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Boost DC-DC Converter Based Z-source Inverter with High Frequency Link

Year 2014, Volume: 27 Issue: 1, 693 - 699, 28.03.2014

Abstract

This paper proposes a new topology of DC-DC converters with high gain of boost. The suggested circuit consists of Z-source inverter, high frequency transformer and diode rectifier. In this topology the output voltage amplitude is not limited to DC voltage source and transformer turn ratio similar to traditional high frequency DC-DC converters and can be regulated with Z network shoot-through state control. Besides, it is more reliable
against short circuit. By using high frequency modulation, the size of transformer is reduced and it is proper in isolation between high voltage and low voltage circuits. The performance of suggested inverter and switching algorithm are validated with simulation results using MATLAB/SIMULINK software.

Key words: DC-DC Converter; high frequency transformer; Z-source inverter; boost factor

References

  • G. Kovacevic, A. Tenconi, R. Bojoi, “Advanced DC–DC converter for power conditioning in hydrogen fuel cell systems,” International Journal of Hydrogen Energy (Elsevier), 33: 3215 – 3219, ( 2008 ). [2] M. Jahanmahin,
  • A.Hajihosseinlu, E.Afjei,
  • M.mesbah, “Design Considerations for Very High
  • Frequency dc-dc Converters,” in 3rd Power
  • Electronics, Drive Systems and Technologies
  • Conference (PEDSTC), Sharif University of
  • Technology, Tehran – Iran, 366-372, (Feb. 2012).
  • Daolian Chen, Guoling Wang, “Differential Buck DC–DC Chopper Mode Inverters With High- Frequency Link”, IEEE Trans. On Power Elec., 26(5): 1444-1451, (2011).
  • Juan M. Rivas, David Jackson, Olivia Leitermann, Anthony D. Sagneri, Yehui Han, David J. Perreault, “Design Considerations for Very High Frequency dc-dc Converters”, 37th IEEE Power Electronics Specialists Conference, Korea, 18 - 22, (2006).
  • Takushi Jimichi, Hideaki Fujita, Hirofumi Akagi, “A Dynamic Voltage Restorer Equipped With a High-Frequency Isolated DC–DC Converter”, IEEE Trans. on Ind. Applications, 47(1): 169-175, (2011).
  • Yehui Han, Seth M. Davis, David J. Perreault, “High-Frequency Resonant SEPIC Converter With Wide Input and Output Voltage Ranges”, IEEE Trans. on Power Elec., 27(1): 189-200, (2012).
  • Haifeng Fan, Hui Li, “High-Frequency Transformer Isolated Bidirectional DC–DC Converter Modules With High Efficiency Over Wide Load Range for 20 kVA Solid-State Transformer”, IEEE Trans. on Power Elec., 26(12): 3599-3608, (2011).
  • D. Wang, C. Mao and J. Lu, “Modeling of electronic power transformer and its application to power system”, IET Gener. Transm. Distrib., 1(6): 887– 895, (2007).
  • Shu Fan, Chengxiong Mao, Luonan Chen, “Optimal coordinated PET and generator excitation control for power systems”, Electrical Power and Energy Systems, 28: 158–165, (2006).
  • M.R. Banaei, A.R. Dehghanzadeh, E. Salary, H. khounjahan, R. Multilevel Inverter with Reduction of Switches", IET Power Electronics, 5(3): 385-392, (2012).
  • Miaosen Shen, Alan Joseph, Jin Wang, Fang Z. Peng, Donald J. Adams, “Comparison of Traditional Inverters and Z-source Inverter for Fuel Cell Vehicles”, IEEE Trans. on Power Electronics, 22(4): 1453-1463,(2007).
  • Miaosen Shen, Stefan Hodek, Fang Z.Peng, “Control of the Z-Source Inverter for FCHEV with theConnected to the Motor Neutral Point”, Power Electronics Specialists Conference, PESC, (2007).
  • Jin Wang, Fang Z.Peng, Leon M. Tolbert, Donald J. Adams, “Maximum Constant Boost Control of the Z- Conference, 39 th Annual meeting Conference Record, (2004).
  • Amitava Das, Debasish Lahiri, A.K.Dhakar, “Residential Solar Power Systems Using Z-Source Inverter”, Conference, (2008). IEEE Regional 10
Year 2014, Volume: 27 Issue: 1, 693 - 699, 28.03.2014

