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Nov 24, 2024
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EE 3102 - Analog Electronics I3 lecture hours 2 lab hours 4 credits Course Description This course considers the mathematical modeling of active, solid-state devices and the analysis and design of single-stage circuits incorporating them. Small signal amplifiers are analyzed and designed, and the circuits are implemented in the laboratory. Topics covered include the study of device characteristics and applications of p-n-junction diodes, bipolar junction transistors, and field effect transistors. Circuit simulation software is utilized as an engineering design tool. (prereq: EE 2070 or EE 3002B ) Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Explain the operation of semiconductor devices
- Design and implement basic diode and Zener diode circuits
- Design and implement single-stage amplifier circuits using either BJTs or FETs
- Create small-signal mid-band equivalent circuits for a single-stage amplifier
- Design BJT differential amplifier and current sources
- Apply probability analysis to electronic circuits
- Maintain a laboratory notebook
- Design and conduct experiments
Prerequisites by Topic
- AC circuit analysis
- Transfer functions
- First-order circuits
Course Topics
- Ideal and real diodes and diode circuits
- Zener diodes and Zener regulator
- DC and AC analysis of BJT amplifiers
- DC and AC analysis of FET amplifiers
- DC and AC analysis of differential amplifiers
- DC analysis of current sources
Laboratory Topics
- Diode, BJT, and FET device characterization
- FET and BJT applications in logic, switching, and amplifiers
Coordinator Dr. Steve Holland
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