Transcript DMT 231/3 Electronic II

DKT 214/3 Electronic
Circuits
Semester I 2011/12
School of Computer and
Communication Engineering
Universiti Malaysia Perlis
COURSE OUTCOMES
At the end of the course, student will be:



able to describe the difference of ideal op-amp
to practical op-amp.
able to understand the concept of feedback, its
limitations and usage in practical circuitry.
able to apply, calculate and test any op-amp
circuitry related to electronic circuits
applications.
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COURSE SYNOPSIS
This course covers introduction to operational
amplifier. Common op-amp circuitry, active
filtering, voltage regulating and voltage oscillating
circuits using op-amps. This course will expose
the students to the elements and principles of
electronic circuitry, advantages and analysis of opamp circuitry to determine responses for practical
applications.
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COURSE CONTENTS
Topics covered in this course are as follow:

Introduction to Operational Amplifier

Basic Op-Amp Circuits

Special Purpose Op-Amp Circuits
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Active Filters

Oscillators

Voltage Regulators
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Laboratory Modules
Lab 1: Introduction To Operational Amplifier
Lab 2(a): Common Op-Amp Circuits
(Summing and Difference Amplifiers)
Lab 2)b): Common Op-Amp Circuits
(Integration and Differentiation
Amplifiers)
Lab 3: Active Filters
Lab 4: Oscillating Op-Amp
Lab 5: Voltage Regulating
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Tutorials Sessions
Tutorial I: Operational Amplifiers and Configuration
Analysis
Tutorial II: Basic Op-Amp Circuits Analysis
Tutorial III: Special Purpose Op-Amp Circuits
Tutorial IV: Active Filters
Tutorial V: Oscillators
Tutorial VI: Voltage Regulators
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Theory Tests
• Theory Test I: Operational Amplifiers, Basic
Op-Amp Circuits, Special Purpose Op-Amp
Circuits
• Theory Test II: Active Filters, Oscillators
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Assessments
Evaluation contribution:
(i) Final examination: 50%
(ii) Course work: 50%
Details of course work contribution:
(a) Laboratory
20%
(b) Theory Test I & II
20%
(c) Laboratory Test
10%
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TEXTBOOKS / REFERENCES
MAIN TEXT
 Thomas L. Floyd, ‘Electronic devices:
Conventional Current Version’, 8th Ed.,
Prentice Hall
OTHER REFERENCES
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Robert L. Boylestead & Louis Nashelsky, ‘Electronic
Devices and Circuit Theory’, 8th Ed, Prentice Hall.
Robert T. Paynter and B. J. Toby Boydell, (2005).
nd
Electronics Technology Fundamentals. 2 Ed.:
Prentice Hall.
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