. Related Technical Education 114 (5). 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 relation- ships 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) 260 Technology Electronic Technology 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 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 124. Introduction to Digital Electronics (5) 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. 126. Basic Trouble Locating and Soldering Techniques (2) An introduction to a systematic approach to signal injection and tracing, and to basic assembly, disassembly and repair techniques with particular emphasis on development of soldering techniques. Prerequisite: Electronic Technology 130 development of soldering techniques. Prerequisite : Electronic Technology 130 (or can be taken concurrently). Two three hour lecture-lab integrated classes per week. 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. Electric Circuit Fundamentals (4) An introduction to D.C. and A.C. circuit analysis and electric motors and generators. Includes series, parallel and series-parallel A.C. and D.C. circuits, measuring instruments, polyphase systems, and motors and generators. Prerequisite: Related Technical Education 114 or Math 105 (or to be taken concurrently). Three one hour lectures, one lab per week. 150. Introduction to Electronics (5) Analysis and application of basic electronic circuits using Ohm's Law and Kirchhoff's Voltage and Current Laws. Circuits will include the use of diodes and transistors with their associated circuit components including applications such as automotive generator and regulator circuits, numeric machine motor control, etc. Prerequisite: Related Technical Education 114 and Electronic Technologp 130 (or equivalent). 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 224. Techniques of Digital Trouble Shooting (3) The course is designed to point out the differences in trouble shooting linear circuits as compared to digital and provide the student training in the use of specialized equipment used in testing digital circuits. Three 3-hour lecture-laboratory integrated classes. Prerequisites: Electronic Technology 124. Three, three hour lecture-lab integrated classes per week. 234. Circuit Analysis (4) An expansion of circuit analysis techniques such as mesh analysis, nodal analysis, network theorems, phasors, series, parallel and series-parallel A.C. circuits. Prerequisites: Electronic Technology 130. Three one hour lectures, one lab per week. 244. Linear Circuits and Wave Generation (5) A lecture-lab combination class covering the analysis and use of linear integrated circuits in amplifiers, detectors, comparators, etc. The laboratory will stress use of linear integrated devices in construction and testing of the above. Prerequisites: Electronic Technology 234, 254 (may be taken concurrently). Three one hour lectures, two labs per week. 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 12(5, 130. 150. Two three hour lecture-lab integrated classes per week. 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 254. Semiconductor Devices and 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. Prerequisite: Electronic Technology 150. Four one hour lectures and one lab per week. 261