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Course Criteria
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4.00 Credits
This is the first of two courses that investigate the operation of electrical circuits. It contains the following material: electron theory; conductors and insulators; current and voltage; the properties of resistance; work and power; the principles of series, parallel, and series- parallel circuits; the concepts of capacitance, and RC time constants. Kirchoff's Laws, Thevenin's Theorem, Superposition Theorem, loop equations, and network theorems are also covered. Lecture: 3 hours Laboratory: 2 hours Prerequisite: Introductory Algebra (MATH101) or higher or waiver by placement testing results or Permission of Instructor
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4.00 Credits
This course is a continuation of Electrical Circuits I. The second semester topics include: Magnetic theory, inductance, RL time constants; the theory of alternating current and voltage; inductive and capacitive reactance; phasors; impedance characteristics of series, parallel, and series-parallel circuits; power in AC circuits; power factor and its correction; series and parallel resonance; filter circuits; transformer characteristics; and the application of DC circuit theorems to the AC circuit. Lecture: 3 hours Laboratory: 2 hours Prerequisites: Electrical Circuits I (ENGT111) and Intermediate Algebra and Trigonometry (MATH112) or higher or waiver by placement testing results, or Permission of Instructor
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3.00 Credits
This course covers numbering systems, Boolean algebra, combination logic gate circuits, flip-flops, counters, shift registers, adders and timing diagrams. Throughout the course practical application of logic gating systems is emphasized. The specification sheet and loading requirements of the various families of logic gates such as TTL and CMOS are studied. Lecture: 2 hours Laboratory: 2 hours Prerequisite: Electrical Circuits I (ENGT111) or Permission of Instructor
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4.00 Credits
This course will prepare students in digital electronics with topics related to number systems and codes, logic functions, and Boolean algebra. IC building blocks are used in applications ranging from logic gates to flip-flops, counters, registers, and arithmetic circuits. Algebraic reduction and mapping are used to minimize Boolean expressions and combinational logic circuits. Computer simulation of digital circuits will be used to verify actual hardware setups. Prerequisite: Linear Electronics I (ENGT115) Corequisite: Telecommunications I (ENGT301)
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4.00 Credits
This course is designed to train students in the organization, architecture and hardware aspects of digital computer systems. Topics include an introduction to microprocessors, types and characteristics of different chips, microprocessor architecture, introduction to programming, PC system organization, operating systems, motherboards, bus structures, memory, I/O interface devices, disk drives, video displays and printers. Serial and parallel buses are discussed. Applications include the interfacing of peripherals, data communications between computers, and a team project. Prerequisites: Digital Electronics I (ENGT117) and Linear Electronics II (ENGT116) Corequisite: Telecommunications II (ENGT302)
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4.00 Credits
No course description available.
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4.00 Credits
No course description available.
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4.00 Credits
No course description available.
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4.00 Credits
No course description available.
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3.00 Credits
No course description available.
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