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Course Criteria
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3.00 Credits
Introduction to periodically gated, amplitude, single sideband, frequency and phase modulation methods involved in communications systems. Introduction to digital modulation communication techniques. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 305, 310, MAT 132.
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3.00 Credits
Microprocessor/microcontroller organization, operation, assemblylanguage programming and input/output applications. A/D conversions and realtime interrupts. 3 lecture problems. 1 threehour laboratory. Prerequisites: ETE 240, ETT 215.
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3.00 Credits
Modeling of continuous systems in the time and frequency domains, block diagrams, first and second order system response, reduction of multiple subsystems, feedback control systems, transient response, steady state behavior of feedback systems, sensitivity, stability analysis using RouthHurwitz and root locus techniques. Sample systems include servo motors and phaselocked loops. Computer methods utilized. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 272, 305, 310, MAT 132.
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3.00 Credits
Writing and interpreting engineering information related to electronics ? Cresearch papers, technical and senior project proposals, engineering specifications, oral reports; project management techniques and use of project management software. Computer methods utilized. lectures/problemsolving and 1 threehour laboratory. Prerequisites: Satisfaction of GWT, ETE 272, 305, 310, 344.
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3.00 Credits
Introduction to Windows application programming using API functions-menus, controls; use of class libraries. 3 lecture problems and 1 threehour laboratory. Prerequisite: ETE 312 or equivalent.
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3.00 Credits
Analysis of multistage and large signal amplifiers. Frequency response. Ideal and nonideal negative feedback amplifiers and their characteristics. Oscillators. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 305, 310.
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3.00 Credits
Fundamentals of electronic test instrumentation and computer data acquisition systems, theory and function of electronic measurements, opamp applications and signal conditioning, sensors applications such as strain gage and temperature. Computerized data acquisition and programmable instrument control (IEEE 488) utilizing LabVIEW graphical programming software. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 305, 310.
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3.00 Credits
Electronic measurement equipment and techniques for measurements at radio frequencies of such quantities as power, impedance, standing wave ratio, frequency, voltage and current, Smith Charts, impedance matching, Network Analyzer usage and measurements. 3 lectures/ problemsolving and 1 threehour laboratory. Prerequisites: ETE 335.
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3.00 Credits
Microwave and RF measurement systems and techniques. Passive and active high frequency discrete circuit design. Microwave safety, generation, transmission, waveguides, waveguide components. Survey of modern microwave applications: radar, terrestrial and satellite communication systems. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 437.
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3.00 Credits
Signal conversion methods, sampling, quantization, pulse modulation techniques, error analysis methods, digital modulation techniques, encoding schemes, data transmission methods, open system interconnection model, local area networks, transmission control protocol, internet protocol (TCP/IP), ethernet, IEEE 802 networking technology. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 335.
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