Araştırma Makalesi
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A New Single Phase Inverter Based on Buck Converter

Yıl 2020, Cilt: 24 Sayı: 3, 480 - 486, 01.06.2020

Faruk Yalçın Uğur Arifoğlu İrfan Yazici

https://doi.org/10.16984/saufenbilder.680718
Cited By: 2

Öz

In this paper, a new single phase inverter is proposed. The proposed inverter topology is obtained through modifying the well-known DC-DC buck converter to produce sine wave alternative voltage at the output. Thus, the peak value of the alternative output voltage can be provided lower than the input direct voltage value. The inverter is designed for producing alternative voltage at the output in the frequency range of 0-50 Hz. PI feedback controller is used for the control of the inverter operation. A simulation study is done for the proposed inverter and its operation in MATLAB-Simulink in order to prove its accuracy on different operation conditions. The results demonstrate that the proposed inverter can accurately produce nearly sine wave alternative voltage in various frequencies with low THD values on different operation conditions.

Anahtar Kelimeler

single phase inverter buck converter THD harmonics

Proje Numarası

2018-09-18-001

Kaynakça

  • [1] S. G. Song, S. J. Park, Y. H. Joung, and F. S. Kang, “Multilevel inverter using cascaded 3-phase transformers with common-arm configuration,” Electric Power System Research, vol. 81, no. 8, pp. 1672–1680, 2011.
  • [2] L. K. Haw, M. S. A. Dahidah, and H. A. F. Almurib, “SHE-PWM cascaded multilevel inverter with adjustable DC voltage levels control for STATCOM applications,” IEEE Transactions on Power Electronics, vol. 29, no. 12, pp. 6433–6444, 2014.
  • [3] M. Malarvizhi and I. Gnanambal, “An integrated technique for eliminating harmonics of multilevel inverter with unequal DC sources,” International Journal of Electronics, vol. 102, no. 2, pp. 293–311, 2015.
  • [4] ‘Harmonics and IEEE 519’, http://energylogix.ca/harmonics_and_ieee.pdf, accessed 24 January 2020.
  • [5] P. C. Sen, “Power Electronics,” New Delhi: McGraw-Hill, 2008.
  • [6] N. Mohan, T. M. Undeland, and W. P. Robbins, “Power Electronics: Converters, Applications, and Design,” USA: John Wiley & Sons Inc., 2003.
  • [7] M. Narimani and G. Mochopoulos, “Selective harmonic elimination in three-phase multi-module voltage source inverters,” 27th Annual IEEE Applied Power Electronics Conference and Exposition, pp 1562–1567, 2012.
  • [8] K. Taniguchi and A. Okumura, “A PAM inverter system for vector control of induction motor,” Power Conversion Conference, pp. 478–483, 1993.
  • [9] F. Flores-Bahamonde, H. Valderrama-Blavi, J. Maria Bosque-Moncusi, G. Garcia, and L. Martinez-Salamero, “Using the sliding-mode control approach for analysis and design of the boost inverter,” IET Power Electronics, vol. 9, no. 8, pp. 1625–1634, 2016.
  • [10] M. Lee, J. W. Kim, and J. S. Lai, “Single inductor dual buck-boost inverter based on half-cycle PWM scheme with active clamping devices,” IET Power Electronics, vol. 12, no. 5, pp. 1011–1020, 2019.
  • [11] S. Mehrnami and S. K. Mazumder, “Discontinuous modulation scheme for a differential-mode Cuk inverter,” IEEE Transactions on Power Electronics, vol. 30, no. 3, pp. 1242–1254, 2015.
  • [12] L. Zhang, T. Zhang, Y. Hao, and B. Wang, “Two-stage dual-buck grid-tied inverters with efficiency enhancement,” IEEE Applied Power Electronics Conference and Exposition, pp. 3251–3256, 2019.
  • [13] B. L. H. Nguyen, H. Cha, and H. G. Kim, “Single-phase six-switch dual-output inverter using dual-buck structure,” IEEE Transactions on Power Electronics, vol. 33, no. 9, pp. 7894–7903, 2018.
  • [14] Y. Daia, Z. Guan, R. Zhang, S. Zhuang, and Y. Wang, “Research on common-mode leakage current for a novel non-isolated dual-buck photovoltaic grid-connected inverter,” IEICE Electronics Express, vol. 15, no. 12, pp. 1–10, 2018.
  • [15] F. Hong, Y. Wu, Z. Ye, B. Ji, and Y. Zhou, “A passive lossless soft-switching single inductor dual buck full-bridge inverter,” Journal of Power Electronics, vol. 18, no. 2, pp. 364–374, 2018.
  • [16] J. Singh, R. Dahiya, and L. M. Saini, “Buck converter–based cascaded asymmetrical multilevel inverter with reduced components,” International Transactions on Electrical Energy Systems, vol. 28, no. 3, e2501, pp. 1–17, 2018.
  • [17] F. Yalcin, “Single phase inverter based on buck converter,” Turkish Patent Institute, TR 2015 01818 B, filed 16.02.2015, applied 21.02.2018.

