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22 results on '"Tan, Qiang"'

1. Comparison of P- and D-Type Variable-Gain Adaptive Disturbance Observer for Predictive Current Control of PMLSM

Author

Rui Yang, Liyi Li, Mingyi Wang, Yiming Zenggu, and Tan Qiang

Subjects
Inductance, Control theory, Computer science, Robustness (computer science), Permanent magnet linear synchronous motor, Disturbance observer, Internal model, Type variable, Thrust, Discrete form
Abstract

High-velocity/high-dynamic operation is the basic requirement of the permanent magnet linear synchronous motor (PMLSM)-driven application especially in semiconductor equipment. Predictive current control (PCC) can make sure superior current/thrust response. However, large inductance mismatch between the controller and the real plant will deteriorate the current performance significantly. This paper presents two different adaptive disturbance observer (ADO) design method to improve the inductance robustness of the PCC for the PMLSM. Firstly, the traditional constant-gain ADO based on the internal model is introduced and its drawback of large current overshoot and oscillations is presented. Secondly, to improve the current performance, two different types of ADO methods with discrete form are designed. Finally, the simulation and experimental results are given to verify the effectiveness of the newly design method.

Published
2018

2. Pulsating Magnetic Field of Permanent Magnet Linear Synchronous Motor and Its Influence on Detent Force.

Author

Tan, Qiang, Wang, Mingyi, Li, Liyi, and Li, Junchi

Subjects
*MAGNETIC fields, *SYNCHRONOUS electric motors, *PERMANENT magnets, *MAGNETISM, *FINITE element method
Abstract

For permanent magnet linear synchronous motor (PMLSM), the end effect not only changes the distribution of the end magnetic field, but also causes the pulsating magnetic field in the air gap between the primary and the secondary components. In this paper, the existence of the pulsating magnetic field is proved and the characteristics of the pulsating magnetic field are analyzed through the finite element analysis. On the base of that, the influence of the pulsating magnetic field on the detent force is studied, of which the result shows that the pulsating magnetic field generates the pulsating magnetic force, which is a part of the detent force. The amplitude of the pulsating magnetic force is closely related to the length of the primary component. By adjusting the length of the primary component, the pulsating magnetic field can be effectively suppressed. Moreover, the results of simulation and theoretical analysis prove that with the increase of primary component length, the influence of pulsating magnetic field is becoming weaker and weaker. Finally, a prototype is made to test the detent force characteristics, which verifies the research theory in this article. [ABSTRACT FROM AUTHOR]

Published
2021
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3. Research on Noninteger Pole Number for Segmental Permanent Magnet Linear Synchronous Motor.

Author

Tan, Qiang, Wang, Mingyi, Li, Liyi, and Li, Junchi

Subjects
*PERMANENT magnet motors, *SYNCHRONOUS electric motors
Abstract

A segmental permanent magnet linear synchronous motor (S-PMLSM) with noninteger pole number, which has low detent force and high thrust, is presented in this article. For the S-PMLSM, the noninteger pole structure makes up for the defect that the conventional integer pole structure cannot suppress the third and its times harmonics in the detent force, thereby further reducing the thrust ripple rate of the motor. Special winding arrangement is adopted for noninteger pole structure, of which the winding factor is relatively high. Another advantage of the noninteger pole structure is the decoupling between the detent force and the cogging force. When designing cogging parameters and structures, it is not limited by the requirement of the detent force, which enlarges the range of cogging parameters and finally helps to improve the motor thrust. In this article, 18-slot 24-pole and 18-slot 19.2-pole S-PMLSMs, representing integer and noninteger pole structures, respectively, are selected as samples for comparative analysis. The results show that the later removes almost all detent force while giving higher thrust than the former. The simulation and experimental results validate the research theory. [ABSTRACT FROM AUTHOR]

Published
2021
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6. Analysis of a New Flux Switching Permanent Magnet Linear Motor.

Author

Tan, Qiang, Wang, Mingyi, and Li, Liyi

Subjects
*PERMANENT magnet motors, *PERMANENT magnets, *FLUX (Energy), *DECIDUOUS teeth, *SYNCHRONOUS electric motors
Abstract

A novel flux switching permanent magnet linear motor (FSPMLM), which has the advantages of high thrust density [the ratio of average thrust to permanent magnet (PM) volume] and low cost for long-stroke application, is proposed and investigated in this article. The topology of the novel FSPMLM with 12 slots is introduced and the basic operating principle is analyzed first. The optimal geometric parameters are selected by using the layered orthogonal optimization method. Then the electromagnetic performance of the motor is investigated by the analytical method based on the equivalent magnetic network model (MNM). Finally, a scheme of setting auxiliary teeth in the primary component is adopted to suppress the unbalance of the three phase flux linkages. [ABSTRACT FROM AUTHOR]

Published
2021
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7. Magnetic Field Analysis and Flux Barrier Design for Modular Permanent Magnet Linear Synchronous Motor.

