Section outline
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EEE 411: INDUSTRIAL ELECTRONICS
Welcome to this course on EEE 411: Industrial Electronics. Electrical & Electronic Engineering students of almost all disciplines have to undergo this course as a core subject. It is needless to mention that how much we are dependent on electronic devices in our day to day life. A reasonable understanding of the basics is therefore important for every engineer who is enthusiastic about the power and electronics sector. This course mainly offers a basic understanding of different types of converter, its working mechanisms, and its usage in the power sector. Hope you all will enjoy this experience of getting introduced to one of the most useful and revolutionary things used in our everyday life.
General Instructions:
----All course materials can be found here.
---Any announcement regarding the class will be posted on the "Announcements" section.Instructions/Guideline for the course:
√ All the students registered for this course have to enroll in Moodle Students can find all the course materials from Moodle.
√ All the students have to submit the soft copy of their "Assignment" in Moodle under the assignment section created here and for this, they will be graded here.
√ Any announcement regarding the class will be posted on Moodle. So they have to keep themselves always active on Moodle.
√ In this pandemic situation, the rules can be changed.-
You can ask any course-related queries....
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Teacher's Information 
Name: Sudipta Sarker Designation: Lecturer
Room: No .805
Permanent Campus, Ashulia Dhaka
Mobile no:01536203989
mail:sudipta.eee0185.c@diu.edu.bd
mail: (personal) Sudiptasarker.ss@gmail.com
personal site: https://sites.google.com/view/sudipta-sarker/
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Aims and Objectives :
√ Apply performance criteria in the design of basic amplifier circuits,
√ Verify that the criteria were met
√ Design and analyze circuits containing digital components and microprocessors.
√ Analyze and evaluate performance parameters of AC and DC motors.
√ To introduce with power electronics equipment.
√ To illustrate the switching mechanism of power electronics equipment.
√ To demonstrate the operation phase controller
√ To demonstrate and modeling converter & inverter.
√ To study on cyclo-converter
√ To design and modeling of AC and Dc power supply
Course Outcome :
√ Identification of different power semiconductor equipment.
√ Illustration of the switching mechanism of the power electronics device
√ Demonstration of controller and converter circuit.
√ Design and modeling of inverter, power supplies, and drives.Course Content :
√ Study on characteristics and operation of thyristor
√ Reverse recovery Characteristics of Diode, Power Diode
√ Study on characteristics and operation of Power MOSFET, DMOSFET & EMOSFET
√ Study on Characteristics and operation of TRIAC,LASER,RCT,GTO,MCT & MTO
√ Study and characteristics and operation of IGBT
√ Three Phase Inverter and PW Inverter
√ Phase controller, Single Phase Controller (Half,fullmSemi& Dual )
√ Three Phase Controller((Half, full, Semi& Dual )√ Introduction to Inverter & Single Phase half Bridge AnD Full Bridge inverter
√ DC-DC converter, Buck, Boost and Cuk converter
√ Operation of cyclo-converter
√ power supply
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Thyristors
Objectives of this lecture:
To learn about different types of thyristor
To learn the limitation of thyristors as switch
Lecture Outcomes:
At the end of the session students will be able to :
To understand the gate characteristics and gate control requirements of different types of thyristors
Lecture Content:
Introduction to Thyristors
V-I characteristics of a Thyristor
Thyristor turn on
Thyristor turn off
Thyristor Types
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Assignment on Thyristor
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What was your learning from this lecture module ?
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MOSFET
Objectives of this lecture:
To get an overview of power electronics and its history of development
to get an overview of MOSFET and their switching characteristics
Lecture Outcomes:
At the end of the session students will be able to :
To learn about power electronics
To learn about MOSFET
Lecture Contents:
History of Power Electronics
Power Electronic Applications
Power Semiconductor Devices
Power Diodes
MOSFET
MOSFET switching characteristics
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You can ask ur questions/problems here ...
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Power electronics devices
Objectives of this lecture:
To teach the students about the types of power electronics devices.
Lecture Outcomes:
At the end of the session students will be able to :
Learn about the circuit diagram and output wave shape of different types of power electronics devices
Lecture Content:
Power Electronic Circuits
Static Switches
Design of power electronic equipment
Peripheral effects
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Objectives of this lecture:
To understand the operation and characteristics of Controlled Rectifiers
Lecture Outcomes:
At the end of the session students will be able to:
To Learn the types of Controlled Rectifiers
To understand the performance parameters of Controlled Rectifiers
Lecture Content:
Single & three phase Semiconverter
Single & three phase Full converter
Single & three phase Dual converter
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What was your learning from this lecture module?
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Presentation SlideAssignment
Thyristor based precise lamp illumination control circuit.
Thyristor based motor speed control circuit
Boost converter based solar residential system
Industrial battery charger circuit thyristor
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Study on characteristics and operation of Power MOSFET, DMOSFET & EMOSFET
Reverse Recovery characteristics of Diode, Power Diode
Study on characteristics and operation of Thyristor
Study on characteristics and operation TRIAC, LASCR, RCT, GTO, MCT & MTO
Study on characteristics and operation IGBT .
Phase controller , Single Phase Controller (Half, Full, Semi, & Dual)
Three Phase Controller (Half, Full, Semi, & Dual)
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Controlled Rectifiers
Objectives of this lecture:
To understand the operation and characteristics of Controlled Rectifiers
Lecture Outcomes:
At the end of the session students will be able to:
To Learn the types of Controlled Rectifiers
To understand the performance parameters of Controlled Rectifiers
Lecture Content:
Single & three phase Semiconverter
Single & three phase Full converter
Single & three phase Dual converter
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Inverter
Objectives of this lecture:
To teach the students about the switching technique for dc-ac converters
To learn various types of inverters
Lecture Outcomes:
At the end of the session students will be able to:
To study the operation of inverters
To understand the performance parameters of inverters
To learn the different types of modulation techniques
Lecture Contents:
Classification of Inverters
Single-phase half bridge voltage source inverters
Performance parameters of inverters
sinusoidal pulse width modulation
Three phase inverters
Three Phase InverterFile
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Cycloconverter
Objectives of this lecture:
To teach the students about the Cyclo-converter
Lecture Outcomes:
At the end of the session students will be able to:
To learn the switching technique for Cycloconverter
To study the Frequency Changer operation of cyclo- converters
Lecture Content:
Principles of frequency change Operation
Comparison with DC-link inverter.
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Dc-Dc converters
Objectives of this lecture:
To teach the students about the Dc-Dc converters
Lecture Outcomes:
At the end of the session students will be able to:
To learn the switching technique for dc-dc conversion
To study the operation of dc-dc converters
Lecture Content:
Principles of Step Up & Down Operation
Switching Mode Regulators
Buck Regulators
Boost Regulators
Buck-Boost Regulators
Cuk Regulators
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SYLLABUS
The final exam will include all lecture Modules.