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Course Criteria
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3.00 Credits
3 Semester Hours Introduction to the principles of electric circuit analysis, DC, AC and magnetic circuits, transient and steady-state response of electric circuits; electric power; rotating machines; amplifi er circuits. Lecture, 3 hours; Laboratory, 2 hours. Prerequisites: ENGR 160 and MATH 131.
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3.00 Credits
3 Semester Hours Laplace transform applications, network functions, frequency response, analog fi lters, two-port networks, three phase power. Lecture, 3 hours; Laboratory, 2 hours. Prerequisites: ELEC 210; MATH 131 or concurrent enrollment.
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3.00 Credits
3 Semester Hours Presentation of a brief history of electricity and electrical devices. Introduction to basic concepts of circuit and system analysis, electronic instruments, devices, and modern electric equipment. Demonstrations of concepts and devices are included. Lecture, 3 hours. Prerequisite: MATH 101 or higher, or placement into MATH 106 or higher.
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3.00 Credits
3 Semester Hours Introduction to computer systems, number systems. Boolean algebra, combinational and sequential logic design, minimization and analysis techniques. Concepts of programmable logic devices. Lecture, 3 hours.
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3.00 Credits
3 Semester Hours Introduction to the use of contemporary lab equipment and techniques of measurement and experimentation; introduction to technical report writing; class is used to provide a laboratory experience related to junior level courses. Laboratory, 3 hours; Lecture, 1 hour. Prerequisites: ELEC 220, 281, and concurrent enrollment in ELEC 333 and 353 or permission of the instructor.
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3.00 Credits
3 Semester Hours Continuation of ELEC 301 with emphasis on design; introduction to use of CAD tools and FPGA-based system design. Laboratory, 4 hours. Prerequisites: ELEC 301 and 383; concurrent enrollment in ELEC 354.
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3.00 Credits
3 Semester Hours Fundamentals of semiconductor devices and the physics of their operation. Applications of semiconductor devices in electronic circuits and device modeling. Introduction to CAD tools. Design of single stage amplifi ers. Lecture, 3 hours. Prerequisite: ELEC 220.
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3.00 Credits
3 Semester Hours Introduction to engineering design methods utilized in the synthesis of contemporary analog electronic circuits including extensive use of CAD tools. Topics include multitransistor circuits, large signal limitations, feedback techniques, amplifi er frequency response, stability and oscillation. Lecture, 3 hours. Prerequisite: ELEC 353.
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3.00 Credits
3 Semester Hours Introduction to Maxwell's equations, wave propagation, transmission line theory, and the solution of static and time varying fi eld problems. Lecture, 3 hours. Prerequisites: MATH 355 and PHYS 201.
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3.00 Credits
3 Semester Hours Time and frequency domain analysis of continuous and discrete linear systems including simulation diagrams, state variable analysis, Fourier and Z transforms. Lecture, 3 hours. Prerequisite: ELEC 220.
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