期刊论文详细信息
Energies
Development of a Resolver-to-Digital Converter Based on Second-Order Difference Generalized Predictive Control
Gabriel Gentil1  Thyago Estrabis1  Raymundo Cordero1 
[1] Graduation Program in Electrical Engineering, Federal University of Mato Grosso do Sul, Campo Grande 79070-900, MS, Brazil;
关键词: angle tracking observer;    generalized predictive control;    resolver;    resolver-to-digital converter;    tracking;   
DOI  :  10.3390/en14020459
来源: DOAJ
【 摘 要 】

High-performance motor drives that operate in harsh conditions require an accurate and robust angular position measurement to correctly estimate the speed and reduce the torque ripple produced by angular estimation error. For that reason, a resolver is used in motor drives as a position sensor due to its robustness. A resolver-to-digital converter (RDC) is an observer used to get the angular position from the resolver signals. Most RDCs are based on angle tracking observers (ATOs). On the other hand, generalized predictive control (GPC) has become a powerful tool in developing controllers and observers for industrial applications. However, no GPC-based RDC with zero steady-state error during constant speed operation has been proposed. This paper proposes an RDC based on the second-order difference GPC (SOD-GPC). In SOD-GPC, the second-order difference operator is applied to design a GPC model with two embedded integrators. Thus, the SOD-GPC is used to design a type-II ATO whose steady-state angle estimation error tends to zero during constant speed operation. Simulation and experimental results prove that the proposed RDC system has better performance than other literature approaches.

【 授权许可】

Unknown   

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