矢量控制(感应电机)

Conference Record of 1992 Forty-Fourth Annual Conference of Electrical Engineering Problems in the Rubber and Plastics Industries Pub Date : 1992-04-13 DOI:10.1109/RAPCON.1992.167500

T. Doll, A. Kaiser

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引用次数: 1

摘要

简要概述了感应电动机的磁链矢量控制。所讨论的磁通矢量法使用间接磁场定向技术来确定电机中气隙磁通的大小和方向，以便可以调整定子电流，从而提供所需的转矩。这种方法有效地提供了对总定子电流产生磁场和产生转矩的组件的单独控制，以使直流电机具有直流电机性能。人们认为，在危险环境中需要高性能速度，定位或扭矩调节的任何应用都将受益于感应电机使用的较低成本。连续产生100%额定扭矩和150%间歇保持力的能力，为许多应用提供了使用该技术的更多理由

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Vector controls (induction motors)

A brief general overview of flux vector control of induction motors is provided. The flux vector method discussed uses indirect field orientation techniques to determine the magnitude and direction of the air-gap magnetic flux in the motor in order that the stator current can be adjusted, thus providing the required torque. This method effectively provides separate control over the field-producing and torque-producing components of total stator current to give DC machine performance capabilities to the induction motor. It is felt that any application requiring high performance speed, positioning or torque regulation in a hazardous environment will benefit from the lower cost of induction motor use. Continuous ability to produce 100% rated torque and 150% holding for intermittent periods should provide many applications with increased reasons to utilize this technology.<>

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Conference Record of 1992 Forty-Fourth Annual Conference of Electrical Engineering Problems in the Rubber and Plastics Industries

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