Electronic Devices & Circuit Design from Zero To Hero

Electronic Devices & Circuit Design from Zero To Hero

Electronic Devices & Circuit Design from Zero To Hero

PVV details how to Learn Semiconductors to entire Analog Electronics from the scratch grow from zero to Hero 2022

Language: english

Note: 0/5 (0 notes) 962 students

Instructor(s): SkillGems Education

Last update: 2022-05-02

What you’ll learn

  • Semi conductor physics for learning Electronics
  • Semi conductor devices or Electronic devices or Components
  • Rectifiers and Filters
  • Transistor characteristics (Common base,emitter,collector configurations practical way

 

Requirements

  • Those who completed diploma or 12th standard or even engineering and PG students can join this course.
  • No experience needed, only interest towards the Electronics is enough

 

Description

Learn Semiconductors to entire Analog Electronics from the scratch grow from zero to Hero without further due

In this course you may learn the electronics concepts from scratch like

Section 1:

Semiconductor physics for learning Electronics which includes the  review of semiconductor i.e. what is matter and atomic model   of silicon , P and N types of semiconductors, Mass Action law for finding the concentration of electrons or holes in a given material.

Continuity equation tells us the recombination process and generation of electrons or holes Hall effect also you can learn for finding the mobility, conductivity hall voltage etc., · then we go through the energy band diagrams for semi conductors and fermi level expressions for intrinsic and extrinsic discussed elaborately.

Section 2:

Semi conductor devices or Electronic devices or Components deals about the open circuited PN junction,

PN junction energy band diagrams PN junction diode characteristics of both forward and reverse bias. Next we discuss about the current components of a PN  junction diode. Diode current equation solved with ease and also you can learn how the temperature and voltage variation on VI characteristics .Diffusion and Drift current as well as the Zener diode characteristics  and the Zener diode as a regulator also discussed .

Section 3:

Rectifiers and Filter circuits

In this section you may learn the how the power supplies made explain with block diagram of rectifier and filter as well as also discussed the basic rectifier setup and half wave and full wave along with bridge rectifier circuits. In addition to that we can derive the ripple, Idc, I ac  parameters, TUF (Transformer utilization factor) and also discussed the various filter circuits like RC and Inductor filter along with the derivations of ripple ,IDC, I ac etc.,

Section 4:

Transistor characteristics: In this section you may learn  what is transistor and types of transistors and the different configurations of transistors like common base and common collector, common emitter of both  input and out characteristics and input impedance and output impedance current gain, voltage gain etc.

Intended learning outcome of the course:-

  • So to understand the core electronics field ,how the basic electronic components behave and operate for various purposes like switches , you should be very much well acquainted with the part of the semiconductor.

  • For those who want to perceive their future in the VLSI domain, this course is purely meant for them.

  • And there are many more advantages which I’m not revealing here, you yourself will get to know what knowledge you have acquired after completing this course.

 

Who this course is for

  • Those who completed Diploma in ECE/EEE/CSE/IT or 12th standard or or even Engineering and PG studentscan join this course. This course is well suited those who want get a grip on Electronics fIeld.

 

Course content

  • Semi conductor physics for learning Electronics
    • Introduction to semiconductors :Atomic bonds ( Ionic, Covalent & Metallic bond)
    • Atomic structure
    • Energy band theory
    • Energy bands
    • Intrinsic semiconductor
    • Conductivity in a intrinsic semiconductor
    • Drift current
    • Mobility of a charged particle
    • General expression for conductivity
    • In this lecture you may learn the general expression for conductivity contd.,
    • General expression for conductivity for Inntrinsic semi conductor
    • Carrier concentration in Intrinsic semiconductor and its fermi level
    • How the fermi level is at centre in intrinsic semi conductor
    • How the ferjmi level is at centre in intrinsic semi conductor
    • Law of mass action law
    • Extrinsic semi conductor
    • P type semiconductor
    • Energy band diagram in extrinsic semiconductor
    • Conductivity in extrinsic semi conductor
    • Diffusion constant and concentration gradient
    • Diffusion constant and concentration gradient contd.,
    • carrier life time
    • Einstein relationship
    • Continuity equation
    • Continuity equation contd., case1
    • Continuity equation case2 contd.,
    • Continuity equation case3 contd.,
    • Hall effect
    • Potential variation in continuedly graded semiconductor and potential difference
    • Mobility and conductivity from hall effect
  • Semi conductor devices or Electronic devices or Components
    • PN junction
    • Expression for barrier potential
    • depletion region width calculation
    • Energy band structure of PN JUNCTION
    • Current components in a pn junction diode contd.,
    • Pn junction diode characterics
    • Diode current equation
    • Effect of temperature on voltage
    • Effect of temperature on reverse saturation current
    • Transition capacitance
    • PN Junction diode forward bias characteristics
    • PN Junction diode Reverse bias characteristics
    • How to calculate the resistance from VI characteristics pn junction diode
    • Diifusion capacitance
    • comparision of Zener and PN junction diodes
    • Zener diode characteristics
    • Zener diode applications
  • Rectifiers and Filters
    • Introduction to rectifiers and filters
    • Types of rectifier and Half Wave Rectifier
    • Half Wave Rectifier Analysis: finding Current
    • Half Wave Rectifier Analysis: finding DC output Current Idc
    • Half Wave Rectifier Analysis: finding RMS output Current Idc
    • Half Wave Rectifier Analysis: finding RMS value AC Current Idc
    • Half Wave Rectifier Analysis: finding RIPPLE FACTOR
    • Efficiency or Rectification ratio
    • Transformer utilization factor
    • form factor ,ripple,peak factors and PIV of HWR
    • Full wave rectifier
    • Bridge wave rectifier
    • RC filter for Half wave
    • RC filter forFull wave
    • Inductor filter
  • Transistor characteristics
    • Introduction to types of transistors
    • Types of transistors
    • NPN transistor
    • NPN transistor contd.,
    • PNP transistor formation
    • Transistor operated regions
    • Types of transistor configurations
    • Common base transistor configuration (input)
    • Common base transistor configuration (output)
    • Common Emitter transistor configuration setup
    • Common Emitter transistor configuration (output)
    • Common Emitter transistor configuration (input)
    • Common Collector transistor configuration
    • Alpha – beta -gamma relations
    • Alpha – beta -gamma relations
    • Transistor acts as switch

 

Electronic Devices & Circuit Design from Zero To HeroElectronic Devices & Circuit Design from Zero To Hero

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