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COM-FSM, Pohnpei Campus
Electronic Engineering Technology
Page 1
4120/2001
College of Micronesia - FSM
P. O. Box 159
Kolonia, Pohnpei
Course Outline Cover Page
Electronic Devices
Course title
VEE 106
Department and Number
Course Description: This course allows students to investigate the world of electronics and
take a detailed look at circuit applications that relate to common appliances. It includes the
study of typical amplifiers, operational amplifiers, oscillators, modulation, electronic control
devices & circuits, regulated power supplies and integrated circuits. Project work and
experimentation form an important part of this course.
Prepared By: Gardner K. Edgar
Lecture
Laboratory
Hours per Week
2
1
State: Pohnpei
No. Of Weeks
16
16
Total Hours
32
16
Semester Credits
2
1
Total Semester Credits:
Purpose of Course:
Degree Requirement
Degree Elective
Certificate
Remedial
Other (Workshop)
Prerequisite Course(s):
VEE 105 Semiconductor Devices or Concurrently
Signature, Chairperson, Curriculum Committee
3
___________________
___________________
_______XX_________
___________________
___________________
4/16/01
Date Approved by Committee
4/25/01
COM-FSM, Pohnpei Campus
Engineering Technology
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4/20/2001 Electronic
General Objective:
This course is designed to improve a student's understanding of the more common electronic
devices used today. It includes the study of the typical amplifiers, operational amplifiers,
oscillators, modulators, electronic control devices & circuits, regulated power supplies, and
integrated circuits.
Specific Objectives:
Upon successful completion of this course the students will:
a. Be able to improve their understanding of small-signal & large-signal amplifiers.
b. Be able to demonstrate the basic operation of the operational amplifier.
c. Be able to demonstrate the proper procedures in system-level & component-level
troubleshooting with electronic devices such as amplifiers, power supplies, and other
electronic circuits.
d. Be able to develop an understanding of the basic operation of oscillators.
e. Understand the technique and use of modulation in radio receivers.
f. Have an understanding of the basic operation of integrated circuits.
g. Be able to demonstrate the basic operation of electronic control devices.
h. Be able to demonstrate the basic operation of regulated power supplies.
Course Content:
1. Small-Signal Amplifiers
a. Amplifier Coupling
b. Voltage Gain in Coupled Stages
c. Field-Effect Transistor Amplifiers
d. Negative Feedback
e. Frequency Response
2. Large-Signal Amplifiers
a. Amplifier Classes
b. Class A Power Amplifiers
c. Class B Power Amplifiers
d. Class AB Power Amplifiers
e. Class C Power Amplifiers
f. Switch-Mode Amplifiers
3. Operational Amplifiers
a. The Differential Amplifier
b. Differential Amplifier Analysis
c. Operational Amplifiers
d. Setting Op-Amp Gain
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Engineering Technology
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e. Frequency Effects in Op Amps
f. Op-Amp Applications
g. Comparators
4/20/2001 Electronic
4. Oscillators
a. Oscillator Characteristics
b. RC circuits
c. LC circuits
d. Crystal circuits
e. Relaxation Oscillators
f. Undesired Oscillations
g. Oscillator Troubleshooting
h. Direct Digital Synthesis (DDS)
i. DDS Troubleshooting
5. Radio Receivers
a. Modulation and Demodulation
b. Simple Receivers
c. Super heterodyne Receivers
d. Frequency Modulation and Single Sideband
e. Receiver Troubleshooting
6. Electronic Control Devices and Circuits
a. Introduction
b. The Silicon-Controlled Rectifier
c. Full-Wave Devices
d. Feedback in Control Circuitry
e. Troubleshooting Electronics Control Circuits
7. Regulated Power Supplies
a. Open-Loop Voltage Regulation
b. Closed-Loop Voltage Regulation
c. Current and Voltage Limiting
d. Switch-Mode Regulators
e. Troubleshooting Regulated Power Supplies
8. Troubleshooting
a. Preliminary Checks
b. No Outputs
c. Reduced Outputs
d. Distortion and Noise
e. Intermittent
f. Operational Amplifiers
COM-FSM, Pohnpei Campus
Engineering Technology
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9. Integrated Circuits a. Introduction b. Fabrication
c. The 555 Timer
d. Additional ICs
e. Digital Signal Processing
4120/2001 Electronic
Required Course Materials:
1. Instructor:
a. Classroom with whiteboard or chalkboard
b. Laboratory equip with the tools of the trade
c. Text, Teacher's Resource Guide, experimental workbook
d. Overhead projector, transparencies
2. Student:
a. Text, handouts provided by instructor
b. One ring binder
c. College ruled note sheets, pen or pencil
d. Scientific calculator
e. Combo Tool Kit provided by instructor
f. Electronic Lab Kit provided by instructor
Reference Materials:
Basic Electronics, Eighth Edition
Bernard Grob, 1997
Electronics - Principles and Applications, Fifth Edition
Charles A. Schuler, 1999
Experiment book, Basic Electronics, Eighth Edition
Frank Pugh & Wes Ponick, 1997
Experiment book, Electronics - Principles & Applications, Fifth Edition
Charles A. Schuler, 1999
Videos, Semiconductors
Ucando Educational videotapes Production
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Engineering Technology
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Instructional Costs:
Text, Grob
Text, Schuler
Instructor's Resource Guide, Crrob
Experiment Book, Pugh/Ponick
Experiment Book, Schuler
4/2012001 Electronic
$61.00
$40.00
$22.00
$26.00
$26.00
Combo Tool Kit
Electronic Lab Kit
Video Tape
$26.95
$27.95
$29.95
Methods of Instruction:
1. Lecture/ Demonstration
2. Group work/ Individual projects
3. Discussion
4. Experiments and practice exercises
5. Videos
Evaluation:
Final Grade for this course will be based on meeting the course requirements at the
following percentage rates:
90%-100% A - Superior
80%-89%
B - Above Average
70%-79%
C - Average
60%-69%
D - Below Average
0 -59%
F - Failure
Attendance:
The COM-FSM vocational education attendance policy will apply.