Instrumentation Engineering Preparation

Electrical Circuits

Basic Electrical Circuits

35:17
Sinusoids

37:09
Resistance, Inductance & Capacitance

31:06
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

Analog Electronics

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

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

Introduction

Inverting Amplifier And Non Inverting Amplifier

Poles And Zeros

OP-AMPS

Application of OP-AMPS

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

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

Bode Plot

Frequency Response