Course list for the Electrical Engineering Major. Units: (3), EGEE 303L. Design and analysis of MOS logic circuits; PMOS, NMOS and CMOS gates, flip-flops, shift registers and memory circuits. Information measures, probabilistic studies of the transmission and encoding of information, Shannon's fundamental theorems, coding for noisy channels. Units: (3), EGEE 310 and EGEE 323 or equivalent. MS in Electrical Engineering; Course List Electrical Engineering Courses EGEE 203 - ELECTRIC CIRCUITS Prerequisites: Physics 226; Math 250A; Prerequisite or corequisite: EGGN 205. The linearization process and representation with block diagrams and signal flow graphs; discrete-time systems and digital signals including use of Z-transforms; stability theory of continuous and discrete time systems. Principles of amplitude, angular and pulse modulation, representative communication systems, the effects of noise on system performance. Computation of GPS and GEO stationary satellite positions from ephemeris data available on almanac. Discrete-time signals and systems; solution of difference equations; Fourier transform for a sequence; Z-transform; discrete Fourier transform; FIR and IIR realizations; design of digital filters. (3 hours laboratory) Units: (1), Physics 226, Math 250B or equivalent.Fundamentals and engineering applications of Fourier series, Fourier transforms, Laplace transforms, complex analysis, vector analysis; engineering applications.Units: (3), EGEE 203 and EGGN 308. Speed power trade off, scaling, device and circuit simulation. The concentration in Naval Science and Technology is designed to expose students to engineering … Units: (3), CPSC 120 and EGEE 308. Use CAD program for schematic capture and simulation. Fuzzy logic and systems; comparison of classical sets, relations, and operators with fuzzy sets, relations and operators; fuzzy arithmetic and transformations; classical predicate logic and reasoning versus fuzzy logic and approximate reasoning. Satellite signals and co-ordinate transform math. Units: (3), EGEE 311 and PHYS 227. Students complete all the required courses for the BS in electrical engineering and choose their free and professional electives from a specified set of courses in one of the following option areas. This site is maintained by Units: (3), EGEE 310 and EGEE 409. Code tracking loops. Courses in Electrical Engineering are interdisciplinary. Units: (3), EGEE 443. Units: (3), EGEE 303L. Units: (3), EGEE 409. Corequisite: EGEE 203L. Quantum mechanical principles, atomic structure, crystal structure, crystal defect and diffusion, lattice vibration and phonons, energy band theory, charge transport phenomena, free electron theory of metal, intrinsic and extrinsic semiconductors, p-n junction theory, transistor theory. Set Theory, axiomatic foundation of probability; random variables; probability distribution and density functions; joint, conditional, and marginal distributions; expected values; distribution of function of random variables; central limit theorem; and introduction to random processesUnits: (3), Math 150A and junior or senior standing.Development and presentation of design alternatives for engineering systems and projects using principles of engineering economy and cost benefits analysis. Courses A complete list of our lower division, upper division, and graduate courses can be found in the General Catalog . Units: (3), EGGN 403 or Math 340 for Computer Science majors. Computer aided design of VLSI circuits. Clean and Renewable Energy. [2] Students without at least a Sound Achievement in Senior Maths C are required to take MATH1050 as an elective before MATH1051. (3 hours laboratory, 1 hour lecture) Units: (2), EGEE 203, Physics 226 and Math 250B. Units: (3), EGEE 303 and EGEE 245. Below is a flow chart illustrating the relationship of our lower division and upper division courses. [5] Code for students completing the course in one semester. Units: (3), EGEE 465 and EGEE 448 or equivalent. But you will also take core electrical engineering courses as well as classes in other Columbia engineering majors. (Not available for use on graduate study plan).Units: (3), EGEE 280 and EGEE 245L. Applications to rule-based systems and control systems. Prerequisite or corequisite: EGEE 310. Units: (3), EGEE 407. .5 Credits. Scaling design and analysis of CMOS circuits. Formulation of decision rules for the detection of signals in a noisy environment, optimum receivers. Electromagnetic fields and circuits; transformers, saturation effects. Introduction to Spread Spectrum (SS) Systems. Units: (3), EGEE 409. Units: (3), EGEE 323 or Math 338 for Computer Science majors. You learn how to take systems and devices apart, understand how they work and how to fix them. Units: (3), EGEE 412. Use the digital computer for simulation of physical systems modeled by ordinary differential equations; problem formulation, in-depth analysis of two integration methods, and the use of a general purpose system simulation program such as CSSL.