ÇUKUROVA UNIVERSITY INSTITUTE OF NATURAL AND APPLIED ...
ÇUKUROVA UNIVERSITY INSTITUTE OF NATURAL AND APPLIED ... ÇUKUROVA UNIVERSITY INSTITUTE OF NATURAL AND APPLIED ...
Figure 5.3. Injected voltages by using three sag detection methods .......................... 87 Figure 5.4. Source side voltages by using EPLL, SRF and SogiPLL methods ......... 88 Figure 5.5. Simulation results for Case 1 ................................................................... 89 Figure 5.6. DC link voltage for Case 1 ..................................................................... 90 Figure 5.7. RMS Characterisics for Case 1 ................................................................ 91 Figure 5.8. Simulation results for Case 2 ................................................................... 92 Figure 5.9. DC link voltage for Case 2 ...................................................................... 93 Figure 5.10. RMS characteristics for Case 2.............................................................. 94 Figure 5.11. Simulation results for Case 3 ................................................................. 95 Figure 5.12. DC link voltage for Case 3 .................................................................... 96 Figure 5.13. RMS characteristics for Case 3............................................................. 97 Figure 5.14. Simulation results for Case 4 ................................................................. 98 Figure 5.15. DC link voltage for Case 4 .................................................................... 99 Figure 5.16. RMS characterisics for Case 4 ............................................................. 100 Figure 5.17. Simulation results for Case 5 ............................................................... 101 Figure 5.18. DC link voltage for Case 5 .................................................................. 102 Figure 5.19. RMS characteristics for Case 5............................................................ 103 Figure 5.20. Simulation results for Case 6 ............................................................... 104 Figure 5.21. DC link voltage for Case 6 .................................................................. 105 Figure 5.22. RMS characteristics for Case 6............................................................ 106 XII
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- Page 1 and 2: ÇUKUROVA UNIVERSITY INSTITUTE OF N
- Page 3 and 4: ABSTRACT MSc THESIS MODELING AND AN
- Page 5 and 6: ACKNOWLEDGEMENTS First and foremost
- Page 7 and 8: 3.2.2.1. Inverters ................
- Page 9 and 10: VII
- Page 12 and 13: LIST OF FIGURES PAGES Figure 1.1. D
- Page 16 and 17: LIST OF SYMBOLS C : DC Link Capacit
- Page 18 and 19: LIST OF ABBREVATIONS A AC APF ASD C
- Page 20: 1. INTRODUCTION Mustafa İNCİ 1. I
- Page 23 and 24: 1. INTRODUCTION Mustafa İNCİ 4
- Page 25 and 26: 2. POWER QUALITY Mustafa İNCİ 2.1
- Page 27 and 28: 2. POWER QUALITY Mustafa İNCİ 2.2
- Page 29 and 30: 2. POWER QUALITY Mustafa İNCİ 2.2
- Page 31 and 32: 2. POWER QUALITY Mustafa İNCİ •
- Page 34 and 35: 3. FUNDAMENTALS OF DVR Mustafa İNC
- Page 36 and 37: 3. FUNDAMENTALS OF DVR Mustafa İNC
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Figure 5.3. Injected voltages by using three sag detection methods .......................... 87<br />
Figure 5.4. Source side voltages by using EPLL, SRF and SogiPLL methods ......... 88<br />
Figure 5.5. Simulation results for Case 1 ................................................................... 89<br />
Figure 5.6. DC link voltage for Case 1 ..................................................................... 90<br />
Figure 5.7. RMS Characterisics for Case 1 ................................................................ 91<br />
Figure 5.8. Simulation results for Case 2 ................................................................... 92<br />
Figure 5.9. DC link voltage for Case 2 ...................................................................... 93<br />
Figure 5.10. RMS characteristics for Case 2.............................................................. 94<br />
Figure 5.11. Simulation results for Case 3 ................................................................. 95<br />
Figure 5.12. DC link voltage for Case 3 .................................................................... 96<br />
Figure 5.13. RMS characteristics for Case 3............................................................. 97<br />
Figure 5.14. Simulation results for Case 4 ................................................................. 98<br />
Figure 5.15. DC link voltage for Case 4 .................................................................... 99<br />
Figure 5.16. RMS characterisics for Case 4 ............................................................. 100<br />
Figure 5.17. Simulation results for Case 5 ............................................................... 101<br />
Figure 5.18. DC link voltage for Case 5 .................................................................. 102<br />
Figure 5.19. RMS characteristics for Case 5............................................................ 103<br />
Figure 5.20. Simulation results for Case 6 ............................................................... 104<br />
Figure 5.21. DC link voltage for Case 6 .................................................................. 105<br />
Figure 5.22. RMS characteristics for Case 6............................................................ 106<br />
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