Yıl 2020, Cilt: 24 Sayı: 3, 480 - 486, 01.06.2020

Faruk Yalçın Uğur Arifoğlu İrfan Yazici

https://doi.org/10.16984/saufenbilder.680718
Cited By: 2

Öz

Destekleyen Kurum

Sakarya Uygulamalı Bilimler Üniversitesi Bilimsel Araştırma Projeler Koordinatörlüğü

Proje Numarası

2018-09-18-001

Kaynakça

  • [1] S. G. Song, S. J. Park, Y. H. Joung, and F. S. Kang, “Multilevel inverter using cascaded 3-phase transformers with common-arm configuration,” Electric Power System Research, vol. 81, no. 8, pp. 1672–1680, 2011.
  • [2] L. K. Haw, M. S. A. Dahidah, and H. A. F. Almurib, “SHE-PWM cascaded multilevel inverter with adjustable DC voltage levels control for STATCOM applications,” IEEE Transactions on Power Electronics, vol. 29, no. 12, pp. 6433–6444, 2014.
  • [3] M. Malarvizhi and I. Gnanambal, “An integrated technique for eliminating harmonics of multilevel inverter with unequal DC sources,” International Journal of Electronics, vol. 102, no. 2, pp. 293–311, 2015.
  • [4] ‘Harmonics and IEEE 519’, http://energylogix.ca/harmonics_and_ieee.pdf, accessed 24 January 2020.
  • [5] P. C. Sen, “Power Electronics,” New Delhi: McGraw-Hill, 2008.
  • [6] N. Mohan, T. M. Undeland, and W. P. Robbins, “Power Electronics: Converters, Applications, and Design,” USA: John Wiley & Sons Inc., 2003.
  • [7] M. Narimani and G. Mochopoulos, “Selective harmonic elimination in three-phase multi-module voltage source inverters,” 27th Annual IEEE Applied Power Electronics Conference and Exposition, pp 1562–1567, 2012.
  • [8] K. Taniguchi and A. Okumura, “A PAM inverter system for vector control of induction motor,” Power Conversion Conference, pp. 478–483, 1993.
  • [9] F. Flores-Bahamonde, H. Valderrama-Blavi, J. Maria Bosque-Moncusi, G. Garcia, and L. Martinez-Salamero, “Using the sliding-mode control approach for analysis and design of the boost inverter,” IET Power Electronics, vol. 9, no. 8, pp. 1625–1634, 2016.
  • [10] M. Lee, J. W. Kim, and J. S. Lai, “Single inductor dual buck-boost inverter based on half-cycle PWM scheme with active clamping devices,” IET Power Electronics, vol. 12, no. 5, pp. 1011–1020, 2019.
  • [11] S. Mehrnami and S. K. Mazumder, “Discontinuous modulation scheme for a differential-mode Cuk inverter,” IEEE Transactions on Power Electronics, vol. 30, no. 3, pp. 1242–1254, 2015.
  • [12] L. Zhang, T. Zhang, Y. Hao, and B. Wang, “Two-stage dual-buck grid-tied inverters with efficiency enhancement,” IEEE Applied Power Electronics Conference and Exposition, pp. 3251–3256, 2019.
  • [13] B. L. H. Nguyen, H. Cha, and H. G. Kim, “Single-phase six-switch dual-output inverter using dual-buck structure,” IEEE Transactions on Power Electronics, vol. 33, no. 9, pp. 7894–7903, 2018.
  • [14] Y. Daia, Z. Guan, R. Zhang, S. Zhuang, and Y. Wang, “Research on common-mode leakage current for a novel non-isolated dual-buck photovoltaic grid-connected inverter,” IEICE Electronics Express, vol. 15, no. 12, pp. 1–10, 2018.
  • [15] F. Hong, Y. Wu, Z. Ye, B. Ji, and Y. Zhou, “A passive lossless soft-switching single inductor dual buck full-bridge inverter,” Journal of Power Electronics, vol. 18, no. 2, pp. 364–374, 2018.
  • [16] J. Singh, R. Dahiya, and L. M. Saini, “Buck converter–based cascaded asymmetrical multilevel inverter with reduced components,” International Transactions on Electrical Energy Systems, vol. 28, no. 3, e2501, pp. 1–17, 2018.
  • [17] F. Yalcin, “Single phase inverter based on buck converter,” Turkish Patent Institute, TR 2015 01818 B, filed 16.02.2015, applied 21.02.2018.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Elektrik Mühendisliği
Bölüm Araştırma Makalesi
Yazarlar

