Litcius/Paper detail

Fixed-Point Sampling Strategy for Estimation on Current Measurement Errors in IPMSM Drives

Jiadong Lu, Yihua Hu, Jinglin Liu, Jie Wang, Peng Li

2020IEEE Transactions on Power Electronics24 citationsDOI

Abstract

Due to the unbalanced three-phase currents and the torque ripples and speed fluctuations to the drive caused by the current sampling errors of three-phase current sensors and corresponding signal processing circuits, the estimation on current sampling errors is of great importance to eliminate these adverse effects. The observer-based methods, however, present two defects: first, they could increase the computational burden to the drives, thus limiting their practical applications; second, their high dependence on the system speed or position feedback information might degrade the estimation accuracy. To solve these problems, this article proposed a fixed-point sampling method of lower branch flows and three phase-currents, which adopts the relations between the measured currents, rather than any complex algorithm, to estimate the current sampling errors. To coordinate with the proposed strategy, a fixed-point sampling scheme was accordingly rolled out. Compared with the observer-based methods, as a fixed-point one, much applicable to actual digital controllers, it could reduce the computational burden of the drive. Meanwhile, its effectiveness was verified by experimental results on a 1.5-kW IPMSM prototype, which showed accurate estimated current sampling errors and the effectively eliminated torque ripples and speed fluctuations.

Topics & Concepts

Control theory (sociology)Sampling (signal processing)Observer (physics)Current (fluid)TorqueComputer sciencePoint (geometry)SIGNAL (programming language)EngineeringMathematicsControl (management)Electrical engineeringPhysicsDetectorGeometryThermodynamicsArtificial intelligenceQuantum mechanicsProgramming languageTelecommunicationsSensorless Control of Electric MotorsMachine Fault Diagnosis TechniquesElectric Motor Design and Analysis