Abstract
In this paper, multiple three-level electrical excited synchronous motor system based on IGCT is researched. Based on cross-coupling idea and interval matrix, a coordination control is designed. The proposed control strategy can handle with load uncertainty and has robustness to the environment’s disturbance and the parameter’s perturbation. In order to verify the effectiveness of the proposed control strategy, a three-level physical experiments which used for metal-rolling application are carried out. The simulation and experimental results demonstrate that the proposed control strategy has good dynamical and static performance and good robustness and has better coordination performance than traditional PI controller.
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References
He W, Qian F, Han Q-L, Cao J (2012) Synchronization error estimation and controller design for delayed Lur’e systems with parameter mismatches. IEEE Trans Neural Netw Learn Syst 23(10):1551–1562
Chuang H-Y, Liu C-H (1992) A model-referenced adaptive control strategy for improving contour accuracy of multiaxis machine tools. IEEE Trans Ind Appl 28(1):221–227
Li Y, Zheng Q, Yang L (2012) Design of robust sliding mode control with disturbance observer for multi-axis coordinated traveling system. Comput Math Appl 64(5):759–765
Zhao DZ, Li CW, Ren J (2010) Speed synchronization of multiple induction motors with adjacent cross-coupling control. IET Control Theory Appl 4(1):119–128
Chunhong Wang, JInchun Hu, Yu Zhu, Wensheng Yin (2009) Optimal synchronous trajectory tracking control of water and reticle stages. Tsinghua Sci Technol 14(2):287–292
Chin J-H, Cheng Y-M, Lin J-H (2004) Improving contour accuracy by Fuzzy-logic enhanced cross-coupled precompensation method. Robot Comput Integr Manuf 20(1):65–76
Anderson RG, Meyer AJ, Valenzuela MA, Lorenz RD (2001) Web machine coordinated motion control via electronic line-shafting. IEEE Trans Ind Appl 37(1):247–254
Chen Chin-Sheng, Chen Li-Yeh (2012) Robust cross-coupling synchronous control by shaping position commands in multiaxes system. IEEE Trans Ind Electron 59(12):4761–4773
Lin F-J, Hsieh H-J, Chou P-H, Lin Y-S (2011) Digital signal processor-based cross-coupled synchronous control of dual linear motors via functional link radial basis function network. IET Control Theory Appl 5(4):552–564
Sun D, Shao X, Feng G (2007) A model-free cross-coupled control for position synchronization of multi-axis motions: theory and experiments. IEEE Trans Control Syst Technol 15(2)
Hagstedt D, Marquez F, Alakula M (2008) A comparison between PMSM, EMSM and SMSM in a BAS application. In: Proceedings of the international conference on electrical machines, pp 1–5
Lu J-G, Chen Y-Q (2010) Robust stability and stabilization of fractional-order interval systems with the fractional order α: the 0 < α < 1 case. IEEE Trans Autom Control 55(1)
Mao W-J, Chu J (2003) Quadratic stability and stabilization of dynamic interval systems. IEEE Trans Autom Control 48(6):1007–1012
Lin F-J, Chou P-H, Chen C-S, Lin Y-S (2012) DSP-based cross-coupled synchronous control for dual linear motors via intelligent complementary sliding mode control. IEEE Trans Ind Electron 59(1):1061–1073
Xiao Y, Zhu K, Liaw HC (2003) Generalized synchronization control of multi-axis motion systems. Control Eng Pract 13(7):809–819
Khargonekar P, Petersen I, Zhou K (1990) Robust stabilization of uncertain linear systems: quadratic stabilizability and H∞ control theory. IEEE Trans Autom Control 35(3):256–361
Chen B (2003) Electric drive automatic control system: motion control system. In: Yuan Y, Chen W, Ni G, Chen M (eds), 3rd edn. China Machine Press, Beijing, pp 242–255
Carpius SC, Lazar C, Patrascu DI (2012) Optimal torque control of the externally excited synchronous machine. Control Eng Appl Inform 14(2):80–88
Celanoic N, Boroyevich D (2001) A fast space-vector modulation algorithm for multilevel three-phase converters. IEEE Trans Ind Appl 37(2):637–641
Beig AR, Narayanan G, Ranganathan VT (2007) Modified SVPWM algorithm for three level VSI with synchronized and symmetrical waveforms. IEEE Trans Ind Electron 54(1):486–494
Das S, Narayanan G (2012) Novel switching sequences for a space-vector-modulated three-level inverter. IEEE Trans Ind Electron 59(3):1477–1487
Acknowledgment
This work was supported in part by the National Science and Technology Pillar Program (2012BAF090B2).
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Shang, J., Nian, X., Nan, Y., Gan, W., Deng, Z. (2016). Robust Coordination Control of Multiple Three-Level Electrical Excited Synchronous Motor System. In: Jia, L., Liu, Z., Qin, Y., Ding, R., Diao, L. (eds) Proceedings of the 2015 International Conference on Electrical and Information Technologies for Rail Transportation. Lecture Notes in Electrical Engineering, vol 377. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-49367-0_56
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DOI: https://doi.org/10.1007/978-3-662-49367-0_56
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