Generate Parameters for Flux-Based Blocks

This example uses:

This table provides a description of the process to generate the parameters and links to examples.

For Block	To Generate	Description	Example
Flux-Based PM Controller	电流控制roller parameters: Corresponding d-axis current reference, id_ref Corresponding q-axis current reference, iq_ref Vector of speed breakpoints, wbp Vector of torque breakpoints, tbp	Use the Model-Based Calibration Toolbox™ to generate optimized current controller tables for flux-based motor controllers. Based on nonlinear motor flux data, the calibration tables optimize: Motor efficiency Maximum torque per ampere (MTPA) Flux weakening	Generate Current Controller Parameters
Motor parameters: Vector of d-axis current breakpoints, id_index Vector of q-axis current breakpoints, iq_index Corresponding d-axis flux, lambda_d Corresponding q-axis flux, lambda_q	Use MATLAB^®scripts available with Powertrain Blockset™ to load flux motor data, visualize the flux surface, and create plots of flux as a function of current.	Generate Feed-Forward Flux Parameters
Flux-Based PMSM	Parameters: Vector of d-axis flux, flux_d Vector of q-axis flux, flux_q Corresponding d-axis current, id Corresponding q-axis current, iq	Use MATLAB scripts available with Powertrain Blockset to load flux motor data, invert the flux, and create plots of current as a function of flux.	Generate Parameters for Flux-Based PMSM Block

For Block

To Generate

Description

Example

Flux-Based PM Controller

电流控制roller parameters:

Corresponding d-axis current reference, id_ref
Corresponding q-axis current reference, iq_ref
Vector of speed breakpoints, wbp
Vector of torque breakpoints, tbp

Use the Model-Based Calibration Toolbox™ to generate optimized current controller tables for flux-based motor controllers.

Based on nonlinear motor flux data, the calibration tables optimize:

Motor efficiency
Maximum torque per ampere (MTPA)
Flux weakening

Generate Current Controller Parameters

Motor parameters:

Vector of d-axis current breakpoints, id_index
Vector of q-axis current breakpoints, iq_index
Corresponding d-axis flux, lambda_d
Corresponding q-axis flux, lambda_q

Use MATLAB^®scripts available with Powertrain Blockset™ to load flux motor data, visualize the flux surface, and create plots of flux as a function of current.

Generate Feed-Forward Flux Parameters

Flux-Based PMSM

Parameters:

Vector of d-axis flux, flux_d
Vector of q-axis flux, flux_q
Corresponding d-axis current, id
Corresponding q-axis current, iq

Use MATLAB scripts available with Powertrain Blockset to load flux motor data, invert the flux, and create plots of current as a function of flux.

Generate Parameters for Flux-Based PMSM Block

To open a model with optimized parameters for theFlux-Based PM ControllerandFlux-Based PMSMblocks, on the command-line, typeFlux_Based_PMSM_TestBench.

References

[1] Hu, Dakai, Yazan Alsmadi, and Longya Xu. “High fidelity nonlinear IPM modeling based on measured stator winding flux linkage.”IEEE^®Transactions on Industry Applications, Vol. 51, No. 4, July/August 2015.

[2] Chen, Xiao, Jiabin Wang, Bhaskar Sen, Panagiotis Lasari, Tianfu Sun. “A High-Fidelity and Computationally Efficient Model for Interior Permanent-Magnet Machines Considering the Magnetic Saturation, Spatial Harmonics, and Iron Loss Effect.”IEEE Transactions on Industrial Electronics, Vol. 62, No. 7, July 2015.

[3] Ottosson, J., M. Alakula. “A compact field weakening controller implementation.”International Symposium on Power Electronics, Electrical Drives, Automation and Motion, July, 2006.

Generate Parameters for Flux-Based Blocks

References

See Also

Powertrain Blockset Documentation

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