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VTB Interface to FEMLAB

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Subdomain mode. Specify application dependent and material ... Can specify values for each subdomain independently. 14. FEMLAB Modeling. Mesh Generation ... – PowerPoint PPT presentation

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Title: VTB Interface to FEMLAB


1
VTB Interface toFEMLAB
VTB Conference 2004 Sep. 15, 2004
  • Sharmin Basher, Antonello Monti
  • Dept. of Electrical Engineering
  • University of South Carolina
  • Columbia, SC 29208

2
Purpose of Study
  • To provide a methodology to embed finite element
    analysis (FEA) in a circuit simulation
  • The proposed method is implemented with reference
    to the design of a CEET transformer

3
Purpose of Study
  • FEMLAB-MATLAB-VTB interface provides user freedom
    to modify system component parameters and
    immediately investigate system response in VTB.

4
Design Overview
5
Significance on CEET Transformer Model
  • Technique used to transfer electrical energy
    without electrical connection or physical contact
    via inductive coupling
  • Underwater applications
  • Electric vehicle battery recharging
  • Transcutaneous energy transmission systems

6
CEET System
  • Executed using magnetic induction in transformers
    where energy from primary to secondary winding is
    transferred through the air

7
CEET System
  • Consists of relatively large separation between
    primary and secondary windings
  • Yields large leakage inductance
  • Low coupling coefficient

8
FEA of CEET Transformer
  • The Galerkin method for nodal finite elements is
    implemented in FEMLAB for transformation of
    differential equations to equivalent systems of
    algebraic equations
  • Equation-based modeling or geometry-based
    modeling
  • User provides parameters for underlying equations
    and FEMLAB creates mesh, solves system, and
    offers postprocessing

9
FEMLAB Modeling
  • Model Navigator

10
FEMLAB Modeling
  • Draw mode
  • Dimensions in centimeters

11
FEMLAB Modeling
  • Boundary mode
  • Define boundary conditions
  • Boundary conditions are automatically set by
    FEMLAB to define a null value of the vector
    potential along the boundary

12
FEMLAB Modeling
  • Subdomain mode
  • Specify application dependent and material
    properties

13
FEMLAB Modeling
  • Can specify values for each subdomain
    independently

14
FEMLAB Modeling
  • Mesh Generation

15
FEMLAB Modeling
  • Solving, postprocessing
  • Magnetic flux density within transformer

16
FEMLAB-MATLAB Interface
  • Utilizing MATLAB for advanced postprocesing
  • Allows for dynamic analysis of system response
  • Overview

17
FEMLAB-MATLAB Interface
  • Save FEMLAB model as m-file
  • Commands can be run directly from MATLAB command
    line and modified
  • If vary current, see corresponding change in
    magnetic flux density of transformer

18
FEMLAB-MATLAB Interface
19
FEMLAB-MATLAB Interface
  • From flux density values, can calculate nonlinear
    inductances
  • When i1 and i2 are relatively large, relationship
    between fluxes and are nonlinear.

20
FEMLAB-MATLAB Interface
  • According to Faradays law

21
FEMLAB-MATLAB Interface
  • The following equation can be determined
  • L11, L22, and M are nonlinear inductance values
    used to determine leakage inductance

22
FEMLAB-MATLAB Interface
  • Leakage inductances L1 and L2 can be determined
    from L11, L22, and M
  • L1 and L2 are input to VTB model

23
VTB CEET Model
  • Leakage inductance values calculated in MATLAB
    are used in development of VTB Model
  • Overview

24
VTB CEET Transformer Representation
  • CCCS and VCVS represent ideal transformer
  • L1 and L2 are leakage inductances
  • R1 and R2 are winding resistances

25
Simulation Results
  • New transformer model can be tested in VTB
    environment

26
Simulation Results
27
Conclusions
  • Through interfacing of FEMLAB, MATLAB, and VTB we
    can obtain a dynamic model of a single phase
    transformer
  • As current is varied in MATLAB environment, flux
    density is calculated in FEMLAB. These changes in
    flux density are used to calculate values of
    nonlinear inductances. VTB model uses nonlinear
    inductances as input and we can see the circuit
    simulation dynamically.
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