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Course Criteria
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3.00 Credits
- 3 credits Students will study number systems; Boolean algebra; logic circuits, gates, combinational circuits, flip-flops, sequential circuits, counters, shift register, memory interfacing and introduction to microprocessors. Two hours of lecture will be supplemented by a three-hour lab per week. Prerequisite: EET115, MAT115
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3.00 Credits
- 3 credits This course gives necessary skills in the area of printed circuit board technology, wiring and soldering. Topics include detailed drawings, chassis layout, shearing, drilling, reaming, punching, cutting, bending of metals, printed board circuit fabrication, wiring, soldering, harness and cables. Two hours of classwork will be complemented by three hours of lab work per week. Pre-requisites: CDE115, EET115; corequisite: MAT115
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4.00 Credits
- 4 credits This course introduces the basic electronic devices and circuits. Topics include diodes, rectifier, filters, voltage regulator, limiter, and clipper/clamper circuits. Basic transistor theory, common emitter, common base and common collector connections, current gain, various biasing techniques of transistor and power amplifier are also covered. Both bipolar and field effect transistors will be discussed. Prerequisites: EET115, EET116, MAT115, MAT120; corequisites: EET110, EET326, PHY120
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3.00 Credits
- 3 credits Study and analysis of communication principles and systems will be covered. Topics include AM, FM modulation techniques, modulator, demodulators, superhetrodyne receiver, mixer, automatic gain control, feedback circuit, voltage control oscillator, phase locked loop, drequency synthesizer circuits, transmission line and microwave system. Two hours hours of lecture will be supplemented by a three-hour lab experiment per week. Prerequisites: AVT220 or EET220, MAT115, MAT120
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3.00 Credits
- 3 credits An introduction to pulse fundamentals and circuits and their response in high frequency applications. Two hours of lecture will be supplemented by a threehour lab experiment per week. Prerequisite: EET125, EET220
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3.00 Credits
- 3 credits Study of microprocessors and microcomputer systems. Topics include: Microprocessor architecture, memory and memory interfacing, Input/Output systems, interrupt processing, microprocessor communications and microprocessor peripherals and interfacing, and assembly language programming. Two hours of lecture will be supplemented by a three-hour lab experiment per week. Prerequisites: EET125, MAT115, MAT120
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3.00 Credits
- 3 credits This course covers computer control of electronic instrumentation via Institute of Electgrical and Electronics Engineers (IEEE) standard 499 General Purpose Interface Bus for the purpose of data aquisition and its presentation. It also includes an ntroduction to LabView programming and its application to the control of instruments. Prerequisites: EET326, EET240
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3.00 Credits
- 3 credits Basic control systems using Laplace transforms will be covered in this course, in addition to principles of electromechanical control systems. Other topics include servomechanism components, operational amplifiers, block diagram algebra, transfer functions, steady state and transient analysis of second order systems, frequency response analysis and bode plots. Two hours of lecture will be supplemented by equivalent systems and how they apply to beams, trusses and frames. In addition, moments of inertia and friction are discussed. Prerequisite: MAT115, PHY120
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3.00 Credits
- 3 credits This course will instruct the student to industrial standard electronics circuit simulation software and it uses in designing and testing of the circuit. The student will learn how to design the circuit, enter it into the computer, run a basic analysis and simulation, and proceed to advanced simulation and analysis. The transfer of the circuit schematic diagram will then be ported to printed circuit board design and layout software. The software packages in use are Electronics Workbench Multisim and Ultiboard.
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3.00 Credits
- 3 credits This course covers the application of probability theory and statistics to systems with emphasis on reliability and maintainability, engineering, failure reporting and maintenance action. Prerequisites: MAT120, MAT356, EET326
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