Home Industrial Electronics (26833)
Industrial Electronics (26833)

Industrial Electronics (26833)

Course Conducted By
MD. Badeuzzamal Sarker
Instructor
Electrical Technology
Daffodil Institute of Engineering & Technology

Mohammad Soheb
Instructor
Electrical Technology
Daffodil Institute of Engineering & Technology

This Course is for: Diploma in Engineering (ET 3rd Semester)
Objectives of the Course
After completion of the course students will be able to:
To develop the knowledge and skill on using semiconductor diodes in power electronics.
To familiarize with power switching devices.
To develop the knowledge & skill on inverter, Chopper & Cycloconverter
To familiarize dc and ac control drive.
To develop knowledge & skill on photo diodes, Photo Transistor & Photo Resistor.
To develop knowledge & skill on the Solar Power system.
To develop knowledge & skill on UPS, IPS & AVR.
To develop knowledge & skill on electronic safety systems.

Join this Course
Responsible Md. Badeuzzamal Sarker
Last Update 02/10/2026
Completion Time 22 hours 30 minutes
Members 1
  • Course Information
    6Lessons ·
  • Chapter-1
    3Lessons ·
  • Chapter-2
    5Lessons ·
    • Chapter-2: MOSFET and IGBT
      Preview
    • Introduction to Power MOSFET Structure - Semiconductor Devices - Industrial Electronics
    • Power MOSFET V I Characteristics - Semiconductor Devices - Industrial Electronics
    • Introduction to Power BJT Structure - Semiconductor Devices - Industrial Electronics
    • Introduction to V I Characteristics Of Power BJT - Semiconductor Devices - Industrial Electronics
  • Chapter-3
    7Lessons ·
    • Chapter-3: UJT and GTO
      Preview
    • Introduction to UJT Construction - Semiconductor Devices - Industrial Electronics
    • Introduction to UJT Working Principle - Semiconductor Devices - Industrial Electronics
    • V I characteristics of UJT - Semiconductor Devices - Industrial Electronics
    • UJT Triggering Circuit - Semiconductor Devices - Industrial Electronics
    • UJT as relaxation oscillator (Basics, Circuit, Working, Waveform & Parameters) Explained
    • GTO - Gate Turn Off Thyristor (Basics, Symbol, Structure, Working & Characteristics) Explained
  • Chapter-4
    12Lessons ·
    • Chapter-4: Operational Amplifier (Op-Amp)
      Preview
    • Introduction to OPAMP - Operational Amplifier and 555 Timer - Industrial Electronics
    • OPAMP Symbol and Terminal - Operational Amplifier and 555 Timer - Industrial Electronics
    • Block Diagram of OP AMP - Operational Amplifier and 555 Timer - Industrial Electronics
    • Equivalent Circuit of an OP AMP - Operational Amplifier and 555 Timer - Industrial Electronics
    • Open Loop Configuration - Operational Amplifier and 555 Timer - Industrial Electronics
    • Closed Loop Configuration - Operational Amplifier and 555 Timer - Industrial Electronics
    • Non Inverting Adder - Operational Amplifier and 555 Timer - Industrial Electronics
    • Three Op Amp Instrumentation Amplifier - Operational Amplifier and 555 Timer - Industrial Electronic
    • Introduction and Classification of Filters - Operational Amplifier and 555 Timer
    • Introduction to First Order Butterworth Low Pass Filter - Operational Amplifier and 555 Timer
    • Introduction to First Order Butterworth High Pass Filter - Operational Amplifier and 555 Timer
  • Chapter-5
    6Lessons ·
    • Chapter-5: Thyristor
      Preview
    • Working Principle of SCR - Semiconductor Devices - Industrial Electronics
    • SCR Triggering Methods / SCR turn ON Methods in Power Electronics by Engineering Funda
    • Turn OFF Methods of SCR / Commutation Methods of SCR in Power Electronics by Engineering Funda
    • Half wave phase controlled rectifier with resistive (R) load || Power Electronics
    • Half wave phase controlled rectifier with resistive and inductive (R-L) load || Power Electronics
