Electrical and Electronic Principle (EEP)
This course contains following topics
1. AC Fundamental :
Basic Principles of AC Generators, Alternating Voltages and Currents, Frequency, Amplitude and Phase, RMS and Average Value, Form Factor, Resistance, Inductance, Capacitance, RLC Series Connection and Resonance, Parallel Resonance.
2. Network Theorem.
KVL, KCL, Superposition theorem, Thevenin’s theorem, Norton’s theorem, Maximum power transfer theorem.
3. Introduction to Semiconductors:
Semiconductors and their properties, Intrinsic and extrinsic semiconductors.
4. Semiconductor Diodes and Special Purpose Diodes:
The pn junction formation, properties and VI characteristics, Basic constructions, characteristics, operations and uses of special diodes, Light emitting diode (LED), Zener diode.
5. Regulated Power Supply:
Voltage regulation, rectifiers, halfwave and fullwave rectifiers, Voltage regulator circuits Zener diode and transistor voltage regulator.
6. Bipolar Junction Transistors: npn and pnp transistors, Amplifying and switching actions of transistor, Transistor characteristics in CB, CE and CC configurations, Operating point, Transistor load line analysis, BJT Biasing.
7. Field Effect Transistors: Classification of FET, Construction, operation and characteristics of JFET, Operation and characteristics curves of MOSFET, DC biasing of JFET.
8. Feedback Techniques and Opamps: Negative and positive feedback, characteristics and gain with negative voltage and current feedback, Emitter Follower, Basic Opamps characteristics, inverting, noninverting, integrators, differentiators, summing amplifiers.
Responsible  Ahadul Amin Soshi 

Last Update  05/31/2021 
Completion Time  1 day 8 hours 41 minutes 
Members  15 

Lecture AC Fundamental

Lecture AC fundamental 1.1

Lecture AC fundamental 1.2

Lecture AC fundamental 2

Lecture AC fundamental 3

Lecture AC fundamental 4

Lecture AC fundamental 5

Lecture AC fundamental 6

Lecture AC fundamental 7


Lecture Complex number and phasor

Lecture Complex number and phasor P1

Lecture Complex number and phasor P2

Lecture Complex number and phasor P3


Lecture Ohms law, power, voltage

Lecture ohms law, power, voltage P1

Lecture ohms law, power, voltage P2

Lecture ohms law, power, voltage P3

Lecture ohms law, power, voltage P4


Lecture KirchoffLaws

Preview

Lecture Kirchoff Laws P2


Lecture Thevenin and Norton

Lecture Thevenin and Norton P1

Lecture Thevenin and Norton P2

Lecture Thevenin and Norton P3


Impedance

Resistor, Capacitor and Inductor

RL, RC, RLC

Resonant

impedance math

Power Triangle


Lecture OpAmps and Feedback

Introduction to OpAmps

OpAmps Characteristics

Slew Rate and CMRR

Inverting Amplifier

Non Inverting Amplifier

Summing Amplifier

Differential Amplifier

OpAmp Integrator

OpAmp Differentiator

Feedback

Negative Feedback

CSE EEP Op Amps lecture 01

Op Amps Lecture 02

Op Amps Lecture 03

Op Amps Lecture 04

Op Amps Lecture 05

Op Amps Lecture 06


Lecture : Semiconductor

Lecture Semiconductor

Lecture Semiconductor

Lecture Semiconductor classification

Lecture Semiconductor classification

Lecture Forward and reverse bias

Lecture Depletion Region, Forward and Reverse Bias

VI characteristics

Lecture VI characteristics

Chapter: Semiconductor :Quiz 0110 xp


Diode

Lecture  Introduction

Lecture  Photodiode

Diode  Definitions and LED

Lecture LED and Zener
