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Course Criteria
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5.00 Credits
Characteristics and applications of operational amplifiers (op-amps). Design and analysis of op-amp amplifiers, comparators, voltage and current regulators, summers, integrators, and differentiators. Frequency response of op-amp circuits. Appliations of the op-amp in power supplies and control systems. A 3-hour per week laboratory includes project design, evaluation, and documentation. Use of computer tools. Prerequisites: EET 221; MTH 251.
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5.00 Credits
Transistor and diode AC models and equivalent circuits. Design and analysis of multistage amplifiers and RF communicatins systems. Frequency response and Bode plots. A 3-hour per week laboratory includes measureing and analyzing the performance of transistor circuits in RF communications systems. Prerequisite: EET 221.
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4.00 Credits
Introduces X86 assembly language programming for the IBM PC compatible computer including the use of BIOS and DOS function calls and the use of procedures. Structured programming techniques will be used to write programs and accept keyboard input and create displayed results. Appropriate program testing and debugging methods will be emphasized. Prerequisites: EET 122 and either CS 133U or CS 161.
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4.00 Credits
Introduces the student to the popular 8051 microcontroller. Topics include the hardware, software, and interfacing of the Intel 8051 microcontroller. The emphasis is on interfacing the 8051 to real-world devices such as switches, displays, motors, and A/D converters, through assembly language and possibly C language programming. Prerequisite: CST 109 or CST 116; and EET 122
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1.00 Credits
Topics include information on finding employment in the electronics industry, writing resumes, and interviewing. Prerequisite: Sophomore standing in EET.
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4.00 Credits
Introduces electronic feedback control systems using analog and digital methods. Topics include temperature control, motor speed control, and servo systems. Lab exercises will include the interfacing and programming of a microcontroller IC. Prerequisite: EET 241 or EET 242. Prerequisite or concurrent: EET 222.
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2.00 Credits
Students learn how to work as teams or instructor approved projects. Typical project activities include the research and design phase, the execution phase, and the project report phase. A written report and oral presentation is required. Prerequisite: EET 241 or EET 242; and EET 222
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4.00 Credits
Principal topics include energy and wavelength relationships, LEDs, laser diodes, semiconductor photo diodes, detector amplifier circuits, and fiber optics including sources, fibers, detectors and applications. Prerequisites: MTH 112; EET 218. Prerequisite or concurrent: PHY 202 or 212.
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4.00 Credits
Introduction to the fundamentals of medical instrumentation, bioelectric signals and electrodes, recording systems, biomedical recorders, patient monitoring systems, arrhythmia and ambulatory monitoring instruments, fetal monitoring instruments, biomedical telemetry and telemedicine, oximeters, blood flowmeter, cardiac output measurement, pulmonary function analyzers, laboratory equipment, audiometers, and patient safety. Prerequisites: BI 122 or BI 233, EET 123 or instructor permission. Prerequisite/concurrent: EET 221.
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4.00 Credits
Introduction to modern imaging systems, pacemakers, defibrillators, surgical equipment, lasers, physiotherapy and electrotherapy equipment, hemodialysis machines, lithotriptors, anaesthesia machines, ventilators, radiotherapy equipment and automated drug delivery systems. Prerequisites: BI 122 or 233, EET 123, EET 221
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