Technology — Electronic Engineering Technology 138. Missile Guidance Systems—Electronics principles, circuitry and operation concepts used in missile guidance systems. Prerequisite: Elec. Tech. 8, Physics 51 or equivalent. Five lectures. W (5) Harris 141. Fundamentals of Electronics—For the technical student not majoring in electronics. Electronic concepts relating to voltage, current, power, resistance, inductance and capacitance in direct current circuits. Two lecture-recitations and one laboratory period a week. Prerequisite: Technical Education 15 or equivalent. A (3) Harris 142. Fundamentals of Electronics—For the technical student not majoring in electronics. Electronic concepts relating to resistance, inductance, and capacitance as single components and as combinations in alternating current circuits. Two lecture-recitations and one laboratory period a week. Prerequisite: Electronic Engineering Technology 141 or equivalent. W (3) Harris 143. 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 142 or equivalent. S (3) Wright 145. FCC License Examination Study—Material covered in the Federal Communications Commission 2nd class commercial license examination. Two lectures. Prerequisite: Elect. Tech. 8 or equivalent. A (2). Phippen 146. FCC License Examination Study—Material covered in the Federal Communications Commission 1st class commercial license examination. Two lectures. Prerequisite: Elect. Tech. 8 or equivalent. W (2). Phippen 151. Line and Networks Laboratory—Experiments in line and network principles. Two laboratories. A (2). Staff 152. Theory of Lines and Network—Transmission line and filter network theory and configurations. Three lectures. A (3). Staff 154. Calculus for Electronics—Concepts and applications in differentiation and integration as used in electronics. Prerequisite: Technical Education 18 or equivalent. Three lectures. A (3). Urie 155. Calculus for Electronics—Continuation of Electronics 154. Three lectures. W (3) Urie Technology — Electronic Engineering Technology 156. Calculus for Electronics—Continuation of Electronics 155. Three lectures. S (3). Urie 161. Wave Propagation Laboratory—Adjustments, operation, and measurements of transmission lines and radiating devices. Three laboratories. A (2). Staff 162. Wave Propagation—Basic concepts of electrical wave propagation related to transmission lines and wave guides loaded into a radiating device. Three lectures. A (3). Staff 163. Micro-Wave Laboratory—Adjustments and tests on devices generating and conducting micro-wave signals. Two laboratories. A (2). Jensen 164. Micro-Wave Techniques—Elementary study of microwave generating and propagating devices; emphasis on phenomena peculiar to micro-wave signals. Prerequisite: Elect. Tech. 62. Three lectures. W (3) Jensen 167. Air-Ground Communications Laboratory—Adjustment and operation of equipment used in air-ground communications. Two laboratories. S (2) Staff 168. Air-Ground Communications—Special circuits and problems relating to air-ground communication. Three lectures. S (3) Staff 179. Microelectronic and Integrated Circuits Laboratory— Testing and assembly procedures used with micro-miniature circuit modules. One laboratory. A (1) Horsley 180. 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 108 or equivalent. Four lectures. A (4) Horsley 181. Pulse and Digital Circuits Laboratory—Operation and adjustment of circuits and related control and readout components used in pulse and digital circuits. Two laboratories. W (2) Horsley 182. Pulse and Digital Circuits—Basic theory operation and waveforms or R-C and R-L time constant circuits; diode and triode switching, astable, bistable, and monostable multivibrators; blocking oscillators, sawtooth generators, gating circuits, delay circuits, 310 311