Faruk Yalçın 0000-0003-2672-216X

Uğur Arifoğlu 0000-0001-8082-5448

İrfan Yazici 0000-0003-3603-7051

Proje Numarası 2018-09-18-001
Yayımlanma Tarihi 1 Haziran 2020
Gönderilme Tarihi 27 Ocak 2020
Kabul Tarihi 12 Mart 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 24 Sayı: 3

Kaynak Göster

APA Yalçın, F., Arifoğlu, U., & Yazici, İ. (2020). A New Single Phase Inverter Based on Buck Converter. Sakarya University Journal of Science, 24(3), 480-486. https://doi.org/10.16984/saufenbilder.680718
AMA Yalçın F, Arifoğlu U, Yazici İ. A New Single Phase Inverter Based on Buck Converter. SAUJS. Haziran 2020;24(3):480-486. doi:10.16984/saufenbilder.680718
Chicago Yalçın, Faruk, Uğur Arifoğlu, ve İrfan Yazici. “A New Single Phase Inverter Based on Buck Converter”. Sakarya University Journal of Science 24, sy. 3 (Haziran 2020): 480-86. https://doi.org/10.16984/saufenbilder.680718.
EndNote Yalçın F, Arifoğlu U, Yazici İ (01 Haziran 2020) A New Single Phase Inverter Based on Buck Converter. Sakarya University Journal of Science 24 3 480–486.
IEEE F. Yalçın, U. Arifoğlu, ve İ. Yazici, “A New Single Phase Inverter Based on Buck Converter”, SAUJS, c. 24, sy. 3, ss. 480–486, 2020, doi: 10.16984/saufenbilder.680718.
ISNAD Yalçın, Faruk vd. “A New Single Phase Inverter Based on Buck Converter”. Sakarya University Journal of Science 24/3 (Haziran 2020), 480-486. https://doi.org/10.16984/saufenbilder.680718.
JAMA Yalçın F, Arifoğlu U, Yazici İ. A New Single Phase Inverter Based on Buck Converter. SAUJS. 2020;24:480–486.
MLA Yalçın, Faruk vd. “A New Single Phase Inverter Based on Buck Converter”. Sakarya University Journal of Science, c. 24, sy. 3, 2020, ss. 480-6, doi:10.16984/saufenbilder.680718.
Vancouver Yalçın F, Arifoğlu U, Yazici İ. A New Single Phase Inverter Based on Buck Converter. SAUJS. 2020;24(3):480-6.

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 Kapak Resmi İndir

30930  This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.