Instrumentation Engineering Preparation

About Course

This Refresher Course helps aspiring candidates to recapitulate and improve their fundamental knowledge on various subjects pertaining to Instrumentation Engineering.

It covers the relevant topics under the academic curriculum for Graduate and Diploma level Engineering, where video lectures from world class institutions e.g. IITs, IISc etc. have been facilitated for dissemination of knowledge.

Course Content

Electrical Circuits

Basic Electrical Circuits

35:17
Sinusoids

37:09
Resistance, Inductance & Capacitance

31:05
Kirchhof’s Law

31:10
Basic Circuit elements & Waveforms

27:09
Mesh & Nodal Analysis

36:22
Mesh Analysis

30:23
Nodal Analysis

29:37
Topology

33:25
Star & Delta Transformation

36:49
Linearity Properties and Source Transformation

33:23
Network Theorem 1 | Source Transformation

32:39
Network Theorem | Duality

34:02
Thevenin’s Theorem

30:05
Thevenin’s Theorem with Dependent Source

34:29
Network Theorem 2 | Norton’s Theorem

31:18
Network Theorem 2 | Dependent Source

30:47
Maximum Power Transfer Theorem

27:31
Maximum Power Transfer Theorem 2

30:47
Reciprocity & Compensation Theorem

30:02
First Order & Second Order Circuits

31:08
First Order RL circuits

26:31
Singularity Function

31:51
RC Circuits

32:19
Second Order Response

31:06
Step Response of Second Order Circuits

25:58
Step Response Parallel RLC Circuits

29:09
Laplace Transformation & Application

29:37
Properties of Laplace Transform

33:01
Inverse Laplace Transform

33:26
Laplace Transform of Circuit Elements

30:30
Transfer Function

28:44
Convolution Theorem

29:02
Graphical Approach of Convolution Integral

31:35
Network Analysis & Network Synthesis

23:06
Impedance Parameters

30:39
Admittance Parameters

31:07
Hybrid Parameters

27:22
Transmission Parameters

29:37
Interconnection of Networks

31:36
Sinusoidal Steady state Analysis 1

27:15
Superposition Theorem & Source Theorem

28:58
Thevnin’s, Norton’s and Maximum Power Transfer Theorem

29:58
Magnetically Coupled Circuit

28:00
Energy in Coupled Circuit & Ideal Transformer

29:23
Ideal Transformer & Introduction to Three phase circuits

32:39
Balanced Three Phase Connections

32:19
Balanced Wye Delta & Delta-Delta connection

27:46

Signals and Systems

Continuous & Discrete Signals

11:02
Complex to Polar Conversion

12:53
Energy & Power CT Signal

14:35
Energy & Power DT Signal

09:30
Basic Concepts DT Signals & Systems

05:42
Periodic Signals

21:31
Even and Odd Signals

13:20
Sketch Even & Odd Signals

12:48
Complex Exponential & Sinusoidal Signals

21:25
Complex Exponential & Sinusoidal Signals

15:54
System with Memory

14:23
Causality Property

15:14
Finite Sum

11:54
Convolution – Discrete Time LTI System

28:35
End Chapter Problem

15:21
Discrete Time Convolution

20:15

Analog Electronics

Introduction

34:32
Inverting Amplifier And Non Inverting Amplifier

28:35
Poles And Zeros

30:01
OP-AMPS

29:45
Application of OP-AMPS

24:59
Non Idealities In Op-Amp (Finite Gain, Finite Bandwidth And Slew Rate)

27:27
Non Idealities In Op-Amp (Offset Voltage And Bias Current)

19:44
Bode Plot

26:04
Frequency Response

17:22
High Frequency Response

22:42
Frequency Response Example

28:48
Feedback

23:39
Effect of Feedback

25:40
Tutorial 1 and 2

34:30
Effect of Feedback and Stability

17:12
Stability

18:25
Stability and Pole Location

21:44
Tutorial 3

23:35
Gain Margin Example

19:40
Frequency Compensation

24:02
Filters

22:55
Filter Prototypes

22:04
Tutorial 4

29:17
Tutorial 5

27:43
Tutorial 6

27:23
Non Linear Application OF OPAMPS

26:22
Active Filters

39:18
Filters Transformation

28:09
Chebyshev Prototype, Filter Transformation

22:25
Oscillators

27:13
Oscillator Amplitude Control , Quadrature Oscillator

33:38
Multivibrators

30:30
BJT DC Circuits

31:14
Current Mirror

24:48
Multivibrators 2

30:46
Monostable Multivibrator

27:39
Zener Effect, Rectifiers

28:02
Rectifiers

29:59
Clamper, Peak rectifiers, Super Diodes

32:46

Digital Electronics

Introduction

33:50
Transistor as a Switch

35:21
Performance Issue and Introduction to TTL

31:18
Transistor Transistor Logic (TTL)

