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COURSE MASTER SYLLABUS A. Academic Division: Technology and Workforce Development B. Department: Technology C. Course Number and Title: ELE 245 - Electronics D. Course Coordinator: Lenny Eaken / Department Chair: Randy Storms E. Credit Hours: 5 F. Prerequisites: ELE 152 G. Syllabus Effective Date: H. Textbook(s) Title: Foundations of Electronics Circuits & Devices Electron Flow Version Lecture: 4 and Lab: 2 Author: Meade CopyrightYear Edition: ISBN # Textbook(s) Title: Laboratory Projects to Accompany Foundations of Electronics Author: Meade CopyrightYear Edition: ISBN # I. Workbook(s) and/or Lab Manual: J. Course Description: This course explores the use of diode applications, bipolar and unipolar transistors, Field Effect Transistors, oscillators, feedback, thyristors and the 555 timer. Topics will include power supplies, multi-stage amplifiers, inverting and non-inverting op-amps, filters, SCRs and Triacs. K. Core Learning Outcomes Core Learning Outcome Communication – Written Communication – Speech Culture and Community Critical Thinking Computer Literacy Computation L. X X X Course Outcomes and Assessment Methods: Outcomes Explain the conditions that exist at the PN junction of an unbiased, reverse biased, or forward biased diode. Draw diagrams of half-wave, fullwave, and bridge rectifier circuits and explain how each works. Measure RMS, Peak, and average voltages of various rectifier circuits. Describe how a zener diode is used and calculate the various values related to zener circuits. Given a NPN or a PNP transistor, student will be able to determine the proper bias polarity and current flow. Given specific values, student will be able to interrelate alpha, beta, IC, IE, IB, ICEO, ICBO. Given a common base transistor circuit with component values, student will be able to determine the Q point and plot the load line. Analyze the voltage gain, and input/output impedances of multistage amplifiers. Determine the power gains and efficiencies of Class A and Class B amplifiers. Given a Junction Field Effect transistors values, the student will be able to interrelate IDSS, VGS(off), gm, Assessment Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests gmo, and ID. Given the operating parameters, the student will be able to design both a JFET current source and a JFET analog switch. Describe the characteristics and operation of both depletion-mode and enhancement mode MOSFETs. Describe how E-MOSFETs are used in digital switching. Calculate voltage gains of commonsource JFET amplifiers. Calculate cut-off frequencies and the bandwidths of various op-amp circuits. Given an amplifier the student will be able to calculate the values of all coupling and bypass capacitors. The student will be able to calculate, for a differential or operational amplifier, the: a. output voltage. b. voltage gain. c. common-mode rejection ratio (CMRR). Using operational amplifiers, the student will be able to design: a. an inverting amplifier. b. a non-inverting amplifier. c. a voltage follower. d. a summing amplifier. Describe the operation of both RC and LC sinusoidal oscillators. Use the 555 timer in both its monostable and astable modes. Given a circuit, the student will be able to identify the type of negative feedback being used. Describe the operation of various thyristors and how they are turned on and off. Describe the operation of series and shunt voltage regulators. Describe the operation and characteristics of IC voltage Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests Homework, Labs, Quizzes and Tests regulators. M. Course Topical Outline: 1) Semiconductors a) Silicon crystals b) doping c) diode biasing d) breakdown e) energy levels and hills f) barrier potential and temperature 2) Diode operation a) Basic biasing and use b) data sheets c) LEDs 3) Diode applications a) rectifiers b) Peak inverse voltage c) surge current d) ripple e) clamper and clippers f) voltage multipliers 4) Zener diodes a) operations b) applications c) circuit calculations 5) Bipolar transistors a) biasing b) common emitter c) analysis d) transistors as switches e) beta DC f) load lines g) VDB and dual-supply analysis h) small-signal analysis i) AC resistance j) transistor modeling k) DC amplifier analysis 6) Voltage amplifiers a) Voltage gain b) Input impedances c) Multistage amplifiers d) swamping e) feedback 7) Power amplifiers a) Class A b) Class B c) Transistor power ratings 8) JFETS a) basic operation b) Biasing c) transconductance d) JFET amplifiers e) Analog switching f) other applications 9) MOSFETs a) Depletion-mode b) Enhancement-mode c) Ohmic region operation d) Digital switching e) CMOS f) power applications 10) Operation amplifiers a) characteristics b) inverting and non-inverting amplifiers c) types of negative feedback d) voltage gain e) noise rejection f) input impedance g) output impedance h) op-amp applications 11) Oscillators a) Sinusoidal oscillation b) Wien-Bridge oscillator c) RC oscillators d) LC oscillators e) 555 timer 12) Electronic regulation of power supplies a) Shunt regulators b) Series regulators c) IC regulators d) switching power supplies N. Course Assignment: None planned. O. Recommended Grading Scale: 100-95 94-92 91-89 88-86 85-83 82-80 A AB+ B BC+ 79-77 76-74 73-71 70-68 67-65 64-Below K:\OFFICIAL CURRICULUM\Course Master Syllabi\2010-2011 Current Syllabi\ELE\ELE245.doc Created: May 17 C CD+ D DF