Stephan Kleen scite author profile

Stephan Kleen

4Publications

16Citation Statements Received

69Citation Statements Given

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Saarland University

Publications

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Analysis and Application of the Direct Flux Control Sensorless Technique to Low-Power PMSMs

et al. 2020

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In the field of sensorless control of permanent magnet synchronous motors (PMSMs), different techniques based on machine anisotropies have been studied and implemented successfully. Nevertheless, most proposed approaches extract the rotor position information from the measured machine currents, that, when applied to low-power machines, might require high-bandwidth current sensors. An interesting alternative is given by sensorless techniques that exploit the star-point voltage of PMSMs, such as the direct flux control technique. This work aims at analyzing the conditions of applicability of such technique by considering a more thorough description of the machine inductance matrix. After a comprehensive mathematical description of the technique and characterization of the machine anisotropy information that is extracted from the star-point voltage, simulation as well as experimental results conducted on a test machine are presented and discussed in order to validate the proposed theory.

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Comparison of Anisotropy Signals for Sensorless Control of Star-Connected PMSMs

Schuhmacher

Kleen

Nienhaus

2019

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Modulation Strategies for Anisotropy-Based Position Estimation of PMSMs Using the Neutral Point Voltage

et al. 2021

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Information obtained about magnetic anisotropy via neutral point voltage measurements can be used to estimate the position of synchronous and induction machines at all speeds including standstill. Due to its usually high signal-to-noise ratio, this estimation method can be an attractive alternative to approaches that acquire anisotropy information via current measurements. The position estimation method looked at in this paper relies on anisotropy information in the form of position-dependent inductance ratios. These are obtained through measurement of the voltage between the machine's neutral point and an artificial neutral point during the application of different voltage vectors via a two-level switching inverter. We analyze the conditions placed on and the consequences of implementing necessary modifications to a standard space vector modulation. Five different modified modulation strategies are compared and investigated, including two newly proposed strategies which use only a minimal set of active and zero voltage vectors for measurement of the inductance ratios and therefore allow high utilization of available voltage and a high update rate of the estimated position. Experimental results for three low-power threephase permanent magnet synchronous machines are presented which suggest that modulation strategies that use active measurement vectors in all three instead of only two axes of the machine are less susceptible to systematic deviations in the position estimation that presumably result from nonlinear machine properties. As part of the machine model, a normalizing inductance variation ratio is introduced, which simplifies expressions and supports the comparison of motors.

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Motor als Sensor – Ein modellbasierter Ansatz für die Zustandsüberwachung elektromagnetischer Antriebe

Nienhaus

Grasso

Kleen

2016

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Stephan Kleen

Analysis and Application of the Direct Flux Control Sensorless Technique to Low-Power PMSMs

Comparison of Anisotropy Signals for Sensorless Control of Star-Connected PMSMs

Modulation Strategies for Anisotropy-Based Position Estimation of PMSMs Using the Neutral Point Voltage

Motor als Sensor – Ein modellbasierter Ansatz für die Zustandsüberwachung elektromagnetischer Antriebe

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