30:02
CMOS Logic

35:38
Basic Gates and their representations

30:57
Fundamentals of Boolean Algebra

32:28
Boolean Function to Truth Table and Implementation Issues

29:57
Truth Table to Boolean Function and Implementation Issues

31:54
Karnugh Map and Digital Circuit Realization

35:35
Karnaugh Map to Entered Variable Map

31:02
Quine – McClusky (QM) Algorithm

30:02
Cost Criteria and Minimization of Multiple Output Functions

29:41
Static 1 Hazard

29:13
Static 0 Hazard and Dynamic Hazard

32:52
Multiplexer: Part I

29:03
Multiplexer: Part II

31:40
Demultiplexer / Decoder

29:32
Decoder with BCD Input and Encoder

27:29
Parity Generator and Checker

30:29
Number System

35:13
Negative Number and 2’s Complement Arithmetic

28:58
Arithmetic Building Blocks-I

26:59
Arithmetic Building Blocks-II

30:38
Overflow Detection and BCD Arithmetic

34:17
Magnitude Comparator

32:30
Arithmetic Logic Unit (ALU)

29:33
Unweighted Code

33:08
Error Detection and Correction Code

30:19
Multiplication and Division

31:49
SR Latch and Introduction to Clocked Flip-Flop

33:35
Edge-Triggered Flip-Flop

34:21
Representations of Flip-Flops

28:46
Analysis of Sequential Logic Circuit

33:30
Conversion of Flip-Flops and Flip-Flop Timing Parameters

29:41
Register and Shift Register: PIPO and SISO

29:59
Shift Register: SIPO, PISO and Universal Shift Register

30:20
Application of Shift Register

27:51
Linear Feedback Shift Register

30:31
Serial Addition, Multiplication and Division

25:22
Asynchronous Counter

34:19
Decoding Logic and Synchronous Counter

31:11
Counter Design with Asynchronous Reset and Preset

31:42
Counter Design as Synthesis Problem and Few Other Uses of Counter

31:01
Cascading: Mod 2, 3, 5 to Mod 6, 10, 1000 Counter

30:32
Synthesis of Sequential Logic Circuit: Moore Model and Mealy Model

34:36
Moore Model and Mealy Model: Realization of Digital Logic Circuit

34:32
Algorithmic State Machine (ASM) Chart and Synthesis of Sequential Logic Circuit

25:17
Circuit Realization from ASM Chart and State Minimization

30:56
State Minimization by Implication Table and Partitioning Method

29:30
Digital to Analog Conversion – I

26:22
Digital to Analog Conversion – II

29:32
Certain Performance Issue of ADC and DAC

29:34
Introduction to Memory

32:07
Dynamic RAM(DRAM) and Memory Expansion

33:04
Static Random Access Memory (SRAM)

32:29
Read Only Memory (ROM)

34:17
PAL, PLA, CPLD, FPGA

33:18

Measurements

Electrical Measurement and Electronic Instruments

16:59
PMMC Instrument

34:47
Electrodynamic Instrument

40:33
Demonstration of PMMC and Electrodynamic Instrument

12:03
Features of PMMC and Electrodynamic Instrument

27:37
Moving Iron Instruments

27:17
Demonstration of Moving Iron Instrument

24:07
Electrostatic Instrument

19:12
Derivation of Deflecting Torque in Electrodynamic, Electrostatic & Moving Iron Instrument

01:12:28
Damping and Eddy Current Damping

46:47
Dynamics of the Moving Coil and Damping

28:15
Dynamics of the Moving Coil and Damping (Contd.)

33:49
Ballistic Galvanometer

24:21
Ammeter- I

22:22
Ammeter- II

33:35
Voltmeter

35:27
Ohmmeters- I

40:46
Ohmmeters- II

32:59
Rectifier based Voltmeters and Ammeter- I

35:49
Rectifier based Voltmeters and Ammeter- II

28:41
Resistance measurement with a Voltmeter and an Ammeter

33:18
Four-Terminal Resistance

34:08
Problems: Four Terminal Resistance

01:04:15
Error Calculation

49:52
Sensitivity, Accuracy, and Resolution of Wheatstone Bridge

50:22
Kelvin Double Bridge

52:12
High Resistance Measurement

53:14
Wattmeter Connection and Compensated Wattmeter

46:54
Single Phase Energy Meter

47:22
Eddy Current Braking, Creation of Magnetic Field Without Moving Objects

22:58
Single Phase Energy Meter (Contd….)

