Finite Control Set Model Predictive Torque Control of Induction Motors using a Neutral Point Clamped Three-Level Inverter with Computational load Reduction

Hyo Sung Park; Byung Kwon Koh; Young Il Lee

doi:10.1016/j.ifacol.2015.12.398

Finite Control Set Model Predictive Torque Control of Induction Motors using a Neutral Point Clamped Three-Level Inverter with Computational load Reduction

Hyo Sung Park, Byung Kwon Koh, Young Il Lee

Dept. of Electrical and Information Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

In this paper, a FCS-MPC strategy for the torque control of 3 phase induction motors using a NPC type 3-level inverter is proposed. It derives a reference state for the given torque reference. Use of a performance index penalizing tracking error for the reference state. Here we propose to confine the evaluation of the performance index to 3 voltage vectors of the 3-level inverter considering the fact that the dynamics of the electrical system is far faster than that of mechanical system. Thus the computational load is not increased compared to earlier FCS-MPC methods based on 2-level inverters. An effective method to maintain the balance of dc capacitors is also proposed. The efficacy of the proposed method is proved simulations.

Original language	English
Pages (from-to)	321-326
Number of pages	6
Journal	IFAC-PapersOnLine
Volume	48
Issue number	30
DOIs	https://doi.org/10.1016/j.ifacol.2015.12.398
State	Published - 2015

Keywords

Computational load reduction
Finite Control Set MPC
Induction Motors
Three-level Inverter
Torque Control

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10.1016/j.ifacol.2015.12.398

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title = "Finite Control Set Model Predictive Torque Control of Induction Motors using a Neutral Point Clamped Three-Level Inverter with Computational load Reduction",

abstract = "In this paper, a FCS-MPC strategy for the torque control of 3 phase induction motors using a NPC type 3-level inverter is proposed. It derives a reference state for the given torque reference. Use of a performance index penalizing tracking error for the reference state. Here we propose to confine the evaluation of the performance index to 3 voltage vectors of the 3-level inverter considering the fact that the dynamics of the electrical system is far faster than that of mechanical system. Thus the computational load is not increased compared to earlier FCS-MPC methods based on 2-level inverters. An effective method to maintain the balance of dc capacitors is also proposed. The efficacy of the proposed method is proved simulations.",

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AU - Park, Hyo Sung

AU - Koh, Byung Kwon

AU - Lee, Young Il

PY - 2015

Y1 - 2015

N2 - In this paper, a FCS-MPC strategy for the torque control of 3 phase induction motors using a NPC type 3-level inverter is proposed. It derives a reference state for the given torque reference. Use of a performance index penalizing tracking error for the reference state. Here we propose to confine the evaluation of the performance index to 3 voltage vectors of the 3-level inverter considering the fact that the dynamics of the electrical system is far faster than that of mechanical system. Thus the computational load is not increased compared to earlier FCS-MPC methods based on 2-level inverters. An effective method to maintain the balance of dc capacitors is also proposed. The efficacy of the proposed method is proved simulations.

AB - In this paper, a FCS-MPC strategy for the torque control of 3 phase induction motors using a NPC type 3-level inverter is proposed. It derives a reference state for the given torque reference. Use of a performance index penalizing tracking error for the reference state. Here we propose to confine the evaluation of the performance index to 3 voltage vectors of the 3-level inverter considering the fact that the dynamics of the electrical system is far faster than that of mechanical system. Thus the computational load is not increased compared to earlier FCS-MPC methods based on 2-level inverters. An effective method to maintain the balance of dc capacitors is also proposed. The efficacy of the proposed method is proved simulations.

KW - Computational load reduction

KW - Finite Control Set MPC

KW - Induction Motors

KW - Three-level Inverter

KW - Torque Control

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Finite Control Set Model Predictive Torque Control of Induction Motors using a Neutral Point Clamped Three-Level Inverter with Computational load Reduction

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