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Course Criteria
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1.00 Credits
Circuits laboratory for non-electrical engineering majors. This is identical to the laboratory portion of EE 2440. Prerequisite: Grade C or better in MATH 2425. Corequisite: EE 2320 and PHYS 1444.
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1.00 Credits
No course description available.
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3.00 Credits
No course description available.
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3.00 Credits
No course description available.
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3.00 Credits
For non-electrical engineering majors. Basic principles of R, L, and C components. Kirchhoff's laws, network analysis, loop and node equations, basic network theorems. Steady-state Alternating Current (AC) phasor analysis, operational amplifiers, filtering, and digital circuits. Prerequisite: Grade C or better in MATH 2425 and PHYS 1444.
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3.00 Credits
Introduction and application of mathematical and algorithmic thinking to solve electrical engineering problems and interpret the results. Analytical, numerical, and graphical analysis, utilization of complex numbers, vectors, matrices, and arrays to represent EE variables and special functions. Transform methods to solve differential and integral equations, linear and nonlinear equations, advanced vector and 3D integral and differential calculus applied to EE problems. Sources of error when using arithmetic operations, data structures, sorting and searching. Problems and numerical examples using MATLAB will be covered during recitation and computer laboratory sessions. Prerequisite: Grade of C or better in each of CSE 1311, MATH 2326, and MATH 3319.
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4.00 Credits
Introduction to semiconductors, carrier statistics, drift and diffusion, semiconductor diodes, bipolar junction transistors (BJTs), and field-effect transistors (FETs). Circuit applications of diodes. Direct Current (DC) biasing and stability of circuits containing diodes, BJTs, and FETs. Introduction to mid-band single stage small signal analysis of BJT and FET circuits. Laboratory experiments to complement concepts learned in class. Prerequisite: Grade C or better in both EE 2415 and MATH 2326.
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4.00 Credits
Basic circuit concepts of resistor, inductor, and capacitor (RLC) components. Kirchhoff's laws, resistive network analysis, power calculations, loop and node equations, topology, basic network theorems. Dependent sources and operational amplifiers. Computer-assisted solution of circuit problems. Elementary transient time-domain analysis. Introduction to frequency domain analysis and Bode plots. Steady state A-C phasor analysis, including element laws and phasor diagrams. Problems and experimental demonstrations will be covered during recitation and laboratory sessions. Prerequisite: Grade C or better in EE 1205, MATH 2425. Co-requisite: MATH 3319, PHYS 1444.
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4.00 Credits
For non-electrical engineering majors. Basic principles of R, L, and C components. Kirchhoff's laws, network analysis, loop and node equations, basic network theorems. Steady-state AC phasor analysis, operational amplifiers, filtering, and digital circuits. Concurrent laboratory experiments complement lecture topics. Prerequisite: Grade C or better in MATH 2425 and PHYS 1444.
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4.00 Credits
Theory and design of digital logic circuits. Number systems and binary arithmetic. Boolean function theorems and minimization by algebraic and mapping methods, logic gates, arithmetic logic units, multiplexers/ demultiplexers, analysis and synthesis of combinatorial logic circuits, read-only memory (ROM) memories, programmable logic arrays (PLAs), introduction of hardware description language, synchronous and asynchronous state machines, hazards and races in pulse mode and fundamental mode state machines. Laboratory consists of "proof of concept" experiments using digital components. Prerequisite: CSE 1311 with grade of C or better.
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