46:40
Connection of Energy Meter, Wattmeter, and Three Phase Supply

41:42
DC Potentiometer

47:34
AC Potentiometer

24:09
Polar potentiometer and phase shifter

41:48
Polar potentiometer

38:57
Co-ordinate potentiometer

54:47
Kelvin-Varley potential divider

01:13:56
Impedance measurement

44:11
AC bridges I

01:10:37
AC bridges- II

53:22
AC bridges- III

49:17
Current transformer and potential transformer

01:07:38
Review of transformer and magnetic circuit

01:57:40
Errors in Instrument transformer

01:14:32
Flux density measurement with Ballistic Galvanometer

20:22
Flux density measurement with Ballistic Galvanometer (Contd..)

29:25

Sensors and Industrial Instrumentation

Introduction to Industrial Instrumentation

59:56
Dynamic Characteristics

59:52
Dynamic Characteristics Cont.

59:56
Introduction to Strain gauge

59:56
Introduction to Load cell

59:48
Introduction to Torque Measurement

59:44
Introduction to Thermistor

59:53
Introduction to Thermocouples

59:52
Introduction to Resistance Temperature Detector

59:55
Introduction to LVDT

59:08
Introduction to Capacitance Transducers

59:42
Introduction to Flowmeter I

56:04
Introduction to Flow meter II

59:54
Introduction to Flowmeter III

59:55
Introduction to Flowmeter IV

59:53
Introduction to Flowmeter V

01:00:03
Problems on Temperature Sensors

59:57
Introduction to Pressure Sensors

59:56
Introduction to Low Pressure Measurement

59:52
Introduction to pH and Viscosity Measurement

59:55
Problem and Solutions On Industrial Instrumentation

59:45
Introduction to Signal Conditioning Circuits I

59:55
Introduction to Signal Conditioning Circuits II

59:54
Introduction to Piezoelectric Sensors

59:55
Introduction to Ultrasonic Sensors

59:50
Introduction to Nucleonic Instrumentation

59:55
Introduction to Measurement Of Magnetic Field

59:53
Introduction to Optoelectronic Sensor I

39:25
Introduction to Optoelectronic Sensor II

59:47
Introduction to Synchro

59:53
Introduction to Dissolved Oxygen Sensors I

59:45
Introduction to Dissolved Oxygen Sensors II

59:52
Introduction to Flapper Nozzle

59:55
Introduction to Smart Sensors

59:47
Introduction to Chromatography I

59:53
Introduction to Chromatography II

59:52
Introduction to Pollution Measurement

59:50
Introduction to Control Valve I

59:55
Introduction to Control Valve II

59:53
Introduction to Signal Conditioning Integrated Circuits

59:42

Communication

Introduction to Communication System

18:18
Block Diagram of Communication System

25:38
Amplitude modulation

22:19
Time Domain representation of AM

26:28
Frequency Domain Representation of AM and Bandwidth

14:22
Power Calculation in AM and Transmission Efficiency

27:31
Types of AM

22:56
Bandwidth and Power Calculation of AM

25:27
Part-1 | Practice Questions | (Amplitude modulation)

35:16
Part – 2 | Practice Questions | (Amplitude modulation)

38:26
Part – 3 | Practice Questions | (Amplitude modulation)

23:40
Part – 4 | Practice Questions | (Amplitude modulation)

36:12
Part – 5 | Practice Questions | (Amplitude modulation)

18:35
Part – 6 | Practice Questions | (Amplitude modulation)

50:55
Generation of AM

59:30
Detection of AM (Square Law Demodulator)

30:24
Detection of AM (Rectifier Detector)

19:01
Detection of AM (Envelope Detector) Part 1

25:34
Detection of AM (Envelope Detector) Part 2

34:16
Detection of AM Synchronous Detector

09:00
Part – 7 | Practice Questions | (Amplitude modulation)

11:50
Part – 8 | Practice Questions | (Amplitude modulation)

29:15
Generation of DSB-SC (Balanced Modulator)

17:55
Generation of DSB-SC (Ring Modulator)

40:06
Detection of DSB-SC

17:29
Hilbert Transform (Part – 1)

29:42
Hilbert Transform (Part – 2)

38:26
Generation and Detection of SSB-SC

29:11
Part – 9 | Practice Questions | (Amplitude modulation)

27:20
Part – 10 | Practice Questions | (Amplitude modulation)

23:45
Pre-Envelope and Complex Envelope

14:38
Complete Revision of Communication System

04:25:19
Phasor Diagram of AM

18:05
Frequency Division Multiplexing FDM

34:08
Practical Aspect of FDM and Practice Que. (Amplitude modulation)

37:55
Passband Digital Modulations – I : PSK & QPSK

55:04

Control Systems

Introduction

05:14
Linear Systems

35:51
Homogeneous linear time invariant ordinary differential equations

31:56
In-homogeneous linear time invariant ordinary differential equations

29:04
Fourier transforms | Part 1

27:39
Fourier transforms | Part 2

26:32
Laplace transforms | Part 1

33:37
Laplace transforms | Part 2

21:03
Feedback Control

29:30
Feedback Control | Part 2

28:49
Stability Theory

26:04
Quadratic Equation

23:36
Analytic Function & Cauchy Integral Formula

43:32
Nyquist Plot

42:39
Bode Plot

32:33
Closed Loop System

21:44
Plots

28:56
Plots (contd.)

