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Course Criteria
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3.00 Credits
RLC circuits, transfer functions, frequency response, Bode plots, passive filters, and resonance. 3 lectures/problemsolving. l threehour laboratory. Prerequisite: Cor better in ETE 103.
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3.00 Credits
Number systems and conversions, theory and practice of fundamental and universal gates, SOP and POS interconnections and conversions, simplification theorems, applied design of MSI and LSI logic and programmable logic devices. A/D code conversions. 3 lectures/problemsolving and 1 threehour laboratory. Computer methods utilized. Prerequisite: Cor better in ETE 204.
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3.00 Credits
Manufacturing and fabrication processes associated with the electronics industry. Introduction to hardware design. Testing/QA processes. PCB artwork and manufacturing techniques. 3 lectures/ problemsolving and 1 threehour laboratory. Prerequisites: CAD, ETE 204, 230.
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3.00 Credits
Modern industrial electronics and control devices relays, contactors, DC and AC motors; stepper motors; threephase power and its control, optoelectronic devices, SCRs, Triacs and other thyristor devices; PLCs and ladder diagrams; introduction to control systems. 3 lectures/problemsolving, 1 threehour laboratory. Prerequisites: ETE 204, 210, 230.
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14.00 Credits
Group study of a selected topic, the title to be specified in advance. Total credit limited to 8 units, with a maximum of 4 units per quarter. Instruction is by lecture, laboratory, or a combination.
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3.00 Credits
Frequency dependent models for BJT and FET amplifiers, frequency effects upon gain and inputoutput impedance of single and multistage BJT and FET amplifiers, Bode plots, differential amplifiers. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 204, 210, MAT 131.
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3.00 Credits
Analysis of circuits in the time and frequency domains employing Laplace transforms methods. Ideal opamps and applications. Second order passive and active circuits, circuit responses to a variety of input signals, stability analysis of closed loop systems. Computer methods utilized. 3 lectures/problemsolving, 1 threehour laboratory. Prerequisites: ETE 210; MAT 131.
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3.00 Credits
Introduction to C++ including console input/output, file input/output, function overloading, class structures, arrays, composition, single and multiple inheritance, virtual functions; and techniques for building class libraries. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETT 215.
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3.00 Credits
Introduction to sequential logic circuits, latches and flipflops and their applications, state diagram, state table, state machines (Mealy and Moore) design, state machine converter, state machine with and without control inputs, state reduction, analysis and design of clocked sequential circuits, analysis of timing diagrams, complex sequential logic circuit design and serial data code conversion, state machine design with algorithmic state machines. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: ETE 230, ETT 215.
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3.00 Credits
Opamp applications including integrators and differentiators; active filters, Schmitt triggers, oscillators, and wave shaping circuits. Opamp characteristics. DC offsets and compensation; slewrate limiting; open and closedloop bandwidth, stability and compensation. 3 lectures/ problem solving and 1 threehour laboratory. Prerequisites: ETE 305, 310.
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