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Publication date : Jan 2011
Paper File : IICPE2010-HIL_multilevel_rectifier.pdf

Authors

Luc-André Gregoire, Kamal Al-Haddad, Girish Nanjundaiah,

Abstract

This paper proposes a validation methodology for implementing solutions to challenges involved with power electronic converter design. Typically, the design process consists of first simulating the converter and then implementing it on hardware. Here, an intermediate step is added where the controller is connected to a real-time simulator before being connected to real hardware. This allows for virtual testing of scenarios that cannot be conducted with physical hardware without risking damage to the hardware. This technique will be demonstrated by implementing a new method of control, the drifting PWM, for a multilevel packed U-cell (PUC) converter. The drifting PWM allows for a slight variation in the switching state so that regulation of the auxiliary capacitor can be achieved. This method will be simulated offline and in real-time to demonstrate its long term reliability. Once fully functional, the controller is implemented on an FPGA board, from which it will control the real converter. Simulation results, as well as experimental results, are presented and compared. It is demonstrated that the HIL technique is a very effective tool for designing multilevel converter controllers.

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RT-LAB Professionnel_fr


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Kamal Al-Haddad Hardware-in-the-Loop (HIL) to reduce the development cost of power electronic converters Publication date : Jan 2011 Paper File : IICPE2010-HIL_multilevel_rectifier.pdf Authors Luc-André Gregoire, Kamal Al-Haddad, Girish Nanjundaiah, Abstract This paper proposes a validation methodology for implementing solutions to challenges involved with power electronic converter design. Typically, the design process consists of first simulating the converter and then implementing it on hardware. Here, an intermediate step is added where the controller is connected to a real-time simulator before being connected to real hardware. This allows for virtual testing of scenarios that cannot be conducted with physical hardware without risking damage to the hardware. This technique will be demonstrated by implementing a new method of control, the drifting PWM, for a multilevel packed U-cell (PUC) converter. The drifting PWM allows for a slight variation in the switching state so that regulation of the auxiliary capacitor can be achieved. This method will be simulated offline and in real-time to demonstrate its long term reliability. Once fully functional, the controller is implemented on an FPGA board, from which it will control the real converter. Simulation results, as well as experimental results, are presented and compared. It is demonstrated that the HIL technique is a very effective tool for designing multilevel converter controllers. Related Products eMEGAsim PowerGrid Real-Time Digital Hardware in the Loop Simulator_en RT-LAB Professional_en eMEGAsim_fr RT-LAB Professionnel_fr

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Kamal Al-Haddad

Hardware-in-the-Loop (HIL) to reduce the development cost of power electronic converters

Authors

Abstract

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