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Course Criteria
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3.00 Credits
The concept of current, voltage, power, and resistance. The course deals with units, basic electrical laws, series and parallel circuits, network theorems, and instruments. AC sources, capacitance, inductance, and magnetism are introduced. Circuits are analyzed using PSPICE Laboratory work parallels class work and includes the use of various AC and DC instruments. ( 2-2-3) Prerequisites: MATH 1113
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3.00 Credits
The second part of the electric circuit sequence. The course deals with impedance and admittance in sinusoidal circuits. Resonant circuits, three-phase circuits, harmonics and transformer theory are also studied. Circuits are analyzed using PSPICE. Laboratory work parallels class work. ( 2-2-3) Prerequisite: ELET 3101K
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3.00 Credits
A study of discrete electronic devices. Semiconductor diodes, BJTs and FETs are studied with emphasis on characteristic curves. BJT and FET amplifiers are studied indepth and various configurations of small and large signal amplifiers are studied. Circuits are analyzed using PSPICE. Laboratory work parallels class work. ( 2-2-3) Prerequisite: ELET 3101K; Corequisite: ELET 3111K
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3.00 Credits
A study of the characteristics, performance, and application of the most common linear integrated circuits. The emphasis of this course is on operational amplifiers, comparators, multipliers, oscillators, voltage regulation, oscillators, phase-locked loops and data converters. Applications will illustrate use, and laboratory exercises will enhance learning. ( 2-2-3) Prerequisite: ELET 3201K
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3.00 Credits
A comprehensive study of binary and hexadecimal numbers, Boolean algebra, truth tables, Karnaugh maps, and combination logic using basic gates. Flip-flops, counters, registers, encoders, and decoders are also presented. Circuit simulation software is used in both classroom and laboratory work. ( 2-2-3) Prerequisite: ELET 3101K
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3.00 Credits
A thorough study of sequential design. Techniques and issues relevant to design will be covered indepth and project work will emphasize the use of LSI, MSI, and SSI circuits in the application and design of complex digital systems. Analog-to-digital converters (ADC), digital-to-analog converters (DAC), programmable logic devices (PLDs), and introduction to microprocessors are also studied. Circuit simulation software used in both classroom and laboratory. ( 2-2-3) Prerequisite: ELET 3301K
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3.00 Credits
A study of microprocessors and microcomputer systems. Related hardware and software issues of X86 will be covered. The course also covers memory systems, input/output devices and interfacing mechanisms. Classroom instruction is enhanced by laboratory work. ( 2-2-3) Prerequisite: ELET 3301K
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3.00 Credits
A comprehensive study of micro controller hardware and software. System architecture includes the CPU, timer, serial, and parallel I/O ports, RAM and ROM. The software portion of the course covers assembly language. Classroom instruction will be enhanced by laboratory work. ( 2-2-3) Prerequisite: ELET 3301K
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3.00 Credits
Analysis and design of linear feedback control systems are studied. Nyquist's and Routh'sstability criteria, Bode plots, transient behavior, static error coefficients, and the steadystate behavior of various system types are presented. The root-locus method and block diagram representation and simplification are also included. Classroom instruction will be enhanced by laboratory work. ( 2-2-3) Prerequisites: ELET 3111K; MATH 2111
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3.00 Credits
An introductory course in the characteristics and application of basic electric machinery. Three phase distribution systems, transformers, DC generators, AC generators, DC motors, and AC motors are studied. Laboratory work parallels classroom instruction. ( 2-2-3) Prerequisite: ELET 3111K
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