Topic outline

  • Introduction

                                               CSE 212: Basic Electronics

    Welcome to CSE 212: Basic Electronics course. All engineering students of almost every disciplines has undergo this core course.How much is electronics is needed in our everyday life is no need to mention. This course provide basic knowledge about electronics.

                                                        

    Course Instructor:


    Md. Zakir Hasan

    https://www.linkedin.com/in/zakir-hasan-1aa95b185

    Room No: 805 AB-4(PC), +8801796674214

    Address: zakir.eee0191.c@diu.edu.bd


    Course Objectives:
    This course provides the student with the fundamental skills to understand the basic of semiconductor and components like diode, transistor, FET, MOSFET and operational amplifier It will build mathematical and numerical background for design of electronics circuit & component value. Students equipped with the knowledge and training provided in the course will be able to participate in design , development and operation in the different area of electronics system.

    Course Outcome(CO): 
    CO1: To study basics of semiconductor & devices and their applications in different areas.
    CO2: To study different biasing techniques to operate transistor , FET , MOSFET and operational amplifier            in different modes.
     CO3: Analyze output in different operating modes of different semiconductor devices. 
    CO4: Compare design issues, advantages, disadvantages and limitations of basic electronics.

    Course Content:  
    1. Introduction to Semiconductor Physics
    2. Study on PN junction Diode and Diode Characteristics
    3. Study on Zener Diode ,Zener Diode characteristics and different problems about Zener Diode
    4. Rectifier and Filter Circuits
    5. Different combination of Transistors
    6. FET,MOSFET
    7. Different types of Op-Amp

    Text Book/Reference Book:
    1. Principles of electronics by V K Mehta and Rohit Mehta, Chand.
    2. Microelectronic Circuits by Sedra Smith

                                                             


     Assessment Strategy:

          Pre-requsite Book List:

          Electronic Devices and circuit Theory: Robert Boylestad 

  • Lecture-1:Introduction to Semiconductor

    Objectives of this Lecture:

    1. To get an overview about semiconductor

    2. To get an overview about forward and reverse bias

    3. To familiar with diode characteristics

    Lecture Outcomes:

    At the end of the session students will to able to:

    • To learn about semiconductor
    • To learn about diode characteristics

    Lecture Contents:

    • History of semiconductor
    • p-type ,N-type semiconductor
    • forward and reverse bias 
    • diode characteristics
    • important term about diode characteristics




  • Lecture-2: Crystal Diode and half wave Rectifier

    Objectives of this Lecture:

    1. To get an crystal diode equivalent circuits

    2. To determine efficiency of half wave rectifier

    3. To solve problems of half-wave rectifier

    Lecture Outcomes:

    At the end of the session students will to able to:

    • To learn about crystal diode
    • To learn about half-wave rectifier

    Lecture Contents:

    • Crystal diode equivalent circuits
    • efficiency of half-wave rectifier
    • problem solve on half-wave rectifier
  • Full-wave Rectifier and Ripple Factor

    Objectives of this Lecture:

    1. To get an overview of full-wave rectifier

    2. To determine efficiency of full-wave rectifier

    3. To solve problems about full-wave rectifier

    4. To familiar ripple factor

    Lecture Outcomes:

    At the end of the session students will to able to:

    • To learn about full-wave rectifier
    • To learn about ripple factor

    Lecture Contents:

    • basic of full-wave rectifier
    • Efficiency of full-wave rectifier
    • problems about full-wave rectifier
    • ripple factor

  • Filter Circuits and Zener Diode

    Objectives of this Lecture:

    1. To get an overview about filter circuits

    2. To get an overview of zener diode

    Lecture Outcomes:

    At the end of the session students will to able to:

    • To learn about different types of filter circuits
    • To learn about zener diodes and of its basic problems

    Lecture Contents:


  • Mid term Examination

    Mid term syllabus:
    Lecture-1: Introduction to semiconductor
    Lecture-2: Crystal diode and half wave rectifier
    Lecture-3:Full-wave Rectifier and Ripple Factor
    Lecture-4:Filter Circuits and Zener diode

    • Lecture of Transistors

      Objectives of this Lecture:

      1. To get an overview about Transistor

      2. To get an overview about npn and pnp transistors

      3. To familiar with different combinations of transistor

      Lecture Outcomes:

      At the end of the session students will to able to:

      • To learn about transistors
      • To learn about amplifier
      • To learn about common base transistor

      Lecture Contents:

      • basic of Transistors
      • npn and pnp transistor
      • transistor works as an amplifier
      • common base transistor
      • different problems about common  base transistor

    • Lecture of Transistors

      Objectives of this Lecture:

      1. To get an overview about Transistor

      2. To familiar with different combinations of transistor

      Lecture Outcomes:

      At the end of the session students will to able to:

      • To learn about transistors
      • To learn about common emittor transistor
      • To learn about common collector transistor

      Lecture Contents:

      • basic of Transistors
      • common collector transistor
      • different problems about common collector transistor
      • common emittor transistor
      • different problems about common emittor transistor


    • Lecture of Field Effect Transistor

      Objectives of this Lecture:

      1. To get an overview about Field Effect Transistor

      2. To get an overview about JFET

      3. To familiar with different combinations of JFET

      Lecture Outcomes:

      At the end of the session students will to able to:

      • To learn about FET
      • To learn about MOSFET
      • To learn about JFET

      Lecture Contents:

      • basic of FET
      • basic of JFET
      • Basic of MOSFET

    • Lecture of Op-Amp

      Objectives of this Lecture:

      1. To get an overview about Op-Amp

      2. To get an overview about Op-Amp applications

      Lecture Outcomes:

      At the end of the session students will to able to:

      • To learn about Op-Amp
      • To learn about Different types of Op-Amp

      Lecture Contents:

      • basic of Op-Amp
      • different types of Op-Amp
      • applications of Op-Amp
    • Topic 11