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Dynamic Performance Improvement for Permanent Magnet Generator System Using Current Compensating Method With Two-Degrees-of-Freedom Control

Jian Huang, Zhuoran Zhang, Jianbin Han, Wenying Jiang

2020IEEE Transactions on Industrial Electronics19 citationsDOI

Abstract

This article proposes a two-degrees-of-freedom (TDOF) control with torque current compensating method (TCCM) to enhance the dynamic performance of permanent magnet generator (PMG) system when load changes. First, the mathematic model of PMG system with active front-end rectifier is introduced. Based on the system model, the proportional-integral controller of current loop is designed, and the TDOF controller designed with internal model control principle is derived for voltage loop control. There are two sets of parameters in the TDOF controller, one is used to regulate the system tracking performance when the command dc-link voltage changes, and the other is used to regulate the system antidisturbance capability when the electrical load changes. Second, the TCCM is proposed to further improve the system dynamic performance. The variation of torque current is applied to revise the command dc-link voltage, namely, the command dc-link voltage increases under loading occasion and decreases when unload occurs. The TCCM needs no additional hardware and is simple to implement. Simulation and experimental results verify the effectiveness of the proposed method.

Topics & Concepts

Control theory (sociology)Rectifier (neural networks)Controller (irrigation)Generator (circuit theory)TorqueDegrees of freedom (physics and chemistry)VoltagePermanent magnet synchronous generatorMagnetCurrent loopControl systemVoltage controllerEngineeringShunt generatorControl engineeringComputer scienceVoltage regulatorControl (management)Power (physics)Electrical engineeringPhysicsArtificial intelligenceVoltage droopBiologyAgronomyThermodynamicsQuantum mechanicsMachine learningRecurrent neural networkArtificial neural networkStochastic neural networkElectric Motor Design and AnalysisSensorless Control of Electric MotorsMagnetic Bearings and Levitation Dynamics
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