Technology Technology 181. Advanced Assembler Language Programming—Applied concepts of computer programming with the IBM 360 Assembler Language. Sophisticated assembly language. Sophisticated assembly language techniques. Prerequisite: Data Processing 71. Two lectures, one laboratory. A (3) Crittenden, Jensen 183. Direct Access File Design Concepts—Techniques of organization and applied concepts for Direct Access Storage Devices. Prerequisite: Data Processing 17 or 71. Two lectures. A (2) Lewis, Nicholas 185. Utility Programs and Macro Writing—A course designed to give the student experience with utility type programs and applied concepts of writing MACRO instructions for the IBM 360. Prerequisite: Data Processing 71. Two lectures, one laboratory. W (3) Crittenden, Jensen 187. Data Communications Systems—Concepts and access methods for teleprocessing and communication terminals. Prerequisite: Data Processing 61 or 71. Two lectures. W (2) Lewis, Nicholas 189. Advanced Programming Techniques—Sophisticated coding and logic techniques. Prerequisite: Data 71. Two lectures. S (2) Crittenden, Jensen 191. Individual Projects and Research—Any approved project, program, system, or research. Prerequisite: Approval by instructor. A W S (2-5) Nicholas, Staff 199. Seminar in Data Processing—Seminar treatment of data processing topics. Seniors only. Prerequisite: Data Processing 181. S (2) Lewis, Nicholas Department of Electronic Engineering Technology Hurschell G. Urie, Chairman Associate Professor, Grant E. Horsley, Hurschell G. Urie; Assistant Professors, Sidney Jensen, Robert Salmond, James Lewis; Instructors, Ronald Harris, Jay Phippen. The Electronic 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 Electronic Technician program may make application for admission to a course of study in Electronic Engineering Technology. Students desiring to graduate with a B.S. Degree in Electronic Engineer ing Technology must satisfy the general college requirements: English 1, 2, and 3; Health Education; Physical Education; the area requirements, and departmental requirements. Electronic Engineering Technology Major—The 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 Degree—Electronic Engineering Technology 154, 155, 156, 101, 102, 107, 108, 163, 164, 179, 180, 181, 182, 185, 186, 189, or equivalent. The student must receive a grade of "C" or better in six major 5 credit hour lecture- laboratory combination classes. Chemistry 5; Physics 51, 53, 54, 56; Journalism 126; Welding 165; Manufacturing Engineering Technology 127. Not less than 14 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. Students graduating with an Electronic Engineering Technology major are not required to take a minor. Courses of Instruction 101. Instruments and Measurements Laboratory—Operation of equipment studied in Electronic Engineering Technology 102. Two laboratories. S (2) Horsley 102. Instruments and Measurements—Basic Circuitry and operation of electronic instrumentation devices. Three lectures. S (3) Horsley 107. Transistor Circuits Laboratory—A practical laboratory course to give the student additional understanding of the principles taught in Electronic Engineering Technology 108. The student will compare design theory with practical operational circuits. Prerequisite: Electronic Technician 8. One laboratory. A (1) Jensen 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: Electronic Technician 7 and 8 or equivalent. Four lectures. A (4) Jensen 111. Telemetric Laboratory—Experimental Loops established for the student to become acquainted with telemetric operation. Two laboratories. S (2) Staff 280 281