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Course Criteria
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3.00 Credits
Students research current trends in telecommunications and emerging technologies. Oral presentation required. Prerequisite: Senior status.
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3.00 Credits
XML is showing up everywhere such as configuration files, content management, electronic data interchange, and web services. This class will cover the core technologies that make up XML:DTD, XML Schemas, XSLT, DOM, SAX, and SOAP. Assignments will be done with both MS Windows and Unix/Linux operating systems. Prerequisites: CS-220, CT-251, Junior status and professor approval.
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4.00 Credits
Network analysis, mesh analysis, nodal analysis, Thevenin, Norton, superposition, reciprocity, capacitors, inductors, RC circuits, RL circuits, RLC circuits. Steady state and transient conditions involving RC time constants, RL time constants. AC circuit analysis involving sine waves, phasors, reactance, impedance in series circuits, parallel circuits, and series-parallel circuits. Thevenin, Norton, network theorems. Power, effective power, resonance and filter circuits. Prerequisite: MA-114. Students who have taken EL-100 and EL-150 may not take this course for credit.
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4.00 Credits
A course in basic semi-conductor theory with applications. Topics include diodes, transistors, field-effect transistors, operational amplifiers and circuits. Analysis of circuits includes small- and large-signal modeling with frequency response and Bode plot methods. Amplifier theory and analysis for both small and large signal amplification. Multistage amplifiers and classes. Prerequisites: EE-159 or EL-150. Students may not take this course with EL- 200 and EL-250. Offered upon request.
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3.00 Credits
Design and analysis of power supplies and regulators. Includes special adjustable and fixed voltage regulator ICs, three-pin regulators, switch-mode supplies. DC to DC converters. Supply topologies, power handling, current limiting methods. Prerequisites: EL-250 and MA-261.
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3.00 Credits
Minimization of Boolean functions using Kamaugh Maps and Quine-McCluskey Tabulation. Multilevel circuits: PLAs, PALs, gate arrays. Combinational logic design with MSI LSI. Chip count reduction. Sequential circuit analysis and design. State tables and state diagrams. Asynchronous circuit design. Introduction to PAL design software. Students design, simulate and build circuits. Design using programmable devices. Prerequisite: EL-204.
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3.00 Credits
An advanced circuit analysis course that introduces students to computer-aided electronics packages and automated design. Students design and analyze circuits both mathematically and with computer simulation. Students build the circuits and compare predicted results with measured results obtained in the laboratory. Prerequisites: MA-261 and EL-250 or equivalent.
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3.00 Credits
Fundamentals of power transmission and electric motors. Single versus threephase, poly-phase systems, synchronous, asynchronous machines. DC and compound DC motors, induction motors. Equivalent circuit modeling of motors. Startup conditions. Transformers, transmission of electrical energy, energy distribution, and harmonics. Prerequisites: EE-159 and MA-261.
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3.00 Credits
Continuation of Digital Design I. Students explore larger-scale digital arithmetic and logic circuits using PAL programmer and related software. Extension to VHDL design and implementation. Programming CPLDs and FPGAs. Students design and build circuits according to design objectives in two parts: students first design, compile and verify their circuits using timing simulation on computers; students build and test circuits. Final project involves design, assembly, and testing of a PLD-based system. Prerequisite: EE-304. Offered during spring semester only.
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3.00 Credits
Students are taught to design, build and test microwave amplifiers using S-parameters and Smith Charts in conjunction with modern circuit design and simulation software. Both bipolar and field effect transistors are used to design amplifiers to specifications regarding signal flow gain, noise figure and intercept point. Students fabricate microstrip circuit boards using an in-house milling machine and then test the completed amplifiers in the laboratory. Actual and simulated results are presented. Prerequisite: EL-309.
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