Author

Tan, Qiang, Huang, Xuzhen, Li, Liyi, and Wang, Mingyi

Subjects
*SYNCHRONOUS electric motors, *PERMANENT magnets, *MAGNETIC fields, *MODULAR design, *MAGNETIC field effects
Abstract

Modularization design has been widely used to reduce the detent force of permanent magnet linear synchronous motor (PMLSM). For modular PMLSM, ideally, unit motors are independent of each other and the detent force of the whole motor is the sum of that for unit motors; thus, the whole motor's detent force can be suppressed by adjusting the phase difference among the unit motors’ detent forces. But actually, there is coupling effect between adjacent unit motors, which has adverse effect on the detent force suppression. The coupling effect changes the magnetic field distribution, which is often neglected in current research. Hence, this paper carries out the research on magnetic field analysis and flux barrier design for modular PMLSM considering the coupling effect: the influence of the coupling effect on the air gap magnetic field is clarified through magnetic field analysis; the coupling force is isolated by finite element analysis, and then the effects of key parameters are discussed; the whole motor's detent force model considering the coupling effect is established, and an optimal design method of adjusting the flux barrier length is presented to suppress the detent force. Finally, a prototype is made to test the detent force characteristics with different flux barrier lengths, which verifies the research theory in this paper. The research results in this paper can provide guidance and reference for the design of modular PMLSMs. [ABSTRACT FROM AUTHOR]

Published
2020
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9. Analysis of Flux Linkage and Detent Force for a Modular Tubular Permanent Magnet Synchronous Linear Motor With Large Slots.

Author

Tan, Qiang, Huang, Xuzhen, Li, Liyi, and Wang, Mingyi

Subjects
*SYNCHRONOUS electric motors, *PERMANENT magnets, *FLUX (Energy), *ELECTRIC potential, *PERMANENT magnet motors, *MODULAR construction, *MAGNETIC suspension
Abstract

Conventionally, for a tubular permanent magnet synchronous linear motor (TPMSLM), adopting a modular structure can effectively reduce the detent force; however, the thrust density is sacrificed via the large proportion of the flux barrier to the total primary component volume. To overcome this disadvantage, this paper proposes a novel modular TPMSLM, in which the unit primary component adopts the large slot structure containing several coils. Focusing on this motor, research on the flux linkage characteristic is performed to obtain the design principle, and then the detent force is analyzed and suppressed by reasonable design of end teeth. First, the flux linkage characteristics of the unit motor and the whole motor are investigated. Variation rule of the coil flux linkage affected by the end tooth is discussed, and the principle of realizing three-phase balance for the whole motor flux linkage is elaborated. Moreover, the principle of the detent force suppression is verified and the detent force is further suppressed through the end tooth design. Finally, a prototype is developed. The back electromotive force and the detent force were tested, which verified the effectiveness of the novel modular TPMSLM proposed. [ABSTRACT FROM AUTHOR]

Published
2019
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10. Suppressing the Thrust Ripple of the Permanent Magnet Linear Synchronous Motors With Different Pole Structures by Setting the Modular Primary Structures Differently.

Author

Huang, Xuzhen, Qian, Zhenyu, Tan, Qiang, Li, Jing, and Zhou, Bo

Subjects
PERMANENT magnet motors, THRUST measurements, MAGNETIC pole
Abstract

This paper focuses on the thrust ripple of a permanent magnet linear synchronous motor (PMLSM). The PMLSMs with the North–South (NS) and consequent (C) poles are compared first. Then two magnetic regulating structures whose widths are τ and τ/3 (τ is the pole pitch) are proposed and set on the primaries, forming Modulars I and II structures, respectively. The effects that the modular structures exerting on the detent force and voltage harmonics are expounded. At last the modular primaries are selectively applied to the PMLSMs with different poles: the modular I whose magnetic regulating structure employs magnetic permeable material is applied to the C-pole PMLSM, and thus the thrust ripple caused by the voltage harmonics is suppressed remarkably. Whereas the magnetic regulating structure of the modular II which is nonmagnetic is used for the NS-pole PMLSM, helping to reduce the detent force and improve the average thrust. [ABSTRACT FROM AUTHOR]

Published
2018
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11. Sectional Combinations of the Modular Tubular Permanent Magnet Linear Motor and the Optimization Design.

