No prerequisites are required to start this course. This lecture series will cover the entire syllabus of Analog Electronics, starting from semiconductor materials to power amplifiers. You will find lectures on following chapters:
Chapter 01: Semiconductor Physics.
Chapter 02: Semiconductor Diode.
Chapter 03: Diode Applications.
Chapter 04: Bipolar Junction Transistors.
Chapter 05: DC Biasing of Transistors.
Chapter 06: BJT AC Analysis.
Chapter 07: Field Effect Transistors.
Chapter 08: Biasing of FET.
Chapter 09: Frequency Response of BJT & JFET.
Chapter 10: Operational Amplifiers.
Chapter 11: Op-Amp Applications.
Chapter 12: Power Amplifiers.
Overview
Syllabus
Semiconductor Materials.
Intrinsic and Extrinsic Semiconductors.
Electron Vs Hole Flow.
Mass Action Law.
Charge Densities in a Semiconductor.
Conductivity of a Semiconductor.
Conductivity of Semiconductors Numerical (Part 1).
Conductivity of Semiconductors Numerical (Part 2).
PN Junction Diode (No Applied Bias).
Barrier Potential.
Width of Depletion Region.
PN Junction Diode (Forward-Bias Condition).
PN Junction Diode (Reverse-Bias Condition).
Semiconductor Diode.
V-I Characteristics of PN Junction Diode.
Effects of Temperature on V-I Characteristics.
Ideal Vs Practical Diode.
Diode Equivalent Circuits.
Load Line Analysis of Diode.
Load Line Analysis (Numerical Problem).
DC or Static Resistance of a Diode.
AC or Dynamic Resistance of a Diode.
Average AC Resistance of a Diode.
Series Diode Configurations.
Series Diode Configuration (Examples).
Parallel Diode Configurations.
Parallel and Series-Parallel Configuration of Diodes (Examples).
Introduction to Diode Rectifier Circuits.
Half Wave Rectifier.
Half Wave Rectifier (RMS Load Current & RMS Load Voltage).
Half Wave Rectifier (Form Factor).
Half Wave Rectifier (Ripple Factor).
Half Wave Rectifier (Efficiency & PIV).
Full Wave Bridge Rectifier.
Full Wave Center-Tapped Rectifier.
Full Wave Rectifier (DC Load Current & DC Load Voltage).
Full Wave Rectifier (RMS Load Current & RMS Load Voltage).
Full Wave Rectifier (Form Factor & Ripple Factor).
Full Wave Rectifier (Efficiency & PIV).
Diode Rectifier Circuits (Numerical Problem).
Introduction to Zener Diodes.
Effects of Temperature on Zener Voltage.
Zener Diode as Voltage Regulator (Part 1).
Zener Diode as Voltage Regulator (Part 2).
Zener Diode as Voltage Regulator (Part 3).
Zener Diode as Voltage Regulator (Part 4).
Zener Diode Numerical Problems (Part 1).
Zener Diode Numerical Problems (Part 2).
Voltage Multiplier Circuits (Half Wave Voltage Doubler).
Voltage Multiplier Circuits (Full Wave Voltage Doubler).
Voltage Multiplier Circuits (Voltage Tripler & Quadrupler).
Introduction to Clippers.
Unbiased Series Clippers.
Biased Series Clippers.
Unbiased Parallel Clippers.
Biased Parallel Clippers.
Zener Diode Clipping Circuits.
Combination Clipper Circuits.
Transfer Characteristics of Clipper Circuit.
Introduction to Clampers.
Positive & Negative Clamper Circuits.
Biased Clamper Circuit.
Clampers (Solved Problem).
Introduction to Bipolar Junction Transistors (BJT).
Working of Transistors.
Common-Base Configuration of a Transistor.
CB Transistor (Input Characteristics & Early Effect).
CB Transistor (Output Characteristics).
Transistor Amplifying Action.
Common-Emitter Configuration of a Transistor.
Common-Emitter Transistor (Input Characteristics).
Common-Emitter Transistor (Output Characteristics).
Common-Collector Configuration of a Transistor.
Relation between α , β and γ.
DC Biasing, Load Line & Operating Point of Transistors.
Fixed-Bias Configuration of a Transistor.
Fixed-Bias Configuration (Solved Problem).
Emitter-Bias Configuration.
