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Nov 23, 2024
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EE 813 - Advanced Electronic Systems3 lecture hours 0 lab hours 3 credits Course Description This course covers techniques associated with the design and modeling of electronic systems. Nonlinear effects in bipolar and field effect devices are introduced. Nonideal operational amplifiers are analyzed and modeled. Noise and distortion analyses are discussed for various types of electronic circuits. Electronic circuits employing nonlinearities (e.g. modulators, detectors, phase-locked loops) are analyzed. Industry-recognized programs such as SPICE are used throughout the course. (prereq: courses in circuit analysis and electronics) Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Design and simulation of inverting, non-inverting and summing amplifier
- Design and simulation of differentiator, inverting and non-inverting integrator
- Design and simulation of instrumentation amplifier using 2 and 3 OP AMP
- Design and simulation of higher (four or more) order low pass filter using Sallen-Key topology
- Design and simulation of notch filter and a low frequency tuned amplifier using two port network and OP AMP
- Design and simulation of a multi-vibrator and a Sine Wave Oscillator
- Understand non-ideal effects of operational amplifiers
- Design oscillators and voltage regulators using operational amplifiers
Prerequisites by Topic Course Topics
- Nonlinear effects in bipolar and field effect devices
- Nonideal characteristics of operational amplifiers
- Noise and distortion analysis
- Nonlinear electronics circuits
Coordinator Dr. Steven Holland
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