S3 AE Module 1
Click Class for the download of the Notes
Class 1
Diode as a circuit element - load line - piecewise linear model – single-phase half wave and full wave rectifier circuits - voltage regulation - ripple factor - rectifier efficiency
Class 2
Bridge rectifier - Rectifier filters
Class 3
Diode Clipping Circuits - Single Level and Two Level Clippers - Clamping Circuits
Class 4
Zener Diodes - Zener Voltage Regulators.
Class 5
Introduction - Transistors - BJT
Class 6
Transistor Operation - Common-Base Configuration - Common-Emitter Configuration - Common-Collector Configuration - Transistor Amplifying Action - Alpha - Beta
Class 7
Operating point of a BJT – DC biasing - bias stability - thermal runaway - Fixed bias Circuit - Emitter-Stabilized Bias Circuit - Voltage-Divider Bias - Collector Feedback Bias
Class 8
AC Concepts – role of capacitors in amplifiers – amplifier gain and impedance calculations - common emitter AC equivalent circuit - re Transistor Model
Class 9
h parameter model of a BJT - common emitter and emitter follower analysis and comparison using hybrid equivalent circuit – cascaded amplifiers, frequency response of amplifiers
EE14 305 Analog Electronics
Module 1
Class 1
Diode as a circuit element - load line - piecewise linear model – single-phase half wave and full wave rectifier circuits - voltage regulation - ripple factor - rectifier efficiency
Class 2
Bridge rectifier - Rectifier filters
Class 3
Diode Clipping Circuits - Single Level and Two Level Clippers - Clamping Circuits
Class 4
Zener Diodes - Zener Voltage Regulators.
Class 5
Introduction - Transistors - BJT
Class 6
Transistor Operation - Common-Base Configuration - Common-Emitter Configuration - Common-Collector Configuration - Transistor Amplifying Action - Alpha - Beta
Class 7
Operating point of a BJT – DC biasing - bias stability - thermal runaway - Fixed bias Circuit - Emitter-Stabilized Bias Circuit - Voltage-Divider Bias - Collector Feedback Bias
AC Concepts – role of capacitors in amplifiers – amplifier gain and impedance calculations - common emitter AC equivalent circuit - re Transistor Model
Class 9
h parameter model of a BJT - common emitter and emitter follower analysis and comparison using hybrid equivalent circuit – cascaded amplifiers, frequency response of amplifiers