Global Sources
EE Times-India
Stay in touch with EE Times India
 
 
Editor's Choice
 
  • 60V 8-Switch Matrix LED Dimmer
    LinearAutomobile LED lighting has arrived. Future models will feature more LED lights, including new shapes and colors, and more control over the individual LEDs. The future is now: click here to watch the video, and learn how Linear Technology's LT3965 matrix LED driver makes it easy to take the next step into automobile lighting design.
eeUniversity Displaying1 - 4 of 143

Lecture 1
Basic Building Blocks In Analogue ICs

Lecture 2
Current Mirrors

Lecture 3
Translinear Networks

Lecture 4
Differential Amplifier

Lecture 5
Differential Amplifier Characteristics

Lecture 6
Video Amplifier and RF/IF Amplifiers

Lecture 7
Cascade Amplifier

Lecture 8
IC Negative Feedback Wide Band Amplifiers

Lecture 9
IC Negative Feedback Amplifiers

Lecture 10
Voltage Sources And References

Lecture 11
IC Voltage Regulator

Lecture 12
Characteristics and Parameters Of Voltage

Lecture 13
Protection Circuitry For Voltage Regulator

Lecture 14
Switched Mode Regulator And Operational

Lecture 15
IC Operational Voltage Amplifier

Lecture 16
General Purpose Operational Amplifier-747

Lecture 17
Transconductance Operational Amplifier

Lecture 18
Audio Power Amplifier and Norton's Amplifier

Lecture 19
Analogue Multipliers

Lecture 20
Analogue Multipliers

Lecture 21
Voltage Controlled Oscillator

Lecture 22
Voltage Controlled Oscillator

Lecture 23
Self Tuned Filter

Lecture 24
Phase Locked Loop

Lecture 25
Phase Locked Loop

Lecture 26
Phase Locked Loop

Lecture 27
Phase Locked Loop

Lecture 28
Current Mode ICs

Lecture 9
Sinusoidal steady state

Lecture 10
Transfer Function and Pole-Zero Domain 1

Lecture 11
Transfer Function and Pole-Zero Domain 2

Lecture 12
The Sinusoid

Lecture 13
Phasor Analysis Part 1

Lecture 14
Phasor Analysis Part 2

Lecture 15
Power Factor

Lecture 16
Power ports

Lecture 17
Transformer Basics Part 1

Lecture 18
Transformer Basics Part 2

Lecture 19
Transformer Basics Part 3

Lecture 20
The Practical Transformer Part 1

Lecture 21
The Practical Transformer Part 2

Lecture 22
The Practical Transformer Part 3

Lecture 15
Control Engineering

Lecture 16
Control Engineering

Lecture 17
Control Engineering

Lecture 22
Control Engineering

Lecture 23
Control Engineering

Lecture 24
Control Engineering

Lecture 25
Control Engineering

Lecture 28
Control Engineering

Lecture 31
Control Engineering

Lecture 32
Control Engineering

Lecture 33
Control Engineering

Lecture 35
Control Engineering

Module - 4 Lecture - 1
Introduction to Operational Amplifiers

Module - 4 Lecture - 3
Op-Amp Applications Part 1

Module - 2 Lecture - 1
Transistor Operation Part 1

Module - 2 Lecture - 2
Transistor Operation Part 2

Module - 2 Lecture - 6
BJT Amplifier - Part 1

Module - 2 Lecture - 8
Frequency Response of BJT Analysis - Part 1

Module - 2 Lecture - 10
Transistor as a Switch

Module - 3 Lecture - 1
MOSFET - Part 1

Module - 3 Lecture - 2
MOSFET - Part 2

Module - 3 Lecture - 3
MOSFET under DC Operation

Module - 3 Lecture - 5
Small Signal Model of MOSFET - Part 1

Module - 3 Lecture - 6
Small Signal Model of MOSFET - Part 2

Module - 4 Lecture - 4
Op-Amp Applications Part 2

Module - 4 Lecture - 5
Op-Amp Applications Part 3

Module - 4 Lecture - 6
The Practical Op-Amp

Module - 4 Lecture - 7
Positive Feedback and Oscillation

Module - 4 Lecture - 8
