Jeong-Hum Lee scite author profile

Jeong-Hum Lee

4Publications

15Citation Statements Received

23Citation Statements Given

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Affiliations

Pohang Iron and Steel (South Korea), Yeungnam University, Korea University

Publications

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Standstill Parameter Identification of Vector-Controlled Induction Motor Using Frequency Characteristics of Rotor Bars

Kwon

Lee

Moon³

et al. 2008

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This paper suggests a current injection-based estimator to accurately identify standstill induction motor (IM) parameters necessary for the vector control. A mathematical model that faithfully represents the general deep bar effect is introduced. Then, two exciting signals with a different frequency are sequentially injected to track the parameters based on the frequency function of the rotor bar. Little knowledge of the unknown motor allows the proposed methodology to employ a closed-loop control of an injected current, rather than open-loop voltage injection approaches commonly used in sensorless control schemes. Subsequently, this control scheme proactively prevents electrical accidents resulting from an inadequate open-loop voltage injection. We develop a specialized offline commissioning test to compensate the phase delay resulting from the drive, which significantly affects the estimation precision. The effectiveness of the identification technique is validated by means of experiments performed on the three different IMs. The developed algorithm is scheduled to be fully applied to the IM drive system in rolling mill plants of Pohang Steel Company (POSCO) by 2009. Keywords -Closed-loop control of an injected current, currentinjection-based estimator, frequency function of the rotor bar, standstill induction motor (IM) parameters, vector control.

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Standstill Parameter Identification of Vector-Controlled Induction Motors Using the Frequency Characteristics of Rotor Bars

Kwon

Lee

Moon

et al. 2009

IEEE Trans. on Ind. Applicat.

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We propose a current injection-based estimator to identify accurately standstill induction motor (IM) parameters necessary for vector control. A mathematical model that faithfully represents the general deep bar effect is introduced. Then, two exciting signals with a different frequency are sequentially injected to track the parameters based on the frequency function of the rotor bar. The proposed methodology employs closed-loop control of an injected current due to little knowledge of the unknown motor, rather than the open-loop voltage injection approaches commonly used in sensorless control schemes. Subsequently, this control scheme proactively prevents electrical accidents resulting from inadequate open-loop voltage injection. Our developed specialized offline commissioning test compensates for the phase delay resulting from the drive, which significantly affects estimation precision. The effectiveness of the identification technique is validated by means of experiments performed on three different IMs. Index Terms-Closed-loop control of an injected current, frequency function of the rotor bar, standstill induction motor (IM) parameter identification, vector control.

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Sensorless speed control and initial rotor position estimation of an IPMSM

Joung

Lee

Moon

et al. 2007

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Magnetic Switch Auto Control Method of the High-Voltage Pulse Power Supply

Kim¹,

Lee²,

Kim³

et al. 2011

The Transactions of the Korean Institute of Power Electronics

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Jeong-Hum Lee

Standstill Parameter Identification of Vector-Controlled Induction Motor Using Frequency Characteristics of Rotor Bars

Standstill Parameter Identification of Vector-Controlled Induction Motors Using the Frequency Characteristics of Rotor Bars

Sensorless speed control and initial rotor position estimation of an IPMSM

Magnetic Switch Auto Control Method of the High-Voltage Pulse Power Supply

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