Emitter-Bias Configuration (Solved Problem).
Collector Feedback Biasing.
Collector Feedback Biasing (Solved Problem).
Collector Feedback Bias with Emitter Resistance.
Voltage Divider Bias.
Voltage Divider Bias (Solved Problem).
Thermal Runaway in Transistors.
Bias Stabilization and Stability Factors.
Stability Factor for Fixed-Bias Configuration.
Stability Factor for Emitter-Bias Configuration.
Stability Factor for Collector Feedback Biasing.
Stability Factor for Voltage Divider Bias.
Transistor Saturation.
Small Signal Analysis of BJT.
AC Equivalent Circuit of BJT Amplifier.
Hybrid Model (Calculation of h-Parameters).
Hybrid Model (Equivalent Circuit).
Analysis of Transistor Amplifier Using h-Parameters (Part 1).
Analysis of Transistor Amplifier Using h-Parameters (Part 2).
Analysis of Transistor Amplifier Using h-Parameters (Part 3).
Approximate Hybrid Equivalent Model.
Conversion of h-Parameters.
re Transistor Model (Part 1).
re Transistor Model (Part 2).
re Model (Fixed-Bias Configuration) | Part 1.
re Model (Fixed-Bias Configuration) | Part 2.
re Model (Fixed-Bias Configuration) | Part 3.
re Model (Solved Problem 1).
re Model (Voltage-Divider Bias).
re Model (Solved Problem 2).
Hybrid-π Model.
Hybrid-π Model (Solved Problem).
Emitter-Follower Configuration (Part 1).
Emitter-Follower Configuration (Part 2).
Two-Port Systems Approach.
Two-Port Systems Approach (with Load Resistance).
Two-Port Systems Approach (with Source Resistance).
Two-Port Systems Approach (with Source and Load Resistances).
Two-Port Systems Approach (Solved Problem).
Cascaded Systems.
Cascaded Systems (Solved Problem).
Darlington Pair.
Touch Sensor Using Darlington Pair.
DC Analysis of Darlington Circuit.
Introduction to Field-Effect Transistors (FETs).
Construction and Working of JFET.
Working of JFET (Zero Voltage at the Gate).
Pinch-off Voltage.
JFET as a Current Source.
Working of JFET (Negative Voltage at the Gate).
Output or Drain Characteristics of JFET.
JFET as Voltage-Controlled Resistor.
Transfer Characteristics of JFET.
BJT Vs JFET.
JFET Solved Problems (Part 1).
JFET Solved Problems (Part 2).
Construction & Working of Enhancement-Type MOSFET (Part 1).
Construction & Working of Enhancement-Type MOSFET (Part 2).
Drain Characteristics of Enhancement-Type MOSFET.
Transfer Characteristics & Symbols of Enhancement Type MOSFETs.
Construction of Depletion-Type MOSFET.
Working of Depletion-Type MOSFET.
Drain & Transfer Characteristics of Depletion-Type MOSFET.
MOSFET Solved Problems (Part 1).
MOSFET Solved Problems (Part 2).
Introduction to FET Biasing.
Fixed-Bias Configuration of JFET (Mathematical Approach).
Fixed-Bias Configuration of JFET (Graphical Approach).
Fixed-Bias Configuration of JFET (Solved Problem).
Self-Bias Configuration of JFET (Mathematical Approach).
Self-Bias Configuration of JFET (Graphical Approach).
Voltage-Divider Bias Configuration of JFET.
Common-Gate Configuration of JFET.
JFET Biasing (Special Case).
Introduction to Depletion-Type MOSFET Biasing.
Self-Bias Configuration of Depletion-Type MOSFET.
Depletion-Type MOSFET Biasing (Special Case).
Voltage-Divider Bias Configuration of Depletion-Type MOSFET.
Depletion-Type MOSFET Biasing (Solved Problem).
Introduction to Enhancement-Type MOSFET Biasing.
Taught by
Neso Academy
Related Courses
Reviews
4.5 rating, based on 2 Class Central reviews
-
A ChakradharThe **"Analog Electronic Circuits"** course offered by class central is is a well-structured and comprehensive learning experience. Designed for both undergraduate and master's level students, it strikes a balance between theory and practical appli… -
Your review helps other learners like you discover great courses. Only review the course if you have taken or started taking this course.