Comparator

Module - 5 Lecture - 1
Large Signal Amplifiers

Module - 5 Lecture - 2
Transformer Coupled Power Amplifier

Module - 5 Lecture - 3
Class AB Operations of Power Amplifier

Module - 5 Lecture - 4
Power BJTs

Module - 5 Lecture - 7
Silicon-controlled Rectifier

Module - 5 Lecture - 8
SCR Applications

Lecture 1
Introduction to Digital Circuits

Lecture 2
Introduction to Digital Circuits

Lecture 3
Combinational Logic Basics

Lecture 4
Combinational Circuits

Lecture 12
Carry Look Ahead Adders

Lecture 14
2's Complement Subtractor and BCD Adder

Lecture 8
Signal Conditioning (Part 1)

Lecture 9
Signal Conditioning (Part 2)

Lecture 10
Data Acquisition Systems

Lecture 3
Data and Signal

Lecture 8
Transmission of Digital Signal (Part 2)

Lecture 9
Transmission of Analogue Signal (Part 1)

Lecture 10
Transmission of Analogue Signal (Part 2)

Lecture 11
Multiplexing (Part 1)

Lecture 11
Multiplexing (Part 2)

Lecture 12
Multiplexing Applications (Part 1)

Lecture 13
Multiplexing Applications (Part 2)

Lecture 15
Error Detection and Correction

Lecture 4
Loop gain and unity loop gain frequency

Lecture 5
Op amp realisation using controlled sources

Lecture 6
Negative feedback amplifier with ideal delay-small delays

Lecture 7
Negative feedback amplifier with ideal delay-large delays

Lecture 8
Negative feedback amplifier with parasitic poles and zeroes

Lecture 9
Negative feedback amplifier with parasitic poles and zeros

Lecture 10
Nyquist criterion and Phase margin

Lecture 11
Phase margin

Lecture 12
Single stage opamp realization

Lecture 13
Two stage miller compensated opamp (Part 1)

Lecture 14
Two stage miller compensated opamp (Part 2)

Lecture 15
Two and three stage miller compensated opamps

Lecture 16
Feedforward compensated op amp (Part 1)

Lecture 17
Feedforward compensated op amp (Part 2)

Lecture 18
Typical opamp data sheet

Lecture 19
Opamp offset and CMRR

Lecture 21
MOS transistors - The basics

Lecture 22
MOS transistors - Parasitics, mismatch

Lecture 23
MOS transistors - Mismatch, speed

Lecture 24
Noise in resistors

Lecture 25
Noise in MOS transistors

Lecture 26
Noise scaling

Lecture 27
Basic amplifier stages

Lecture 28
Common source amplifier frequency response

Lecture 29
Differential and common mode half circuits

Lecture 31
Single stage opamp characteristics

Lecture 32
Opamp with single and dual supplies

Lecture 33
Telescopic cascode opamp

Lecture 34
Folded cascode opamp (Part 1)

Lecture 36
Two stage opamp

Lecture 37
Three stage and triple cascode opamps

Lecture 38
Common mode rejection ratio

Lecture 39
Fully differential circuits

Lecture 40
Fully differential single stage opamp

Lecture 35
Folded cascode opamp (Part 2)

Lecture 41
Common mode feedback

Lecture 42
Fully differential single stage opamp

Lecture 43
Fully differential versus pseudo-differential

Lecture 44
Circuit simulators and analyses

Lecture 45
Phase locked loop as frequency multiplier

Lecture 46
Phase domain model

Lecture 47
Type I PLL transfer function and reference feedthrough

Lecture 48
Type II PLL

Lecture 49
Type II PLL transfer functions

Lecture 50
Type II PLL-extra poles

Lecture 51
Oscillator phase noise

Lecture 52
PLL Phase Noise

Lecture 53
Generating PTAT and constant MOS gm bias currents
View all videos


 

Go to top             Connect on Facebook      Follow us on Twitter      Follow us on Orkut

 
Back to Top