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Course Criteria
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3.00 Credits
A broad general view of electricity and electronics. Fundamental concepts are emphasized with an introduction to various electronic systems.
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3.00 Credits
A study of DC circuit analysis methods in series, parallel, and seriesparallel circuits. The study includes: Ohm's law, Thevenin's and Norton's Theorems, mesh current and node voltage analysis, with an introduction to DC instrumentation. (Prerequisite: MATH 1513
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3.00 Credits
Course covers both TTL and CMOS techniques including: logic gates, flipflops, counters, monostable and astable multivibrators, shift registers, MSI and LSI solutions, and interfacing techniques. (Prerequisite: EET 1053 or EET 2083)
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3.00 Credits
The analysis of RLC passive networks in response to single and multiple sinusoidal, ramp, and pulse sources. Complex numbers are used in conjunction with Thevenin's and Norton's Theorems, mesh current and nodal analysis, and other theorems. This study also includes passive RLC filters, transformers, and an introduction to AC instrumentation. (Prerequisite: EET 2083 and MATH 2215)
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3.00 Credits
Instrumentation circuit theory and application. Instruments studied include: bridges, voltmeters, oscilloscopes, signal generators, and signal analyzers. Additional topics are noise reduction techniques, transducer interfacing, and digital instrumentation circuitry. (Prerequisite: EET 2173 and corequisite: EET 3233)
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3.00 Credits
Aircraft communication and navigation systems including VHF omnirange, area navigation, instrument landing systems, automatic direction finders, LORAN C (long-range navigation), distance measuring equipment, and transponders. (Prerequisite: EET 1053 or 2083)
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3.00 Credits
This course covers elementary semiconductor physics, the design and analysis of small signal bipolar transistor and field effect transistor amplifiers, h and y parameters, frequency response of single stage amplifiers, and an introduction to multistage amplifiers. (Prerequisite: EET 2173)
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3.00 Credits
Processes for manufacturing electronic equipment, including computeraided drafting, computer-aided circuit board design, component selection, tools, hardware, connectors, and packaging techniques. (Prerequisites: EET 3203 and EET 3233)
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3.00 Credits
A study of RF design techniques and phenomena including: transmission lines, the Smith Chart, RF and microwave measurements, coaxial cables and waveguides, impedance measurement and matching, RF and microwave sources and components, and antenna fundamentals. (Prerequisites: EET 3203 and EET 3233)
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3.00 Credits
An indepth study of the PIC16C84 microcontroller. Topics include assembly programming, basic programming, EEPROM memory programming, hardware configurations, interfacing, and embedded applications. (Prerequisite: EET 2113) (Previously listed as Introduction to Microprocessors)
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