Abstract

References

  • G. Kovacevic, A. Tenconi, R. Bojoi, “Advanced DC–DC converter for power conditioning in hydrogen fuel cell systems,” International Journal of Hydrogen Energy (Elsevier), 33: 3215 – 3219, ( 2008 ). [2] M. Jahanmahin,
  • A.Hajihosseinlu, E.Afjei,
  • M.mesbah, “Design Considerations for Very High
  • Frequency dc-dc Converters,” in 3rd Power
  • Electronics, Drive Systems and Technologies
  • Conference (PEDSTC), Sharif University of
  • Technology, Tehran – Iran, 366-372, (Feb. 2012).
  • Daolian Chen, Guoling Wang, “Differential Buck DC–DC Chopper Mode Inverters With High- Frequency Link”, IEEE Trans. On Power Elec., 26(5): 1444-1451, (2011).
  • Juan M. Rivas, David Jackson, Olivia Leitermann, Anthony D. Sagneri, Yehui Han, David J. Perreault, “Design Considerations for Very High Frequency dc-dc Converters”, 37th IEEE Power Electronics Specialists Conference, Korea, 18 - 22, (2006).
  • Takushi Jimichi, Hideaki Fujita, Hirofumi Akagi, “A Dynamic Voltage Restorer Equipped With a High-Frequency Isolated DC–DC Converter”, IEEE Trans. on Ind. Applications, 47(1): 169-175, (2011).
  • Yehui Han, Seth M. Davis, David J. Perreault, “High-Frequency Resonant SEPIC Converter With Wide Input and Output Voltage Ranges”, IEEE Trans. on Power Elec., 27(1): 189-200, (2012).
  • Haifeng Fan, Hui Li, “High-Frequency Transformer Isolated Bidirectional DC–DC Converter Modules With High Efficiency Over Wide Load Range for 20 kVA Solid-State Transformer”, IEEE Trans. on Power Elec., 26(12): 3599-3608, (2011).
  • D. Wang, C. Mao and J. Lu, “Modeling of electronic power transformer and its application to power system”, IET Gener. Transm. Distrib., 1(6): 887– 895, (2007).
  • Shu Fan, Chengxiong Mao, Luonan Chen, “Optimal coordinated PET and generator excitation control for power systems”, Electrical Power and Energy Systems, 28: 158–165, (2006).
  • M.R. Banaei, A.R. Dehghanzadeh, E. Salary, H. khounjahan, R. Multilevel Inverter with Reduction of Switches", IET Power Electronics, 5(3): 385-392, (2012).
  • Miaosen Shen, Alan Joseph, Jin Wang, Fang Z. Peng, Donald J. Adams, “Comparison of Traditional Inverters and Z-source Inverter for Fuel Cell Vehicles”, IEEE Trans. on Power Electronics, 22(4): 1453-1463,(2007).
  • Miaosen Shen, Stefan Hodek, Fang Z.Peng, “Control of the Z-Source Inverter for FCHEV with theConnected to the Motor Neutral Point”, Power Electronics Specialists Conference, PESC, (2007).
  • Jin Wang, Fang Z.Peng, Leon M. Tolbert, Donald J. Adams, “Maximum Constant Boost Control of the Z- Conference, 39 th Annual meeting Conference Record, (2004).
  • Amitava Das, Debasish Lahiri, A.K.Dhakar, “Residential Solar Power Systems Using Z-Source Inverter”, Conference, (2008). IEEE Regional 10
There are 19 citations in total.

Details

Primary Language English
Journal Section Electrical & Electronics Engineering
Authors

Mohamad Reza Banaeı

Ali Dehghanzadeh This is me

Aida Baghbany Oskoueı This is me

Publication Date March 28, 2014
Published in Issue Year 2014 Volume: 27 Issue: 1

Cite

APA Banaeı, M. R., Dehghanzadeh, A., & Baghbany Oskoueı, A. (2014). Boost DC-DC Converter Based Z-source Inverter with High Frequency Link. Gazi University Journal of Science, 27(1), 693-699.
AMA Banaeı MR, Dehghanzadeh A, Baghbany Oskoueı A. Boost DC-DC Converter Based Z-source Inverter with High Frequency Link. Gazi University Journal of Science. March 2014;27(1):693-699.
Chicago Banaeı, Mohamad Reza, Ali Dehghanzadeh, and Aida Baghbany Oskoueı. “Boost DC-DC Converter Based Z-Source Inverter With High Frequency Link”. Gazi University Journal of Science 27, no. 1 (March 2014): 693-99.
EndNote Banaeı MR, Dehghanzadeh A, Baghbany Oskoueı A (March 1, 2014) Boost DC-DC Converter Based Z-source Inverter with High Frequency Link. Gazi University Journal of Science 27 1 693–699.
IEEE M. R. Banaeı, A. Dehghanzadeh, and A. Baghbany Oskoueı, “Boost DC-DC Converter Based Z-source Inverter with High Frequency Link”, Gazi University Journal of Science, vol. 27, no. 1, pp. 693–699, 2014.
ISNAD Banaeı, Mohamad Reza et al. “Boost DC-DC Converter Based Z-Source Inverter With High Frequency Link”. Gazi University Journal of Science 27/1 (March 2014), 693-699.
JAMA Banaeı MR, Dehghanzadeh A, Baghbany Oskoueı A. Boost DC-DC Converter Based Z-source Inverter with High Frequency Link. Gazi University Journal of Science. 2014;27:693–699.
MLA Banaeı, Mohamad Reza et al. “Boost DC-DC Converter Based Z-Source Inverter With High Frequency Link”. Gazi University Journal of Science, vol. 27, no. 1, 2014, pp. 693-9.
Vancouver Banaeı MR, Dehghanzadeh A, Baghbany Oskoueı A. Boost DC-DC Converter Based Z-source Inverter with High Frequency Link. Gazi University Journal of Science. 2014;27(1):693-9.