Sliding-mode controlled induction motor drive using gain-adaptive phase-locked loop speed control

C. C. Chan; Xue Feng; Wu Jie; W. C. Lo

Sliding-mode controlled induction motor drive using gain-adaptive phase-locked loop speed control

C. C. Chan, Xue Feng, Wu Jie, W. C. Lo

Research output: Unpublished conference presentation (presented paper, abstract, poster) › Conference presentation (not published in journal/proceeding/book) › Academic research › peer-review

6 Citations (Scopus)

Abstract

This paper presents an excellent speed control system for induction motor drives. Sliding mode control is employed to provide quick torque characteristics with robustness to motor parameter variations. Excellent steady-state speed regulation and fast transient response are obtained by dual-mode control including phase-locked loop (PLL) technique and conventional closed-loop control. A loop-gain adaptation scheme is also developed using MRAS theory to suppress the torque disturbance effect on motor speed. The proposed system combines the precise speed regulation of PLL technique and the robustness of sliding mode control, with the insensitivity to disturbance by loop-gain adaptation. Simulation results verified the validity of the proposed system.

Original language	English
Pages	608-613
Number of pages	6
Publication status	Published - 1999
Externally published	Yes
Event	The 25th Annual Conference of the IEEE Industrial Electronics Society (IECON'99) - San Jose, CA, USA Duration: 29 Nov 1999 → 3 Dec 1999

Conference

Conference	The 25th Annual Conference of the IEEE Industrial Electronics Society (IECON'99)
City	San Jose, CA, USA
Period	29/11/99 → 3/12/99

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

Cite this

@conference{697471f6ec7345bd89cc4347f5316a62,

title = "Sliding-mode controlled induction motor drive using gain-adaptive phase-locked loop speed control",

abstract = "This paper presents an excellent speed control system for induction motor drives. Sliding mode control is employed to provide quick torque characteristics with robustness to motor parameter variations. Excellent steady-state speed regulation and fast transient response are obtained by dual-mode control including phase-locked loop (PLL) technique and conventional closed-loop control. A loop-gain adaptation scheme is also developed using MRAS theory to suppress the torque disturbance effect on motor speed. The proposed system combines the precise speed regulation of PLL technique and the robustness of sliding mode control, with the insensitivity to disturbance by loop-gain adaptation. Simulation results verified the validity of the proposed system.",

author = "Chan, {C. C.} and Xue Feng and Wu Jie and Lo, {W. C.}",

year = "1999",

language = "English",

pages = "608--613",

note = "The 25th Annual Conference of the IEEE Industrial Electronics Society (IECON'99) ; Conference date: 29-11-1999 Through 03-12-1999",

}

Sliding-mode controlled induction motor drive using gain-adaptive phase-locked loop speed control. / Chan, C. C.; Feng, Xue; Jie, Wu et al.
1999. 608-613 Paper presented at The 25th Annual Conference of the IEEE Industrial Electronics Society (IECON'99), San Jose, CA, USA.

Research output: Unpublished conference presentation (presented paper, abstract, poster) › Conference presentation (not published in journal/proceeding/book) › Academic research › peer-review

TY - CONF

T1 - Sliding-mode controlled induction motor drive using gain-adaptive phase-locked loop speed control

AU - Chan, C. C.

AU - Feng, Xue

AU - Jie, Wu

AU - Lo, W. C.

PY - 1999

Y1 - 1999

N2 - This paper presents an excellent speed control system for induction motor drives. Sliding mode control is employed to provide quick torque characteristics with robustness to motor parameter variations. Excellent steady-state speed regulation and fast transient response are obtained by dual-mode control including phase-locked loop (PLL) technique and conventional closed-loop control. A loop-gain adaptation scheme is also developed using MRAS theory to suppress the torque disturbance effect on motor speed. The proposed system combines the precise speed regulation of PLL technique and the robustness of sliding mode control, with the insensitivity to disturbance by loop-gain adaptation. Simulation results verified the validity of the proposed system.

AB - This paper presents an excellent speed control system for induction motor drives. Sliding mode control is employed to provide quick torque characteristics with robustness to motor parameter variations. Excellent steady-state speed regulation and fast transient response are obtained by dual-mode control including phase-locked loop (PLL) technique and conventional closed-loop control. A loop-gain adaptation scheme is also developed using MRAS theory to suppress the torque disturbance effect on motor speed. The proposed system combines the precise speed regulation of PLL technique and the robustness of sliding mode control, with the insensitivity to disturbance by loop-gain adaptation. Simulation results verified the validity of the proposed system.

UR - http://www.scopus.com/inward/record.url?scp=0033282802&partnerID=8YFLogxK

M3 - Conference presentation (not published in journal/proceeding/book)

AN - SCOPUS:0033282802

SP - 608

EP - 613

T2 - The 25th Annual Conference of the IEEE Industrial Electronics Society (IECON'99)

Y2 - 29 November 1999 through 3 December 1999

ER -

Sliding-mode controlled induction motor drive using gain-adaptive phase-locked loop speed control

Abstract

Conference

ASJC Scopus subject areas

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