Universal High Frequency Multiple Output Forward/ Isolated Buck Converter For Gate Drive Application Using Digital Proportional Integral Controller.

Authors

  • Bhoomika M U  Students of 8th semester EEE Depatment, VTU,GSSSIETW, Mysuru,Karnataka, India
  • Neethisaraswathi M V  Students of 8th semester EEE Depatment, VTU,GSSSIETW, Mysuru,Karnataka, India
  • Sushma C M  Students of 8th semester EEE Depatment, VTU,GSSSIETW, Mysuru,Karnataka, India
  • Dhanalaxmi H R  Assistant Professor, Department of EEE,VTU, GSSSIETW, Mysuru,Karnataka, India
  • Madhu .B  External guide, Manager at engneering Department, SKANRAY TECHNOLOGIES, Mysuru,Karnataka, India
  • Pratheek Poovaiah  External guide, Manager at engneering Department, SKANRAY TECHNOLOGIES, Mysuru,Karnataka, India

Keywords:

Buck Converter, forward converter, isolated converter, microcontroller, high frequency, Pulse width modulation and PI control.

Abstract

This paper presents design and implementation of DC-DC Buck converter by using ATmega32 microcontroller. The forward DC-DC converter is most widely used electronic circuits for its high conversion efficiency and flexible output voltage. These converters are designed to regulate the output voltage against the changes in the input voltage. Many existing and developing electrical and electronic technologies require the voltage of different levels that are supplied from an available source voltage. To control the output voltage of the converter, the controller is designed to change the duty cycle of the converter. In this converter, MOSFET switch is digitally controlled by ATmega32 microcontroller. The circuit is verified with hardware implementation. This paper focuses on the hardware design and implementation of forward converter using pulse width modulation with digital proportional integral controller. Generating multiple outputs for gate drive applications.

References

  1. Sanjeev Singh and Bhim Singh, “An adjustable speed PMBLDCM drive for air conditioner using PFC Zeta converter,” Int. J. Power Electron. (IJPElec), vol. 3, no. 2, pp. 171–188, Apr. 2011.
  2. Sanjeev Singh and Bhim Singh, “Power Electronics, Drives and Energy Systems (PEDES),” in Proc. IEEE PEDES’2010.
  3. Sanjeev Singh and Bhim Singh, “Single-phase power factor controller topologies for permanent magnet brushless DC motor drives,” in IET Power Electron., 2010, Vol. 3, Iss. 2, pp. 147–175.
  4. Sanjeev Singh and Bhim Singh, “A voltage controlled adjustable speed PMBLDCM drive using a single-stage PFC half-bridge converter,” in Proc. IEEE APEC’10, 2010, pp. 1976–1983.
  5. Sanjeev Singh and Bhim Singh, “Comprehensive study of single phase AC-DC power factor corrected converters with high frequency isolation” IEEE Trans. on Industrial Informatics, vol. 7,no. 4, Nov. 2011, , pp. 540-556.
  6. Altamir Ronsani and Ivo Barbi, “Three-phase single stage AC-DC buck-boost converter operating in buck and boost modes” in Proc. IEEE, 2011, pp.176-182.
  7. K and Dr.Bhoopathy Bagan .K, “Buck Boost converter with improved transient response for low power applications” in Proc. IEEE SIEA, Sep 2011, pp. 155-160.
  8. Marcos Orellana, Stephane Petibon and Bruno Estibals, “Four switch buck-boost converter for photovoltaic DC-DC ower applications” in proc. IEEE, ISGE, 2010, pp.469-474.
  9. S C. Ravi raj and P. C. Sen, “Comparative study of proportional integral, sliding mode, and flay logic controllers for power converters,” IEEE Transactions on Industrial Applications, vol 33, no.2, pp.518— 524, MariApr. 1997.
  10. Sanjeev Singh and Bhim Singh, “Power quality improved PMBLDCM drive for adjustable speed application with reduced sensor buck-boost PFC converter” in proc. IEEE 11th ICETET, 2011, pp.180-184.
  11. Namnabat, M. Baysti Poodeh, S. Eshlehardiha, “Comparison the Control Methods in Improvement the Performance of the DC-DC Converter”, The 7’ international conference on power electronics, 22- 26, EXCO, Daegu, Korea, 2007.
  12. Venkstarsmanan, A. Sabanoivc, and S. Culç “Sliding mode control of dc-to-dc converters,” in Proc. IEEE ConE Industrial Electronics, Control Instrumentations (IECON), pp. 25 1-258, 1985.

IInternational Journal of Scientific Research in Computer Science, Engineering and Information Technology

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Published

2018-05-08

Issue

Volume 4, Issue 6, May-June-2018

Section

Research Articles

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How to Cite

[1]
Bhoomika M U, Neethisaraswathi M V, Sushma C M, Dhanalaxmi H R, Madhu .B, Pratheek Poovaiah, " Universal High Frequency Multiple Output Forward/ Isolated Buck Converter For Gate Drive Application Using Digital Proportional Integral Controller., IInternational Journal of Scientific Research in Computer Science, Engineering and Information Technology(IJSRCSEIT), ISSN : 2456-3307, Volume 4, Issue 6, pp.958-961, May-June-2018.