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Course Criteria
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1.00 - 2.00 Credits
Prereq: Sophomore standing, minimum 2.0 GPA, and instructor approval. Supervised work experience in a business, industrial or governmental environment related to the program major. Credit is awarded for completion of specific objectives that provide new learning related to the program major.
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3.00 Credits
Fundamentals of electrical engineering topics for students who are not electrical engineering majors. Fundamentals of DC and AC theory, semiconductor devices, power, motors, transformers, transducers, actuators and design projects are included. Pre-Requisite(s): PHYS 2220; and ENGR 1010 or MATH 2250 Semester(s): All
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4.00 Credits
Basic concepts of Natural and step Response of RCL Circuits, AC Power, Three Phase Circuits, Frequency selective circuits, Fourier Series and Laplace Transforms, Bode plots and design projects are included. Pre-Requisite(s): EE 1270, MATH 1220 and PHYS 2210, all with C grade or better. Co-Requisite(s): MATH 2250, PHYS 2220 Semester(s): Fall & Spring
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4.00 Credits
Fundamentals of semiconductor devices, electronic circuits and components, network models of amplifiers, diodes, BJTs and MOSFETs, biasing, feedback, and frequency response are covered. Design projects and simulation are included. Pre-Requisite(s): EE 2260, MATH 2250 and PHYS 2220, all with a C grade or better. Semester(s): Spring & Summer
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4.00 Credits
An introduction to digital systems, Boolean algebra and theory and design of Combinatorial and Sequential circuits and finite state machines. Use of computer based software (CAD) tools for design, schematic capture and simulation of circuits. Field programmable gate array implementations are used. Design projects are included. Pre-Requisite(s): CSIS 1400 or CSIS 1410; PHYS 2220 Semester(s): Spring
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2.00 Credits
Introduction to the concepts and fundamentals of electronic devices, circuits and systems. An electronics overview course for technology majors. Topics include direct current electricity, alternating current electricity, transistors and integrated circuits, amplifiers and oscillators, transmitters and receivers, digital logic circuits, electronic memory and computers. Recommended Co-Requisite: STEM 1010 or appropriate placement. Semester: Fall
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4.00 Credits
Introduction to digital electronics, integrated circuits, numbering systems, Boolean algebra, gates, flip-flops, multiplexers, sequential circuits, combinational circuits, programmable logic devices, and computer architecture. Lecture and lab combination. Laboratory activities to include the design, construction, analysis, and measurement of basic digital systems. Recommended Co-Requisite: STEM 1010 or appropriate placement. Semester: Fall
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4.00 Credits
Introduction to AC and DC circuit fundamentals, analysis, theorems, laws, components, measuring devices, and equipment. The introduction and use of measuring instruments, power supplies, and signal generators. Lecture and lab combination with simulation emphasis. Laboratory activities to include circuit design, construction, and analysis of AC/DC circuits. Pre-Requisite: STEM 1010 or appropriate placement. Semester: Spring
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4.00 Credits
Introduction to the design and analysis of semiconductor circuits using diodes, transistors, op-amps, field effect devices, thyristors, and regulators. Lecture and lab combination. Laboratory activities to include the design, construction, computer simulation, and analysis of semiconductor circuits, amplifiers and power supplies. Prereq: EET 1140 Semester: Fall
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4.00 Credits
Introduction to AC and DC motors, relays, transformers, power measurements, National Electrical Code, ladder logic, wiring, and programmable logic controllers (PLCs). Lecture and lab combination. Laboratory activities to include the design, construction, and analysis of basic power circuits and machinery configurations. Prereq: EET 1140 Semester: Fall
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