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An Accurate VSI Nonlinearity Modeling and Compensation Method Accounting for DC-Link Voltage Variation Based on LUT

Chaoyi Shang, Ming Yang, Long Jiang, Dianguo Xu, Jun Zhang, Jie Zhang

2021IEEE Transactions on Industrial Electronics48 citationsDOI

Abstract

The nonlinearity of the voltage source inverter (VSI) leads to the error between output voltage and reference voltage, and causes the phase current harmonics. It is necessary to compensate its influence in the fields such as parameter identification, sensorless control, and servo drives. In this article, an industrial solution for VSI nonlinear compensation method based on lookup table (LUT) is introduced. The characteristics of semiconductor devices, equivalent dead-time and influence of parasitic capacitance effects are calculated quantitatively though injecting increase and decrease current during self-commissioning process. The critical current value for parasitic capacitor and the variation of equivalent dead time are verified through different distorted voltage curves. Considering dc-link voltage variation is irresistible for industrial products, 3-D linear interpolation is adopted to compensate the variation of VSI nonlinearity under different voltage conditions. Proposed LUT method does not require VSI datasheet and complicated calculation formula during implementation. Experiments are carried out on a commercial permanent magnet synchronous motor drive system to verify the proposed LUT method.

Topics & Concepts

Lookup tableControl theory (sociology)DatasheetHarmonicsVoltageCapacitanceVoltage reductionComputer scienceCapacitorNonlinear systemPulse-width modulationCompensation (psychology)Electronic engineeringEngineeringElectrical engineeringPhysicsPsychologyQuantum mechanicsProgramming languageArtificial intelligencePsychoanalysisControl (management)ElectrodeMultilevel Inverters and ConvertersSensorless Control of Electric MotorsElectric Motor Design and Analysis