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Introduction to Simulation and Hardware
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Various Simulation Software's for Electrical Engineering
Tutors
The Diploma
PROGRAM OVERVIEW
Description
Simulink, developed by Math Works, is a graphical programming environment for modeling, simulating and analyzing multi-domain dynamical systems. Simulink is a visual tool for doing computational simulations. It uses a drag and drop system for simulation components that can then be connected between them with lines. Its primary interface is a graphical block diagramming tool and a customizable set of block libraries.
It offers tight integration with the rest of the MATLAB environment and can either drive MATLAB or be scripted from it. Simulink is widely used in automatic control and digital signal processing for multi-domain simulation and Model-Based Design.
It supports linear and nonlinear systems, modeled in continuous-time, sampled time, or a hybrid of the two. The user is able to produce an “up-and-running” model that would otherwise require hours to build in the laboratory environment. There is no separate solver for Simulink. Simulink uses Mat lab solver only.
We can be done Simulink Mathematical Modeling in 3-ways
· Differential Equation Modeling
· Transfer Function Modeling
· State Space Analysis Modeling
What will you learn?
Simulink is a commercial tool for modeling, simulating and analyzing dynamic systems. Its primary interface is a graphical block diagramming tool and a customizable set of block libraries. It offers tight integration with the rest of the MATLAB environment and can either drive MATLAB or be scripted from it. Simulink is widely used in control theory and digital signal processing for simulation and design. This training will give you the basic knowledge of Simulink and how you can use it together with MATLAB.
· Introduction
· Start using Simulink
· Block Libraries
· Create a new Model
· Wiring techniques
· Help window
· Configuration
· Useful Features
· Comments/Labels
· Align and Distribute Blocks
· Flip Blocks
· Hide Names
· The Commonly Used Blocks Library
· The Continuous Blocks Library
· The Math Operations Library
· The Sinks Library
· The Sources Library
Prerequisites
The Prerequisites of learning Simulink Mathematical Modeling is having basic knowledge of MATLAB and C language is enough.
CURRICULUM
Introduction to Simulation and Hardware
Introduction to Matlab and Simulink
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Introduction to Matlab
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Introduction to Simulink
Features & Applications of Matlab
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Features & Applications of Matlab
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Matlab Vs Simulink
Various Research Areas In Electrical Engineering
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Research Areas in Power system
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Research Areas in Power Electronics
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Research areas in Electrical Machines
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Research areas in PE Application to PS
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Research areas in PE Application to Machines
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Matlab/Simulink Toolbox Selection for Various Research areas in Electrical Engineering
Introduction to Simulink Mathematical Model
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Introduction to Simulink Mathematical Model
Commonly used Blocks
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Commonly used Blocks - Lecture-01
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Commonly used Blocks - Lecture-02
Continuous Blocks
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Continuous Blocks
LookUp Tables
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LookUp Tables
Math Operations & Signal Routing
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Math Operations & Signal Routing
Sinks & Sources
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Sinks & Sources
Circuit Theory Module-01_Thevinin's,Norton's and Superposition Theorem.
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Thevenin's Theorem Example - 01
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Thevenin's Theorem Example - 02
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Example-03_Norton's Theorem
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Example-04_Norton's Theorem
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Example-05_Superposition Theorem
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Example-06_Superposition Theorem
Circuit Theory Module-02_Nodal Analysis
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Example-07_Nodal Analysis
Circuit Theory Module-03_DC Transient
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Example-08_Differential Equation Model of RL Transient
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Example-09_Transfer function model of RL Transient
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Example-10_Differential Equation Model of RC Transient
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Example-11_Transfer Function Model of RC Transient
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Example-12_Differential Equation Model of RLC Transient
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Example-13_Transfer Function Model of RLC Transient
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Example-14_State space Model of RLC Transient
DC Motor Modeling
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Differential Equation Model of DC Motor
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Transfer Function Model of DC Motor