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Course Criteria
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3.00 Credits
Computer arithmetic, combinational and sequential circuit analysis and design. Computer organization, bus control, input/output transfers, and interrupts. Introduction to microprocessor-based systems. Prerequisites: E&C-ENGR 216 with E&C-ENGR 317 concurrently. No longer offered, please see advisor. 3 hrs
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3.00 Credits
Laboratory for E&C-ENGR 316. Combinational and sequential logic. 8-bit microprocessors. No longer offered, please see advisor. 1 hr
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3.00 Credits
Digital electronics, integrated circuit level logic design, algorithmic state machines, microprocessor architecture and interfacing and digital systems design methodology. Must be taken concurrent with E&C-ENGR 327. Prerequisites: E&C-ENGR 316 with a C or higher. No longer offered, please see advisor. 3 hrs
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3.00 Credits
Laboratory for 326. Experimental topics related to the design of sequential logic systems and small digital systems. Must be taken concurrent with E&C-ENGR 326. Prerequisites: E&C-ENGR 317 with a C or higher. No longer offered, please see advisor. 1 hr
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3.00 Credits
Semiconductor device physics, elementary analysis and design of integrated analog electronic circuits that utilize diodes, BJT's, and MOSFET's in current mirrors, differential amplifiers and multistage amplifiers with active loads and operational amplifiers. Prerequisite: E&C-ENGR 276 with a C or higher, Co-requisite: E&C-ENGR 331 4 hrs
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1.00 Credits
Semiconductor devices to include pn junction diodes, bipolar and field effect transistors. operational amplifiers and applications, diode circuit applications, current mirrors, differential amplifiers and amplifiers with active loads. Prerequisite: E&C-ENGR 378, Co-requisite: E&C-ENGR 330. 1 hr
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3.00 - 4.00 Credits
Linear homogeneous and inhomogeneous differential equations, Laplace transform with applications; trigonometric and complex (exponential) Fourier series; Fourier transforms; Z-transforms; Matrices-properties and definitions; Gaussian elimination, linear systems, Cramer's rule, rank and inverse of a matrix; eigenvalue and eigenvectors; Complex number system, DeMoivre's theorem, analytic functions and Cauchy-Riemann equations, Taylor and Laurent series, Cauchy's integral formulas, Cauchy residue theorem; multi-valued functions. Their applications to transient analysis of electrical circuits, communication systems, EM theory, etc. will be discussed. Prerequisites: MATH 250 and E&C-ENGR 216. Students who have MATH 345 should enroll in 3 credit hours. 3-4 hrs
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3.00 Credits
Study of feedback techniques, with applications to control systems. Includes modeling, applications of Bode plot, root locus, state-variable, and Nyquist methods. Prerequisite: E&C-ENGR 380. Offered: Every year; Winter. 3 hrs
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3.00 Credits
Magnetic circuitry in general and in machinery; DC machine theory, operation, applications; transformer circuits, synchronous machine theory, operation applications; basic principles of energy conversion; use of matrices; basic principles of power transmission and control. Prerequisites: E&C-ENGR 376 with E&C-ENGR 302 concurrently. Offered: Winter. 3 hrs
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3.00 Credits
A continuation of E&C-ENGR 276. R-L-C transients responses, complex s-plane methods, resonance, frequency response, two-port networks, Laplace transforms for circuit analysis. Prerequisite: E&C-ENGR 378 concurrently. 3 hrs
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