  • Chapter-6
    5Lessons ·
    • Chapter-6: DIAC and TRIAC
      Preview
    • TRIAC (Basics, Working, Structure, Symbol, Characteristics & Application) Explained
    • Modes of TRIAC, Operational modes of TRIAC in Power Electronics by Engineering Funda
    • DIAC (Basics, Symbol, Uses, Structure, Working & Characteristics) Explained in Power Electronics
    • Comparison Between SCR, DIAC and TRIAC based on different Parameters in Power Electronics
  • Chapter-7
    5Lessons ·
    • Chapter-7: Single phase AC to DC conversion
      Preview
    • Single Phase Halfwave Controlled Rectifier with R-L-E Load || Power Electronics
    • Single Phase Full Wave Controlled Bridge Rectifier || Power Electronics
    • Single Phase Full Wave Symmetrical Semiconverter || Power Electronics
    • Single Phase Full Wave Asymmetrical Semiconverter || Power Electronics
  • Chapter-8
    4Lessons ·
    • Chapter-8: Three phase AC to DC conversion
      Preview
    • ডায়োডের সাহায্যে থ্রি ফেজ ব্রিজ রেকটিফিকেশন || Three Phase Bridge Rectification With Diodes
    • Three phase half wave controlled rectifier || working & waveforms || Power Electronics
    • Three Phase Full Wave Controlled Rectifier || Power Electronics || Bangla
  • Chapter-9
    4Lessons ·
    • Chapter-9: Choppers.
      Preview
    • চপারের সংজ্ঞা ||Define chopper||chopper basics | what is chopper ||chopper in Industrial Electronics
    • Step-Down Chopper |Buck Converter |ভোল্টেজ স্টেপ-ডাউন চপার ||ভোল্টেজ স্টেপ-ডাউন চপারের কার্যপ্রণালি
    • Step-up Chopper | Boost Converter | ভোল্টেজ স্টেপ-আপ চপার | Industrial Electronics
  • Chapter-10
    3Lessons ·
    • Chapter-10: Inverter
      Preview
    • Introduction to Inverter || Power Electronics Course || Rojib EEE Academy
    • How to make to inverter || 12v to 220v inverter
  • Chapter-11
    6Lessons ·
    • Chapter-11: Cycloconverter.
      Preview
    • Cycloconverter (Basics, Need, Classifications & Applications) Explained
    • Step Up Bridge Cycloconverter (Basics, Circuit, Modes, Working, Waveforms & Applications) Explained
    • Step Down Bridge Cycloconverter (Basics, Circuit, Modes, Working, Waveform & Applications) Explained
    • Step Down Cycloconverter (Basics, Circuit, Modes, Working, Waveforms & Applications) Explained
    • Step Up Cycloconverter (Basics, Circuit, Modes, Working, Waveforms & Applications) Explained
  • Chapter-12
    5Lessons ·
    • Chapter-12: AC voltage controller
      Preview
    • Introduction to AC Voltage Controllers and Operation of Half Wave AC Voltage Controllers
    • Single Phase Full Wave AC-AC Converter with Resistive Load by Dr. S. K. Mittal
    • Single Phase Full Wave AC-AC Converter with Inductive (R-L) Load by Dr. S. K. Mittal
    • 3 Phase Fully Controlled AC-DC Converter with R load with Firing Angle α=30° by Dr. S.K.Mittal
  • Chapter-13
    5Lessons ·
    • Chapter-13: Induction and Dielectric Heating.
      Preview
    • ইন্ডাকশন হিটিং-এর মূলনীতি || The principle of induction heating
    • ডাইইলেকট্রিক হিটিং-এর মূলনীতি|| The principle of dielectric heating
    • Induction Heating (Basics, Working, Circuit, Applications, Block Diagram & Applications) Explained
    • Dielectric Heating (Basics, Working, Applications, Block Diagram & Applications) Explained
  • Chapter-14
    6Lessons ·
    • Chapter-14: Power Supply
      Preview
    • ব্লক ডায়াগ্রামের সাহায্যে SMPS -এর কার্যপ্রণালি ও মূলনীতি| Switching mode power supply block diagram
    • অটোমেটিক ভোল্টেজ রেগুলেটর এর মূলনীতি ও কার্যপ্রণালি || Automatic Voltage Regulator Working Principle
    • ব্লক ডায়াগ্রামসহ UPS এর মূলনীতি এবং কার্যপ্রণালি | Uninterruptible Power Supply Working Principle
    • On Line UPS (Basics, Block Diagram, Working, Applications & Specifications) Explained
    • Off Line UPS (Basics, Block Diagram, Working, Applications & Specifications) Explained
  • Chapter-15
    1Lessons ·