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Show Technology — Electronic Engineering Technology Technology — Electronic Engineering Technology 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 laboratory. A (1) 432. Radar Fundamentals—Theory of circuits used in radar and television; concepts dealing with non-sinusoidal waves and transients, R-C and R-L time constants, gas tubes, electronic reflectors, voltage doublers, and regulators, video-amplifiers, R-C oscillators, and cathode followers. Prerequisite: Electronic Technology 262 and Electronic Engineering Technology 464. Three lectures. S (3) 433. Radar Fundamental Laboratory—Testing and operation of basic circuits studied in Electronic Engineering Technology 432. Two laboratories. S (2) 434. Radar Systems—Theory of vacuum tube R-C and R-L circuits used as limiters, clampers, peakers, sawtooth generators, multivibrators, and counters; also, cathode ray tubes, transmission lines, wave guides, cavity resonators, and ultra-high frequency generators. Prerequisite: Electronic Engineering Technology 432 or equivalent. Three lectures. S (3) 435. Radar Systems Laboratory—Testing and operation of basic circuits and subassemblies of radar systems. Two laboratories. S (2) 450. Computer Circuits Applications-Application of basic circuits to digital and analog data handling devices. Three lectures. Prerequisite: Electronic Engineering Technology 324 and 355 or equivalent. S (3) 451. Computer Circuits Laboratory—Operation and adjustment of circuits and related control and readout components in computer type devices. Two laboratories. S (2) 452. Fundamentals of Analog Computers—An introduction to fundamental analog computing circuits, their design and application. Includes integrating, differentiating, summing, multi- plving. dividing, and other special computing circuits. Prerequisite: Electronic Engineering Technology 320, 356, or equivalent. Three lectures. W (3) 453. Analog Computer Laboratory—Application of analog computing circuits to actual laboratory experiences. Will include solution of practical problems discussed in lecture. Prerequisite and or concurrent: Electronic Engineering Technology 452. Two laboratories per week. W (2) 456. Principles of Automation—Introduction to methods used in automatic programming and control of industrial equipment. Three lectures. A (3) 457. Principles of Automation Laboratory—Set-up, adjustment and operation of small automatic control and programming systems. Two laboratories. A (2) 460. Theory of Lines and Network—Transmission line and filter network theory and configurations. Three lectures. Su. (3) 461. Line and Networks Laboratory—Experiments in line and network principles. Two laboratories. Su (2) 464. Micro-Wave Techniques—Elementary study of microwave generation and propagating devices; emphasis on phenomena peculiar to micro-wave signals. Prerequisite: Electronic Technology 262. Three lectures. W (3) 465. Micro-Wave Laboratory—Adjustments and test on devices generating and conducting micro-wave signals. Two laboratories. A (2) 468. Air-Ground Communications—Special circuits and problems relating to air-ground communication. Three lectures. Su (3) 469. Air-Ground Communications Laboratory—Adjustment and operation of equipment used in air-ground communications. Two laboratories. Su (2) 470. Telemetric Principles—Methods and principles used in various types of systems to transfer measurements by wire and wireless. Three lectures. Su (3) 471. Telemetric Laboratory—Experimental Loops established for the student to become acquainted with telemetric operation. Two laboratories. Su (2) 302 303 |