Technology Course Automotive 151 Automotive 153 Automotive 190 Mfg. Eng. Tech. 170 Mfg. Eng. Tech. 176 Management 148 Management 160 Banking and Finance 110 Sociology 150 Area Requirements Machine Tool 127 Senior Title Metal Refinishing Testing and Analysis of Power Units Seminar Statistical Quality Con. Supervision Principles Management of a Small Business Business Law Money and Banking Social Psychology Selected Machine Shop W 3 10 5 5 3 3 16 17 19 Department of Electronics Engineering Technology Hurschell G. Urie, Chairman Associate Professor, Grant E. Horsley, Hurschell G. Urie; Assistant Professors, Sidney Jensen, Robert Salmond; Instructors, Ronald Harris, James Lewis, Ned Wheeler. The Electronics Engineering Technology Curriculum is designed for the student who desires to continue his technical training and broaden his general education. Any graduate from an accredited two year Electronics Technician program may make application for admission to a course of study in Electronics Engineering Technology. Students desiring to graduate with a BS Degree in Electronics Engineering Technology should consult with a member of the Department of Electronics to establish a suitable course of study. Department Major—In addition to the general requirements for graduation from Weber State College the following courses are required for a departmental major: B.S. Degree—Electronics 154, 155, 156, 101, 102, 107, 108, 163, 164, 179, 180, 181, 182, 185, 186, 189, or equivalent. Chemistry 5, Physics 21, 23, Journalism 126, Welding 85, or 185, Mfg. Eng. Tech. 127. Not less than 14 additional hours of upper division course work in Electronics, Manufacturing Engineering Technology, 280 Technology Industrial Engineering Technology, Mathematics, Education, Business, or other approved supporting field. Department Minor—A minor is not required. Courses of Instruction 101. Instruments and Measurements Laboratory—Operation of equipment studied in Electronics 102. Two laboratories. A (3). Staff 102. Instruments and Measurements—Basic circuitry and operation of electronic instrumentation devices. Three lectures. A (3). Staff 107. Transistor Circuits Laboratory—A practical Laboratory course to give the student additional understanding of the principles taught in Electronics 108. The student will compare design theory with practical operational circuits. Prerequisite: Electronics 8. One Laboratory. A (1). Staff 108. Transistor Circuit Analysis—Analysis of transistor circuits such as biasing, small signal amplifiers, large signal amplifiers, input characteristics, output characteristics, gain considerations, circuit analysis through the use of equivalent circuits. Prerequisites: Electronics 7 and 8 or equivalent. Four lectures. A (3). Staff 111. Telemetric Laboratory—Experimental Loops established for the student to become acquainted with telemetric operation. Two laboratories. S (2). Staff 112. Telemetric Principles—Methods and principles used in various types of systems to transfer measurements by wire and wireless. Three lectures. S (3). Staff 127. Electronics Equipment Maintenance—Adjustment and maintenance of electronics equipment such as test equipment and electronic equipment used in industrial applications. Supervised study and shop practice. Prerequisite: Electronics 75 and 76 or equivalent. W S (3). Staff 128. Electronics Equipment Circuits—Procedures used in maintenance of industrial type electronic instruments and fixtures. Supervised study and laboratory practice. Prerequisite: Electronic 127 or equivalent. S (3). Staff 131. Radar Fundamental Laboratory—Testing and operation of basic circuits studied in Electronics 132. Two laboratories. S (2). Staff 132. Radar Fundamentals—Theory of circuits used in radar and television; concepts dealing with non-sinusoidal 281