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Course Criteria
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4.00 Credits
Analysis of microprocessors with emphasis on architecture, bus cycle, internal registers, addressing modes, and instruction sets. Memory and I/O interface techniques. Lecture, discussion three periods per week; laboratory, problem session two periods per week. Prerequisites & Notes PRQ: CSCI 240 or other high-level programming language, and ELE 250. Credits: 4
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4.00 Credits
Introduction to communication system analysis. Analysis and design of radio frequency electronic circuits; building blocks of radio transmitters and receivers; circuit conditions required to produce oscillation, frequency translation, modulation, and detection. Introduction to phase locked-loop circuit design. Lecture, discussion three periods per week; laboratory, problem session two periods per week. Prerequisites & Notes PRQ: ELE 315, ELE 330, and ISYE 335 or STAT 350. Credits: 4
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3.00 Credits
Fundamentals of electromagnetic field theory; concepts of force, energy, potential, capacitance, and inductance in electromagnetic fields; analytical and experimental solutions of Laplace's equation; Maxwell's equations in differential and integral form.Prerequisites & Notes PRQ: ELE 210, MATH 232, and MATH 336. Credits: 3
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4.00 Credits
Control system modeling for electromechanical systems using block diagram, flow chart, flow graphs, and derivation of transfer function using Laplace transforms. Time and frequency domain analysis and controller design using root-locus, Routh-Hurwitz stability method, and Bode Plots. Software for control system used as an aid in the control system analysis and design process. Prerequisites & Notes PRQ: ELE 315 and ELE 330. Credits: 4
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4.00 Credits
Design and application of electrodes, bio-potential amplifiers, biosensor applications, therapeutic devices. Medical imaging. Electrical safety. Measurement of ventilation, blood pressure and flow. Three hours lecture per week and 10 laboratory sessions (3 hours each). Prerequisites & Notes PRQ: ELE 330, or consent of department. Credits: 4
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3.00 Credits
Theory, analysis, and design of biomedical sensors. Topics include biological elements; immobilization of biological components; medical, biological, and chemical sensors; and transducers based on electrochemistry, optics, and solidstate devices. Prerequisites & Notes PRQ: ELE 330 and ELE 335, or MEE 390, or consent of department. Credits: 3
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3.00 Credits
Modeling of biomedical signals and analysis of biomedical systems using both time-domain and frequency-domain techniques. Design of linear and nonlinear filters for biomedical applications and medical imaging. Practical applications in cardiac and neurological signal processing. Not available for credit to students with credit in ELE 451. Prerequisites & Notes PRQ: ELE 315 or consent of department. Credits: 3
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3.00 Credits
Students use their knowledge in biological sciences, engineering design concepts, and analytical and computational tools, in conjunction with their own ingenuity, to create a new solution to a biomedical engineering design problem. Team project required. Prerequisites & Notes PRQ: ELE 420, ELE 425, and ELE 491. Credits: 3
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3.00 Credits
Design of high performance logic designs utilizing programmable logic gates. Design of finite state machines and introduction to latest computer-aided tools. Prerequisites & Notes PRQ: ELE 250 or consent of department. Credits: 3
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3.00 Credits
Continuation of ELE 335 dealing with complex semiconductor devices. Theory of operation of integrated circuits, solid state lasers, switching devices, and negative conductance microwave devices. Prerequisites & Notes PRQ: ELE 335. Credits: 3
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