Modeling by physical analogies & analysis

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    In brief

  • Code : N6EE03A

Objectives

Know how to model mutidomain physical systems with electrical equivalent circuits;

Have a knowledge of time domain analysis of linear systems and stability analysis with the root locus method.

Description

Modeling:

- Introduction to multidomain physical system representation with equivalent electrical circuits: generalized power variables (flow and effort) and generalized energy variables (momentum and displacement)

- Fundamental elements of physical systems: power sources, dissipative elements, capacitive and inertia storage elements, transformer and gyrators

- Physical causality vs mathematical causality

- Typical examples: academic example, liquid level control, motor position control

Analysis:

- Linearization of nonlinear systems

- Time domain analysis of linear systems (influence of poles and zeros)

- Stability analysis with the root locus method

Pre-requisites

Electrical circuits, Laplace Transform

Session 1 ou session unique - Contrôle des connaissances

ModalitéNatureCoefficientRemarques
CT (contrôle terminal) Oral/Ecrit80%Modélisat°-Analo. Phys.-Examen
CC (contrôle continu) Travaux Pratiques20%Modélisat°-Analo. Phys.-TP

Session 2 - Contrôle des connaissances

ModalitéNatureCoefficientRemarques
CT (contrôle terminal) Oral/Ecrit80%Modélisat°-Analo. Phys.-Examen
CC (contrôle continu) Travaux Pratiques20%Modélisat°-Analo. Phys.-TP

Contact(s)

SARENI BRUNO

Contact

The National Institute of Electrical engineering, Electronics, Computer science,Fluid mechanics & Telecommunications and Networks

2, rue Charles Camichel - BP 7122
31071 Toulouse Cedex 7, France

+33 (0)5 34 32 20 00

Certifications

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