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Course Criteria
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4.00 Credits
The emphasis of this course is on basic linear operational amplifier circuits such as comparators, amplifiers, waveshaping circuits and active filters. Also considered are linear integrated circuit modules such as voltage references and instrumentation amplifiers. These circuits are tested and analyzed in the laboratory. Prerequisite: ELEC200 Fundamentals of Electronic Devices. ACPE Course.
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4.00 Credits
The concepts of current, voltage, power, and resistance are studied. Topics also include DC and AC sources, capacitance, inductance and magnetism. Resistive circuits are analyzed using Ohm's and Kirchhoff's Laws and computer-aided circuit analysis usingSPICE is included. The concepts of impedance and admittance in sinusoidal circuits are examined and transformer theory is also studied. Laboratory work is designed to correlate with theory. Prerequisite: MATH230 College Mathematics B. ACPE Course.
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4.00 Credits
The concepts of impedance and admittance in sinusoidal circuits are examined. Circuits are solved using superposition, Thevenin, Norton, nodal, and mesh analysis. Resonant circuits and transformer theory are also studied. Laboratory work and computer-aided analysis techniques are designed to correlate with theory. Prerequisite: ELEC105 Circuit Theory I. Corequisite (Day): MATH245 College Mathematics II. Day and ACPE Course.
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4.00 Credits
This course introduces the field of discrete electronic devices and its application. It also covers a broad spectrum of devices that are currently being used in the electronics industry. Prerequisites: ELEC195 Circuit Theory II; MATH235 College Mathematics C. ACPE Course.
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4.00 Credits
A variety of semiconductor devices are introduced. Emphasis is placed on diodes, BJT, oscillators and FET. A variety of applications including triacs, SCRs, optoisolators and other devices are also included. Prerequisite: ELEC195 Circuit Theory II. Corequisite: MATH280 Calculus I. Day Course.
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4.00 Credits
The fundamental concepts of current, voltage, and power are studied along with the properties of passive circuit elements as well as network theorems. Transient analysis RL, R-C, and R-L-C circuits and initial conditions are studied. Laboratory experiments parallel classroom theory and include circuit simulation. Prerequisite: MATH280 Calculus I; Corequisite: MATH290 Calculus II. Day Course.
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3.00 Credits
This course covers the types of optical fibers used in communication and the characteristics and properties of these fibers. Criteria for optical signal confinement and propagation in an optical waveguide are also covered. Laboratory exercises will demonstrate the principles. Prerequisite: MATH235 College Mathematics C or MATH250 Precalculus; and PHYS220 College Physics II (or equivalent). Day Course.
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4.00 Credits
This course introduces binary and hexadecimal numbers, Boolean algebra, truth tables, Karnaugh maps, and combination logic using basic gates. Flip-flops, counters, registers, ALUÃs, encoders, and decoders are also presented. Circuit simulation software is used in both classroom and laboratory work. Prerequisite: ELEC105 Circuit Theory I. ACPE Course.
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4.00 Credits
This course introduces the Boolean algebra, combination logic circuits, counters, registers, ALUs, encoders, decoders and multiplexer. Circuit simulation software is used in laboratory work. Prerequisite: ELEC105 Circuit Theory I. Day Course.
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4.00 Credits
This course introduces the student to the field of analog electronics and centers around the study of linear integrated circuits and systems. Topics include sensors for measurement, signal conditioning circuit design to interface sensors to the analog-todigital input of a microcontroller, and electronic devices to allow the microcontroller to act as an embedded computer for process control applications. Semiconductor diodes, transistors (BJT and MOSFET), triacs and other devices are studied to support these applications. Classroom theory is enhanced by laboratory exercises. Prerequisite: ELEC190 Circuit Analysis. ACPE Course.
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