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Course Criteria
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5.00 Credits
Prerequisites: PHYS 153 or permission of the instructor. This course is intended to provide electrical engineering students with an understanding of electricity and its applications. Topics include AC/ DC circuit-analysis methods such as nodal and mesh analysis, superposition, Norton Theorem, Thevenin Theorem and transient analysis.
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5.00 Credits
Prerequisites: ENGR 209 or permission of the instructor.. This course covers small signal analysis, DC operating point, first-order circuits, second-order circuits, circuit simulation methods, sinusoidal steady state, phasors, poles and zeros of network functions, ideal transformed linear and non-linear two-port networks.
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4.00 Credits
Prerequisites: PHYS 151, MATH 161 or Technical Calculus I or equivalent. Fundamentals of applied mechanics, equivalent force systems, equations of equilibrium, structures, three dimensional force systems and friction. (two hours lecture, four hours laboratory per week)
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4.00 Credits
Prerequisites: ENGR 240, MATH 162, PHYS 152 or Technical Calculus II or equivalent. A study of the internal stresses, internal deformations and deflections of materials. Topics may include: shear and moment diagrams for beams, combined loading on beams, temperature stresses and torsional loading. (four hours lecture per week)
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4.00 Credits
Prerequisite: ENGR 240. Kinematics and kinetics of particles and rigid bodies using vector analysis; force mass acceleration, work and energy, impulse and momentum, translating and rotating coordinate system. (four hours lecture per week)
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2.00 Credits
Prerequisite: ENGR 160. A continuation of ENGR 160, this course presents logic families, hardware characteristics, noise control and modern programmable logic.
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4.00 Credits
Prerequisite: ENGR 160; CSCD 255 or permission of the instructor. This is an introductory course on microprocessor and microcontroller systems organization. It provides low-level programming principles for microcomputer based systems. The course emphasizes assembly and C language programming techniques and laboratory experiments in input/output programming, memory organization, interrupts and interfacing methods.
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5.00 Credits
Prerequisite: ENGR 210 or concurrent enrollment in ENGR 210, or permission of the instructor This course is an introduction to continuous-time signal analysis. Topics include: generalized functions and the relationship to basic signals including impulses, pulses and unit step; system properties such as linearity, time-invariance and causality; and Fourier analysis.
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5.00 Credits
Prerequisite: ENGR 320. Introduction to Laplace Transform, Z-transform, the Fourier Series, the Fourier Transform, the Discrete Fourier Transform (DFT), the Discrete-Time Fourier Transform (DTFT) and Sampling Theorem. Introduction to analysis of Linear Time Invariant (LTI) system using above techniques for continuous and discrete time.
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5.00 Credits
Prerequisites: ENGR 210 or concurrent enrollment in ENGR 210, or permission of instructor . This course introduces modeling, characterization and application of semiconductor devices and integrated circuits. It includes the development of models for circuit-level behavior of diodes, bipolar transistors, field effect transistors and op-amps and applies the models to the analysis and design of linear amplifiers.
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