Predictive Control of Three Phase AC/DC Converters

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112 BIBLIOGRAPHY [11] K. Hyosung and H. Akagi, “The instantaneous power theory on the rotating p-qr reference frames,” in Proc. of PEDS’99, vol. 1, pp. 422–427, 27–29 July 1999. [cited at p. 2] [12] M. Malinowski, “Adaptive space vector modulation for three-phase two-level pwm rectifiers/inverters,” Archives of Electrical Engineering, vol. L1, no. 3, pp. 281–295, 2002. [cited at p. 2] [13] M. Malinowski, M. Jasinski, and M. P. Kazmierkowski, “Simple direct power control of three-phase pwm rectifier using space-vector modulation (dpc-svm),” IEEE Trans. on Industrial Electronics, vol. 51, no. 2, pp. 447–454, April 2004. [cited at p. 2, 25] [14] J. Holtz, “Pulsewidth modulation for electronic power conversion,” in Proc. of the IEEE, vol. 82, no. 8, pp. 1194–1214, Aug 1994. [cited at p. 2] [15] J. Holtz and S. Stadtfeld, “A predictive controller for the stator current vector of ac machines fed from a switched voltage source,” in Proc. of IPEC, pp. 1665–1675, 1983. [cited at p. 3] [16] M. Depenbrock, “Direct self-control (dsc) of inverter-fed induction machine,” IEEE Trans. on Power Electronics, vol. 3, no. 4, pp. 420–429, Oct 1988. [cited at p. 3] [17] E. Flach, R. Hoffmann, and P. Mutschler, “Direct mean torque control of an induction motor,” in Proc. of EPE 97, vol. 3, pp. 672—-677, 8–10 Sept 1997. [cited at p. 3] [18] I. Takahashi and T. Noguchi, “A new quick response and high efficiency control strategy of an induction motor,” in Proc. of IEEE-IAS 2005, pp. 1665–1675, 1985. [cited at p. 3] [19] O. Kukrer, “Discrete-time current control of voltage-fed three-phase pwm inverters,” IEEE Trans. on Power Electronics, vol. 11, no. 2, pp. 260–269, March 1996. [cited at p. 4] [20] H. Le-Huy, K. Slimani, and P. Viarouge, “Analysis and implementation of a real-time predictive current controller for permanent-magnet synchronous servo drives,” IEEE Trans. on Industrial Electronics, vol. 41, no. 1, pp. 110–117, Feb 1994. [cited at p. 4] [21] H.-T. Moon, H.-S. Kim, and M.-J. Youn, “A discrete-time predictive current control for pmsm,” IEEE Trans. on Power Electronics, vol. 18, no. 1, pp. 464–472, Jan 2003. [cited at p. 4] [22] L. Springob and J. Holtz, “High-bandwidth current control for torque ripple compensation in pm synchronous machines,” IEEE Trans. on Industrial Electronics, vol. 45, no. 5, pp. 713–721, Oct 1998. [cited at p. 4] [23] J. Chen, A. Prodic, R. W. Erickson, and D. Maksimovic, “Predictive digital current programmed control,” IEEE Trans. on Power Electronics, vol. 18, no. 1, pp. 411– 419, Jan 2003. [cited at p. 4] [24] R. E. Betz, B. J. Cook, and S. J. Henriksen, “A digital current controller for three phase voltage source inverters,” in Proc. of IEEE-IAS 1997, vol. 1, pp. 722–729, 5–9 Oct 1997. [cited at p. 4]
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Page 1:
WARSAW UNIVERSITY OF TECHNOLOGY Fac
Page 5 and 6:
Contents Contents i 1 Introduction
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CONTENTS iii List of Symbols and Ab
Page 11 and 12:
Chapter 1 Introduction AC/DC Voltag
Page 13 and 14:
Based Trajectory Based Deadbeat Con
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5 which properties are deteriorated
Page 17 and 18:
Chapter 2 Voltage Source Converter
Page 19 and 20:
(Sa=1, Sc=0) UP2 (Sa=1, UP1 Sb=1, S
Page 21 and 22:
IL UL jωLIL UL jωLIL 2.2. MATHEMA
Page 23 and 24:
ILα 1 sL+RSα - ULα 32IDC 1 sCUDC
Page 25:
2.3. SUMMARY 15 2.3 Summary In this
Page 28 and 29:
Iqref Idref ILq ILd ILq φ uLab UDC
Page 30 and 31:
UDC Filter 20 CHAPTER 3. CONTROL ST
Page 32 and 33:
Qref dP dQ uLab UDC Sabc 22 CHAPTER
Page 34 and 35:
24 CHAPTER 3. CONTROL STRATEGIES FO
Page 36 and 37:
Qref Pref uLab UDC Sabc 26 CHAPTER
Page 38 and 39:
UDC Filter 28 CHAPTER 3. CONTROL ST
Page 40 and 41:
ILq φ ωL 30 CHAPTER 3. CONTROL ST
Page 42 and 43:
Lα 32 CHAPTER 3. CONTROL STRATEGIE
Page 44 and 45:
Page 46 and 47:
Page 48 and 49:
Page 51 and 52:
Chapter 4 Predictive Direct Power C
Page 53 and 54:
4.3. VARIABLE SWITCHING FREQUENCY P
Page 55 and 56:
UPdqUDC Qref UDCSabc uLab iLab 4.3.
