Instrumentation Engineering Preparation

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.

What Will You Learn?

  • Circuits and Systems
  • Analog and Digital Electronics
  • Measurements and Instrumentations
  • Control and Communications

Course Content

Electrical Circuits

  • Basic Electrical Circuits
    35:17
  • Sinusoids
    37:10
  • Resistance, Inductance & Capacitance
    31:06
  • Kirchhof’s Law
    31:11
  • Basic Circuit elements & Waveforms
    27:10
  • 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
    31:09
  • First Order RL circuits
    26:31
  • Singularity Function
    31:52
  • RC Circuits
    32:20
  • Second Order Response
    31:06
  • Step Response of Second Order Circuits
    25:58
  • Step Response Parallel RLC Circuits
    29:10
  • 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
    30:38
  • Admittance Parameters
    31:08
  • 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
    29:22
  • 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

Measurements

Sensors and Industrial Instrumentation

Communication

Control Systems

Optical Instrumentation

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