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Oct 23, 2020
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# ELEC 137 Introduction to Semi and Analog

5 credits
An introductory study of basic semiconductor theory as it applies to electronics applications. Basic PN junctions through operational amplifier configurations and applications are explored.

Corequisites: ELEC 130

Quarters Offered: Fall, Winter, Spring

Student Outcomes/Competencies:
Upon successful completion of this course students will be able to:

• Explain the fundamental nature of semiconductor materials and its application in modern electronics
• Describe the characteristics of and differences between the half-wave rectifier, the full-wave center tapped rectifier, and the full-wave bridge rectifier
• Calculate ripple voltages and ripple frequencies of all rectifier types
• Describe the operation and characteristics of an IC regulator
• Name the three terminals of a bipolar junction transistor
• Describe the two basic actions of a bipolar transistor:  ON/OFF switching action; Variable-resistor action
• Explain the meaning of the following:  Transistor voltage and current abbreviations; DC alpha; DC beta; Collector characteristic curve; AC beta; Input resistance and impedance; Output resistance and impedance; Calculate a transistor circuit; DC current gain; AC current gain; Voltage gain; Power gain
• Define the following terms:  DC load line; Cutoff point; Saturation point; Quiescent point.
• Explain the JFET operation, and the following characteristics:  VP, VBR, IDSS, VGS(OFF); Transconductance; High input impedance
• Describe how to test the various types of FET’s
• Describe the symbol, package types, and internal block diagram of the operational amplifier and its application configurations

Total Hours: 90 Lecture Hours: 10 Lab or Clinical Hours: 80