21:12
Controller

24:54
Numerical example

15:55
Numerical Example 2

59:50
Root Locus

46:44
Root Locus 2

58:10
Generic Controllers

37:33
One degree of freedom control

01:02:58
Steady State analysis

45:13
Determination Of P4 and P5

36:09
2 Degree of freedom control system

51:19
Design

52:51
Transient response

32:40
Specifications

52:58
Nicole’s Plot

39:36
Stability Specification

42:50
Design of Controller

40:23
QFT Tool box

20:59
QFT Tool box 2

40:33
Fundamental properties of control system

33:02

Optical Instrumentation

Fiber Optics

03:28
Introduction

32:45
Need for Optical Communication

26:53
Salient Features of Optical Fiber – I

34:42
Salient Features of Optical Fiber – II

33:08
Optical Fiber Fabrication

38:25
Transmission Characteristics – I

33:16
Transmission Characteristics – II

29:57
Transmission Characteristics – III

34:27
Propagation in Infinitely Extended Dielectric

38:25
EM Waves in Dielectrics

34:18
Electromagnetic Analysis of Waveguides – I

33:22
Electromagnetic Analysis of Waveguides – II

32:38
Electromagnetic Analysis of Waveguides – III

27:34
Electromagnetic Analysis of Waveguides-IV

32:53
Electromagnetic Analysis V

28:13
Electromagnetic Analysis of Waveguides-VII

36:16
Electromagnetic Analysis of Waveguides – VIII

27:38
Optical Fiber Waveguide – II

29:04
Optical Fiber Waveguide – III

27:17
Optical Fiber Waveguide – IV

32:55
Splice Loss

25:23
Waveguide Dispersion – I

28:17
Waveguide Dispersion – II

31:14
Recap: Propagation Characteristics

29:38
Optical Fiber Components and Devices

28:28
Optical Fiber Components and Devices – I

30:59
Optical Fiber Components and Devices-II

30:59
Optical Fiber Components and Devices-III

32:03
Optical Sources and Detectors – I

31:00
Optical Sources and Detectors – II

28:08
Optical Sources and Detectors – III

28:15
Optical Sources and Detectors – IV

34:04
Optical Sources and Detectors – V

32:55
System Design Aspects

33:47
Optical Fiber Measurements

36:53
Summary and Recent Advances

34:21

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Instrumentation Engineering Preparation

About Course

What Will You Learn?

Course Content

Electrical Circuits

Basic Electrical Circuits

Sinusoids

Resistance, Inductance & Capacitance

Kirchhof’s Law

Basic Circuit elements & Waveforms

Mesh & Nodal Analysis

Mesh Analysis

Nodal Analysis

Topology

Star & Delta Transformation

Linearity Properties and Source Transformation

Network Theorem 1 | Source Transformation

Network Theorem | Duality

Thevenin’s Theorem

Thevenin’s Theorem with Dependent Source

Network Theorem 2 | Norton’s Theorem

Network Theorem 2 | Dependent Source

Maximum Power Transfer Theorem

Maximum Power Transfer Theorem 2

Reciprocity & Compensation Theorem

First Order & Second Order Circuits

First Order RL circuits

Singularity Function

RC Circuits

Second Order Response

Step Response of Second Order Circuits

Step Response Parallel RLC Circuits

Laplace Transformation & Application

Properties of Laplace Transform

Inverse Laplace Transform

Laplace Transform of Circuit Elements

Transfer Function

Convolution Theorem

Graphical Approach of Convolution Integral

Network Analysis & Network Synthesis

Impedance Parameters

Admittance Parameters

Hybrid Parameters

Transmission Parameters

Interconnection of Networks

Sinusoidal Steady state Analysis 1

Superposition Theorem & Source Theorem

Thevnin’s, Norton’s and Maximum Power Transfer Theorem

Magnetically Coupled Circuit

Energy in Coupled Circuit & Ideal Transformer

Ideal Transformer & Introduction to Three phase circuits

Balanced Three Phase Connections

Balanced Wye Delta & Delta-Delta connection

Signals and Systems

Continuous & Discrete Signals

Complex to Polar Conversion

Energy & Power CT Signal

Energy & Power DT Signal

Basic Concepts DT Signals & Systems

Periodic Signals

Even and Odd Signals

Sketch Even & Odd Signals

Complex Exponential & Sinusoidal Signals

Complex Exponential & Sinusoidal Signals

System with Memory

Causality Property

Finite Sum

Convolution – Discrete Time LTI System

End Chapter Problem

Discrete Time Convolution

Analog Electronics