Technology — Electronic Engineering Technology tronic Technology 212 and 213; Electronic Engineering Technology 320, 321; 341, 343; 422, 423 or equivalent. Additional courses in instrument circuits and instrumentation are recommended. Prerequisites: Algebra and Trigonometry. COURSES OF INSTRUCTION 310. Instruments and Measurements—Basic theory pertaining to the function, operation, application, and adjustment of precision type electronic instruments and devices. Methods employed in industry to obtain precise measurements of electronic and electrical parameters. Prerequisite: Sophomore level electronic course work. Three lectures. S (3) 311. Instruments and Measurements Laboratory—Operation of equipment studied in Electronic Engineering Technology 310. Two 3-hour laboratories a week. S (2) 320. 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 Technology 212, and 213, or equivalent. Four lectures. A (4) 321. Transistor Circuits Laboratory—A practical laboratory course to give the student additional understanding of the principles taught in Electronic Engineering Technology 320. The student will compare design theory with practical operational circuits. Prerequisite: Electronic Technology 212. One 3-hour laboratory a week. A (1) 324. Pulse and Digital Circuits—Basic theory operation and waveforms or R-C and R-L time constant circuits; diode and triodc switching, astable, bistable, and monostable multivibrators; blocking oscillators, sawtooth generators, gating circuits, delay circuits, electronic counters; application to special purpose circuits. Prerequisite: Electronic Engineering Technology 320 or equivalent. Three lectures. W (3) 325. Pulse and Digital Circuits Laboratory—Operation and adjustment of circuits and related control and readout components used in pulse and digital circuits. Two 3-hour laboratories a week. W (2) 338. Missile Guidance Systems—Electronics principles, circuitry and operation concepts used in missile guidance systems. 316 Technology — Electronic Engineering Technology Prerequisite: Related Technical Education 118, Physics 111 or equivalent. (Offered alternate years.) Five lectures. W (5) 341. Fundamentals of Electronics—For the student not majoring in electronics. Electronic concepts relating to voltage, current, resistance, inductance, and capacitance as single components and in combinations in D.C. and A.C. circuits. Meets five; times each week. To be taken concurrently with Physics 112. Prerequisite: Related Technical Education 117 or equivalent. (Replaces Electronic Engineering Technology 141 and 142.) W (5) 343. Fundamentals of Electronics—For the technical student not majoring in electronics. Transistor and vacuum tube principles and fundamental circuits. Industrial applications stressed. Two lecture-recitations and one laboratory period a week. Prerequisite: Electronic Engineering Technology 341 or equivalent. S (3) 345. FCC License Examination Study—Material covered in the Federal Communications Commission 2nd class commercial license examination. Two lectures. Prerequisite: Electronic Technology 212 or equivalent. A (2) 346. FCC License Examination Study—Material covered in the Federal Communications Commission 1st class commercial license examination. Two lectures. Prerequisite: Electronic Technology 212 or equivalent. W (2) 354, 355, 356. Calculus for Electronics—Concepts and applications in differentiation and integration as used in electronics. Prerequisite: Related Technical Education 118 or equivalent. Three lectures. A W S (3-3-3) 422. Microelectronics and Integrated Circuits—Fundamentals pertaining to design principles for monolithic, hybrid, multiphase, and thin film circuits. Characteristics of transistors, diodes, field effect and other special devices employed in integrated circuits. Fabrication principles, including crystal growing, epitaxial and diffusion processes, assembly, packaging, and reliability of integrated circuits. Prerequisite: Electronic Engineering Technology 320 or equivalent. Four lectures. A (4) 423. Microelectronic and Integrated Circuits Laboratory- Testing and assembly procedures used with micro-miniature circuit modules. One 3-hour laboratory a week. A (1) 432. Radar Fundamentals—Theory of circuits used in radar and television; concepts dealing with non-sinusoidal waves and 317