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Course Criteria
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3.00 Credits
Buddhism in American Culture & Literature Pre: Communications Proficiency Co: What do Walt Whitman, Jack Kerouac, Alice Walker, the Los Angeles Lakers, and the Beastie Boys have in common? Well... Buddhism of course. The course will examine the origin and concepts of Buddhism, looking specifically at how this religion took root in the United States, and the writers, musicians, and other notable Americans who have been influenced by this ancient religion. Fulfills open, liberal arts, and humanities electives.
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4.00 Credits
Electrical Principles 1 Pre: Communications and Mathematics Proficiencies Co: MAT135 Presents the foundations of basic DC circuit analysis concepts. Topics include voltage and current sources, Ohm's Law, Kirchhoff's Laws, concept of resistance, conductance, capacitance, inductance, network topologies such as elements in series and parallel, Thevenin's and Norton's Theorems, and transient behavior of RC and RL circuits. Computer software tools and laboratory experiments are utilized to reinforce concepts. (4 hours of lecture, 2 hours of lab per week)
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4.00 Credits
Electrical Principles 2 Pre: IEL 101, MAT135 Co: EUT104 & EUT106 Presents the foundations of basic AC circuit analysis. Topics for parallel and series circuits include: voltage and current sources, phase and phasor relations, resistance, inductance and capacitance in sinusoidal driven circuits and Bode plots. Thevenin's, Norton's, maximum power and superposition theorems will be applied. Transient behavior of networks, transformers and filters will be analyzed. Computer software tools and laboratory experience are utilized to reinforce concepts. (4 lecture hours, 2 lab hours per week)
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4.00 Credits
Electrical Circuits Pre: MAT135 Co: CPS190 This course will train students in the applications of Ohm's Law, Kirchoff's Laws, Thevenin's and Norton's Theorems, and Superposition to the analysis of DC and AC passive circuits, including R-L-C circuits, impedances, phase angles, and transformers.
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4.00 Credits
Digital Circuit Theory Pre: Co: The mathematics involved in digital computer design will be covered, including a study of the binary number system, mathematical logic, Boolean Algebra, and Karnaugh maps. The use of diode logic circuits and transistorized flip flop circuits in computer design will be discussed. Binary and decade counters, adders, subtractors, shift registers, multipliers, and dividers will be discussed and designed in the laboratory. (3 lecture hours, 2 lab hours per week)
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4.00 Credits
Electronics 1 Pre: IEL102 Co: Introduces the silicon diode and its characteristics along with the bipolar junction transistor, the junction transistor and metal-oxide-semiconductor (MOS) field effect transistor. The concept of DC bias and load line are explored to determine the quiescent operating points of these devices. Small signal incremental models are introduced if time permits. Computer software tools and laboratory experiments are utilized to reinforce concepts. (3 hours of lecture, 2 hours of lab per week)
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4.00 Credits
Electronics 2 Pre: IEL205 Co: Introduces the concept of linear incremental AC models for the bipolar junction transistor (BJT), the junction field effect transistor (JFET) and the metal-oxide-semiconductor (MOS) field effect transistor. The concept of frequency response and Bode plot construction of amplifiers, operational amplifiers, oscillators and active filters will also be explored. Computer software tools and laboratory experiments are utilized to reinforce concepts. (3 hours of lecture, 2 hours of lab per week)
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4.00 Credits
Linear Electronics 1 Pre: MAT135, CPS190, and IEL104 Co: MAT136 This course will train students in the physical principles underlying current carriers in semiconductor materials; static and dynamic characteristics of diodes and transistors; biasing methods and concepts of amplification; analysis of basic BJT and FET circuits, frequency response of one- and two-stage amplifiers; troubleshooting; analysis of computer simulation.
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4.00 Credits
Linear Electronics 2 Pre: IEL209 and MAT136 Co: This course is designed to train students in the analysis and application of advanced electronic circuits. Topics include differential amplifiers, stage gain in decibels, input and output impedances, linear IC operational amplifiers, frequency response and Bode plots, active filters, D/A and A/D circuits, oscillators and high frequency amplifiers, troubleshooting of test circuits, and analysis by computer simulation.
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4.00 Credits
Introduction to Electronics Pre: Comm and Math Prof, IEL104, PHY100 Co: Students are taught the characteristics of amplifiers using opamps with respect to amplification, dB, frequency response, and input and output impedance. Opamp applications such as inverting and non-inverting amps, summing amps, averaging amps, and comparators are introduced with emphasis on the uses of these devices in the telecom industry. Electro-optical devices, such as LEDs, laser diodes, and photodiodes, are studied including uses in the telecom industry. Diodes and transistors are conceptually introduced. Transformers are introduced in connection with power supplies. Diodes are applied as switches in linear and switching power supplies. The frequency response of passive networks and amplifiers is measured. Cutoff frequencies, rolloff, bandwidth, and magnitude and phase are discussed and visualized via Bode plots. Troubleshooting and analysis by computer simulation software is stressed throughout.
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