ANALOG ELECTRONIC CIRCUITS

Diode equivalent circuits
Transition and diffusion capacitance
Diode Reverse recovery time
Diode Load line analysis
What is a rectifier, what are its various types?
Clippers
Transistor Biasing
Operating point or quiescent point(Q-point)
WHY BIASING?
BIAS STABILITY
The DC Operating Point
Requirements of biasing network
The Potential Divider Bias Circuit
The Fixed Bias Circuit
Fixed bias with emitter resistor
The Collector to Base Bias Circuit
Semiconductor diode
Diode Operating conditions
Avalanche breakdown
Zener breakdown
Temperature Effects on performance of diode
DC or Static Resistance
Average AC Resistance
AC or Dynamic Resistance
Diode equivalent circuits
Transition and diffusion capacitance
Diode characteristics
Reverse recovery time
Load line Analysis
Diode approximations
Half-wave Rectifier
Bridge Rectifier
Centre - tap FWR
Clippers (Diode as Clippers)
Operating regions of BJT
Q-Point (Static Operation Point)
Transistor Biasing
Fixed bias
Emitter Bias
Voltage divider bias
DC bias with voltage feedback
Transistor as a switch
BJT Transistor modeling
The Hybrid equivalent model
re model
Transistor Frequency Response
Frequency analysis of an RC network
Low frequency response – BJT amplifier
Miller Effect Capacitance
High frequency response – BJT Amplifier
Cascade connection – FET
Cascade amplifier – BJT
Cascode connection
Darlington connection
Feedback concepts
Feedback connection types
Gain with feedback
Amplifier Types
Class A amplifier
Class B amplifier
Class AB amplifier
Class C amplifier
Class D amplifier
Series fed class A amplifiers
Transformer coupled class A amplifier
Basic operation of an Oscillator
Phase shift oscillator
FET phase shift oscillator
RC Phase shift Oscillator - BJT version
Colpitts Oscillator
Hartley Oscillator
Crystal Oscillator

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