Units: (3), EG-EE 412 and EGEE 448.An introduction to microprogramming concepts and applications to the control unit of a computer, microprogrammable control, arithmetic-logic unit, implementation of an embedded processor on FPGA and interfacing with the external memories. Units: (3), EGEE 483. All Rights Reserved. Units: (1-6), consent of adviser. Standard cell method. Calculus of variations, optimization of functions of several variables, Lagrange multipliers, gradient techniques, linear programming, and the simplex method, nonlinear and dynamic programming. Performance of SS systems in a jamming environment, with forward error correction. Hands-on synthesis, simulation, and testing of digital projects.Units: (2), Physics 227 and EGEE 203. 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. Performance analysis of coherent digital signaling schemes. College of Engineering and Computer Science, Prerequisites: Physics 226; Math 250A; Prerequisite or corequisite: EGGN 205. VLSI design software tools. Trained electrical engineers design electric circuits and equipment. .5 Credits. use | Feedback, Engineering Design, Modelling & Problem Solving, Multivariate Calculus & Ordinary Differential Equations, Advanced Multivariate Calculus & Ordinary Differential Equations, Computer Systems Principles and Programming, Analysis of Ordinary Differential Equations, Probability Models for Engineering & Science, Fundamentals of Electromagnetic Fields & Waves, Electrical Energy Conversion & Utilisation, Professional Practice and the Business Environment, Advanced Electronic & Power Electronics Design, Special Topics in Electrical Engineering 4A, Special Topics in Electrical Engineering 4B, Modern Asset Management and Condition Monitoring in Power System, Engineering Mechanics: Statics & Dynamics. 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. Applications to rule-based systems and control systems. Use and description of Novatel, Magelon, Ahstek, Collins and Tribel receivers. Continuation of 303, analysis and design of multistage and feedback amplifiers; frequency characteristics of amplifiers, frequency characteristics and stability of feedback amplifiers, differential amplifiers, design of IC circuit biasing, operational amplifiers and their applications. Units: (3), EGEE 323 or Math 338 for Computer Science majors. The curriculum starts with a core of fundamental courses on circuits, electromagnetics, solid-state electronics, and computer systems, leading to a comprehensive array of specialized courses and laboratories in all of the important areas of modern electrical engineering. Formulating, solving, verifying, and reporting engineering problems such as control, signal processing, and communication systems and engineering, math, and physics problems such as engineering/scientific computations and operations research using the MATLAB/Simulink program. Essential fundamentals for radio frequency, wireless and microwave engineering. Hardware and software concepts in microprocessors, processor family chips, system architecture, CPU, input/output devices, interrupts and DMA, memory (ROM, RAM), electrical and timing characteristics, assembly language programming. Units: (3), EGEE 309. 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. Study of engineering profession, professional ethics, and related topics. VHDL construction, data representation, formats, physical attributes. Parameter sensitivity analysis. Code tracking loops. Synthesis of passive element driving-point and transfer-functions with emphasis on RC networks. Enrol in the same code in each semester. May be repeated for credit. I/O interfacing with a microprocessor system; familiarization with the operating system, assembler, debugger and emulator; design of keyboard, LCO display, RS 232, D/A converter, A/D converter and floppy disk interfaces. Routing method system design, Design Project.

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