Author

Huang, Xu Zhen, Li, Jing, Tan, Qiang, Qian, Zhen Yu, Zhang, Chengming, and Li, Liyi

Subjects
PERMANENT magnet motors, OPTIMAL designs (Statistics), SYNCHRONOUS electric motors, ELECTRICAL harmonics, WAVE analysis, THRUST
Abstract

To overcome the disadvantage that the detent force of the permanent magnet linear synchronous motor (PMLSM) with short primary is large, a scheme of the modular PMLSM with flux barriers is proposed in this paper. First, the detent force model is established and verified. The phase-angle characteristics of the harmonics in the detent force waveforms are analyzed. Then, the design principles of the scheme with different sectional combinations are analyzed, and two series of the combinations are demonstrated. The detent force and thrust characteristics of these combinations are subsequently compared. In addition, to improve the thrust density, the auxiliary teeth set at the ends of the sectional primary cores are proposed. Finally, the corresponding conclusions obtained by comparing the modular motors with the traditional motor are presented. [ABSTRACT FROM AUTHOR]

Published
2018
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12. Design Principles of a Phase-Shift Modular Slotless Tubular Permanent Magnet Linear Synchronous Motor With Three Sectional Primaries and Analysis of Its Detent Force.

Author

Huang, Xu Zhen, Li, Jing, Tan, Qiang, Zhang, Cheng Ming, and Li, Liyi

Subjects
MOTORS, PERMANENT magnets, FINITE element method, MAGNETIC flux, PHASE shifters, THRUST, SIMULATION methods & models
Abstract

This paper investigates a modular slotless tubular permanent magnet linear synchronous motor, which includes several sectional motors by setting flux barriers and rearranging windings. It focuses on the design method of the different combinations with small detent force. The detent force models of the sectional and whole modular motor are established analytically in terms of a Fourier expansion and verified by a prototype. Then the design principles of the sectional motors are analyzed. On the basis of the models, the schemes whose flux barriers’ widths equal to one-third of the pole pitch are selected, followed by the comparison of two kinds of different sectional combinations. Their detent-force characteristics are then described in detail. The conclusions about the different combinations are drawn. [ABSTRACT FROM AUTHOR]

Published
2018
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13. Thermal optimization of a tubular permanent magnet linear synchronous motor

Author

Li Liyi, Huang Xuzhen, Tan Qiang, and Zhou Bo

Subjects
Materials science, Computer cooling, Mechanical engineering, Control engineering, Linear motor, Heat capacity, law.invention, Quantitative Biology::Subcellular Processes, Temperature gradient, Thermal conductivity, law, Water cooling, Internal fan-cooled electric motor, Overheating (electricity)
Abstract

For motor working in high load condition, such as electromagnetic launch motor, the phenomenon of the local overheating exists easily. It makes the thermal capacity of the motor itself reduce, and the efficiency of the traditional water cooling or forced air cooling systems in the iron decline. Against the issue, this paper researched a small proportion of tubular permanent magnet linear synchronous motor (TPMLSM). The temperature calculation model was established combing the methods of thermal circuit and temperature field. The heating and cooling process and their regularity were analyzed. And the optimization of thermal conductivity was obtained by optimizing the insulation to reduce the temperature gradient inside the motor and improve the cooling rate. The temperature rises of the TPMLSM when the methods of the optimization of thermal conductivity, forced cooling and reducing the loss were used. And the effect of reducing temperature rise were comparing, which were expected to be useful for the thermal optimization and reasonable application for the motor in different working condition.

Published
2014

19. Winding Temperature Field Model Considering Void Ratio and Temperature Rise of a Permanent-Magnet Synchronous Motor With High Current Density.

Author

Huang, Xuzhen, Tan, Qiang, Li, Liyi, Li, Jing, and Qian, Zhenyu

Subjects
*PERMANENT magnet motors, *CURRENT density (Electromagnetism), *ELECTRIC windings, *ELECTRIC generators, *TEMPERATURE, *SAMPLING errors
Abstract

This paper presents an equivalent winding model of a small and medium permanent-magnet synchronous motor. The model considers fill factor and void ratio. To verify the model, two winding samples are made. One is annular and adopts ordinary enameled wires. The other is circle but adopts self-adhesion wires. Temperature rises of the winding samples supplied with different current densities are tested. The calculated and tested results were compared. The equivalent winding model is also used for the temperature calculation of a 6-pole/9-slot permanent magnet synchronous motor. The influence of fill factor and void ratio on the temperature rise of the motor is investigated, as well as two overload short time states are compared. Comparing with ignoring the effect of the void ratio, the winding temperature estimation error reduces about 5 °C. Finally, winding temperature rises of a prototype are tested. The results can provide some references for choosing a reasonable current density and improving the accuracy of motor temperature estimation. [ABSTRACT FROM PUBLISHER]

Published
2017
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