Page 57 and 58:
UPdqUDC UDCSabc uLab iLab 4.4. CURR
Page 59 and 60:
UPdqUDC Qref Pref UDCSabc uLab iLab
Page 61 and 62:
4.6. CONSTANT SWITCHING FREQUENCY P
Page 63 and 64:
PP1 fq1 fq2 PP4 PP5 PP6 PP3 fp3 fp3
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Sb Sc Sa Sb Sa Sc Sb Sa 4.6. CONSTA
Page 67 and 68:
fqi fpi Qref Sabc 4.6. CONSTANT SWI
Page 69 and 70:
4.7. VF BASED CSF - PREDICTIVE DIRE
Page 71 and 72: Qref fpi Sabc iLab 4.7. VF BASED CS
Page 73 and 74: 4.8. SIMULATION RESULTS 63 200 150
Page 77 and 78: 4.8. SIMULATION RESULTS 67 Mag (% o
Page 85 and 86: 4.9. SUMMARY 75 Control Method t se
Page 87 and 88: Chapter 5 Investigations of Control
Page 89 and 90: 5.1. ROBUSTNESS TO PARAMETERS MISMA
Page 91 and 92: Sabc UDC UPαβ UPαβ Lest Lest UP
Page 93 and 94: 5.4. LINE VOLTAGE DISTURBANCES 83 (
Page 95 and 96: 5.4. LINE VOLTAGE DISTURBANCES 85 (
Page 97 and 98: 5.4. LINE VOLTAGE DISTURBANCES 87 C
Page 99 and 100: Chapter 6 Experimental Study Experi
Page 101 and 102: 6.1. STEADY STATE OPERATION 91 (a)
Page 103 and 104: 6.1. STEADY STATE OPERATION 93 Cont
Page 105 and 106: 6.2. TRANSIENT OPERATION 95 (a) ST-
Page 111 and 112: 6.3. OPERATION WITH LOW SWITCHING F
Page 117: 6.4. SUMMARY 107 Control Method t s
Page 120 and 121: 110 CHAPTER 7. SUMMARY AND FINAL CO
Page 124 and 125: 114 BIBLIOGRAPHY [38] A. Nasiri,
Page 126 and 127: 116 BIBLIOGRAPHY [66] F. Morel, J.
Page 128 and 129: 118 BIBLIOGRAPHY 13. A. Lopez de He
Page 131 and 132: Appendix A Coordinate transformatio
Page 133 and 134: q β A.2. ROTATING SYSTEM 123 A.2 R
Page 135 and 136: Appendix B Predictive Current Contr
Page 137 and 138: ∆ILαβP6 ∆ILαβP5 Figure B.2:
Page 139: Figure B.4: Vector diagram of predi
Page 142 and 143: 132 APPENDIX C. PREDICTIVE DIRECT P
Page 145 and 146: List of Symbols and Abbreviations S
Page 147 and 148: 137 Symbols Description Definition
Page 149 and 150: List of Figures 1.1 Conjunction bet
Page 151 and 152: LIST OF FIGURES 141 5.3 Line curren
Page 153: LIST OF TABLES 143 B.2 An example o
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