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Course Criteria
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3.00 Credits
Prerequisite: MATH 1101 (can be taken concurrently) This course introduces direct and alternating current circuits with resistors, capacitors, and inductors in series, parallel, and series-parallel combinations. It includes the concepts of power and electromagnetism. The laboratories provide experience with circuits and electronic instrumentation, including meters, oscilloscopes, and signal generators. (5 contact hours: 2 lecture, 3 lab)
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3.00 Credits
Prerequisite: ELEC 1100 This course continues the general study of circuits with resonant circuits, transformers, and the Thevenin, Nortaon and superposition network theorems. It includes the response of circuits with combinations of resistors, capacitors, and inductors to sine wave and pulse inputs. (5 contact hours: 2 lecture, 3 lab)
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2.00 Credits
Prerequisite: ELEC 1100 or permission of instructor This course examines the fundamental concepts of digital logic. It uses the primitive logic functions AND, OR, and NOT implemented in integrated circuits to analyze and develop logic systems. The course includes the study of Boolean algebra and reduction techniques, exclusive-OR and exclusive-NOR gates, Logic families and their characteristics, and flip-flops and registers. The course emphasizes the use of these techniques and devices in microprocessor applications.(3 contact hours: 1 lecture, 2 lab)
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2.00 Credits
Prerequisite: ELEC 1305 or permission of instructor This course examines intermediate to advanced concepts of digital logic. The course includes the study of the following systems: arithmetic, counting, memory, multiplexers, shift registers, analog to digital, and digital to analog. It uses VHDL to create combinational logic circuits and fundamental hierarchical designs entity declarations, architecture bodies, and signal assignments. The course emphasizes the use of these techniques and devices in microprocessor applications.(3 contact hours: 1 lecture, 2 lab)
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0.00 - 3.00 Credits
Prerequisite: ELEC 1100 or permission of instructor This course introduces the analysis, design, and application of logic gates and higher level digital devices. Students will apply Boolean algebra, DeMorgan¿s theorem, and Karnaugh Map reduction techniques to logic gates and to various flip-flop and state machine devices. Digital logic applications include arithmetic, counters, registers, memory, state machines, multiplexers, and de-multiplexers. (5 contact hours: 2 lecture, 3 lab)
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0.00 - 2.00 Credits
Prerequisite: ELEC 1100 This course provides an overview of basic stand-alone Photovoltaic (PV) systems. Concepts and applications covered include system components, site analysis, PV module criteria, mounting solutions, safety, and basic installation practices. The course will also cover fundamental concepts of sizing a residential stand-alone system, over current protection, and grounding. (4 contact hours: 1 lecture, 3 lab)
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0.00 - 2.00 Credits
Prerequisites: ELEC 1300, or permission of the instructor. VHDL (VHSIC Hardware Descriptive Language) is an IEEE standard as well as an ANSI standard for describing digital designs. This course introduces the student to the basic concepts, language and applications of VHDL. The student will create combinational logic circuits and hierarchical designs using VHDL entity declarations, architecture bodies and signal assignments. ( 3 contact hours: 1 lecture, 2 lab)
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2.00 Credits
Permission of the Electronic Engineering Technology department chair, ELEC 1100, ELEC 1200, ELEC 1320, MATH 1201, and be matriculated into the ELEC program with a minimum cumulative GPA of 2.0 This field experience is a planned paid work activity designed to expose the student to the various technical work areas that exist within the various fields of Electronic Engineering Technology. This course is a technical elective in the Electronic Engineering Technology program. (24 contact hours: 24 lab)
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3.00 Credits
Prerequisite: ELEC 1100 or permission of instructor This course introduces solid-state electronics. It includes diodes and their use in rectifier circuits, zener diodes, the characteristics and biasing of bipolar and field effect transistors, linear integrated circuits used as operational amplifiers, and inverting and non-inverting amplifier gain. (5 contact hours: 2 lecture, 3 lab)
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3.00 Credits
Prerequisite: ELEC 2101 This course continues the study of electronics devices. It includes thyristors and their use in phase control circuits, frequency response and Bode plots, the input characteristics of op-amps, linear and non-linear op-amp circuits, active filters, opto-electronics, oscillators, and regulated power supplies. (5 contact hours: 2 lecture, 3 lab)
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