Yuri Yonaha scite author profile

To realize the maximum efficiency control and/or flux-weakening control for interior permanent magnet synchronous motors, exact motor parameters are typically required. It is well known that motor parameters vary with driving conditions such as temperature and magnetic saturation. In this article, the effect of parameter variations on the performance of maximum efficiency control and fluxweakening control are quantitatively investigated. Then, an on-line parameter identification method is proposed to prevent parameter variation from degrading the control performance. This method simultaneously identifies motor parameters involved in the control strategies by using both the recursive least-squares method and constant gain adaptive identification method. The effectiveness of the maximum efficiency control and flux-weakening control incorporated with on-line parameter identification strategy is confirmed by computer simulations.

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Stable operation for distributed generators on distribution system using UPFC

Senjyu

Yonaha

Yona

2009

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Steady-state and transient dynamic response of grid-connected WECS with asynchronous DOIG by predictive control under turbulent inflow

Muhando

Senjyu

Omine

et al. 2008

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Yuri Yonaha

A distributed DC power system in an isolated island

Frequency control strategy for parallel operated battery systems based on droop characteristics by applying H<inf>∞</inf> control theory

Wide-speed Range Operation of Interior Permanent Magnet Synchronous Motor with Parameter Identification

Stable operation for distributed generators on distribution system using UPFC

Steady-state and transient dynamic response of grid-connected WECS with asynchronous DOIG by predictive control under turbulent inflow

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Yuri Yonaha

A distributed DC power system in an isolated island

Frequency control strategy for parallel operated battery systems based on droop characteristics by applying H<inf>&#x221E;</inf> control theory

Wide-speed Range Operation of Interior Permanent Magnet Synchronous Motor with Parameter Identification

Stable operation for distributed generators on distribution system using UPFC

Steady-state and transient dynamic response of grid-connected WECS with asynchronous DOIG by predictive control under turbulent inflow

Contact Info

Product

Resources

About

Frequency control strategy for parallel operated battery systems based on droop characteristics by applying H<inf>∞</inf> control theory