Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application

Al-Rubaye, Mohannad Jabbar Mnati; Ali, Adnan Hussein; Al-yousif, Shahad; Bozalakov, Dimitar; Van den Bossche, Alex

Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application

Mohannad Jabbar Mnati Al-Rubaye, Adnan Hussein Ali, Shahad Al-yousif, Dimitar Bozalakov and Alex Van den Bossche (UGent)

(2018) 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA). In International Conference on Renewable Energy Research and Applications p.701-706

Author

Mohannad Jabbar Mnati Al-Rubaye, Adnan Hussein Ali, Shahad Al-yousif, Dimitar Bozalakov and Alex Van den Bossche (UGent)

Organization

Department of Electromechanical, Systems and Metal Engineering

Abstract

This paper presents and describes the design and implementation of a new gate driver circuit for a three-phase grid tide photovoltaic inverter system using SIC- MOSFET at the power stage. The proposed design consists of a 5 kW power three-phase inverter system with a new isolated gate driver related to IGBT, MOSFET and SIC-MOSFETs. The designed circuit has a dual gate driver in a single package for each leg, and each circuit has an optocoupler to provide high output peak current to turn the power transistor On or Off, and a saturation protection circuit. The control algorithm for the full system of the three-phase application runs on a TMS320F28335 DSP. The TMS320F28335 Digital Signal Processor (DSP) microcontroller is one of the Texas Instruments™ (TI) family that was used to generate the three-phase 120⁰ Bus Clamp PWM of the system, with high frequency around 25 kHz.

Keywords

Gate Driver Circuit, SIC-MOSFET, Saturation Protection, TMS320F28335, 120⁰ Bus Clamp PWM.

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8577811

MLA: Al-Rubaye, Mohannad Jabbar Mnati, et al. “Design and Implementation of a Gate Driver Circuit for Three-Phase Grid Tied Photovoltaic Inverter Application.” 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA), 2018, pp. 701–06.
APA: Al-Rubaye, M. J. M., Ali, A. H., Al-yousif, S., Bozalakov, D., & Van den Bossche, A. (2018). Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application. 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA), 701–706.
Chicago author-date: Al-Rubaye, Mohannad Jabbar Mnati, Adnan Hussein Ali, Shahad Al-yousif, Dimitar Bozalakov, and Alex Van den Bossche. 2018. “Design and Implementation of a Gate Driver Circuit for Three-Phase Grid Tied Photovoltaic Inverter Application.” In 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA), 701–6.
Chicago author-date (all authors): Al-Rubaye, Mohannad Jabbar Mnati, Adnan Hussein Ali, Shahad Al-yousif, Dimitar Bozalakov, and Alex Van den Bossche. 2018. “Design and Implementation of a Gate Driver Circuit for Three-Phase Grid Tied Photovoltaic Inverter Application.” In 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA), 701–706.
Vancouver: 1.
Al-Rubaye MJM, Ali AH, Al-yousif S, Bozalakov D, Van den Bossche A. Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application. In: 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA). 2018. p. 701–6.
IEEE: [1]
M. J. M. Al-Rubaye, A. H. Ali, S. Al-yousif, D. Bozalakov, and A. Van den Bossche, “Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application,” in 2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA), Paris, France, 2018, pp. 701–706.

@inproceedings{8577811,
  abstract     = {{This paper presents and describes the design and implementation of a new gate driver circuit for a three-phase grid tide photovoltaic inverter system using SIC- MOSFET at the power stage. The proposed design consists of a 5 kW power three-phase inverter system with a new isolated gate driver related to IGBT, MOSFET and SIC-MOSFETs. The designed circuit has a dual gate driver in a single package for each leg, and each circuit has an optocoupler to provide high output peak current to turn the power transistor On or Off, and a saturation protection circuit. The control algorithm for the full system of the three-phase application runs on a TMS320F28335 DSP. The TMS320F28335 Digital Signal Processor (DSP) microcontroller is one of the Texas Instruments™ (TI) family that was used to generate the three-phase 120⁰ Bus Clamp PWM of the system, with high frequency around 25 kHz.}},
  author       = {{Al-Rubaye, Mohannad Jabbar Mnati and Ali, Adnan Hussein and Al-yousif, Shahad and Bozalakov, Dimitar and Van den Bossche, Alex}},
  booktitle    = {{2018 7TH INTERNATIONAL CONFERENCE ON RENEWABLE ENERGY RESEARCH AND APPLICATIONS (ICRERA)}},
  isbn         = {{9781538659823}},
  issn         = {{2377-6897}},
  keywords     = {{Gate Driver Circuit,SIC-MOSFET,Saturation Protection,TMS320F28335,120⁰ Bus Clamp PWM.}},
  language     = {{eng}},
  location     = {{Paris, France}},
  pages        = {{701--706}},
  title        = {{Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application}},
  year         = {{2018}},
}

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Design and implementation of a gate driver circuit for three-phase grid tied photovoltaic inverter application

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