Abstract-- The wind turbine converters demand high power density due to nacelle space limitation and high reliability due to high maintenance cost. Once the converter topology with the semiconductor switch technology is selected, the converter power density and reliability are dependent on the component count and the switch thermal performance which is determined by the converter load profile and the converter structure. In this study, the converter-structure based power loss and thermal models are developed for the medium voltage full-scale 3L-ANPC-VSC and 3L-HB-VSC utilizing press-pack IGBT-diode pairs and interfacing a 6MW wind turbine to a medium voltage grid. The switching power loss models are built using the experimentally obtained s...
In order to satisfy the growing reliability requirements for the wind power converters with more cos...
As the power level of a single wind turbine is continuously pushed up even to 7 MW, the wind power g...
Over the last two decades, various models have been developed to assess and improve the reliability ...
The wind turbine converters demand high power density due to nacelle space limitation and high relia...
Wind turbine converters demand high power density due to nacelle space limitation and high reliabili...
Wind turbine converters demand high power density due to nacelle space limitation and high reliabili...
Power electronic converters for wind turbines are characterized by high specific power density and h...
Power density is the important design criterion in wind turbine converter design provided that satis...
Wind turbine power capability is an essential set of data for both wind turbine manufacturers/operat...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with increa...
Wind turbine power capability is an essential set of data for both wind turbine manufacturers/operat...
With three different DC-side and AC-side connections, the three-level H-bridge voltage source conver...
Power semiconductor switching devices play an important role in the performance of high power wind e...
With three different DC-side and AC-side connections, the three-level H-bridge voltage source conver...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with increa...
In order to satisfy the growing reliability requirements for the wind power converters with more cos...
As the power level of a single wind turbine is continuously pushed up even to 7 MW, the wind power g...
Over the last two decades, various models have been developed to assess and improve the reliability ...
The wind turbine converters demand high power density due to nacelle space limitation and high relia...
Wind turbine converters demand high power density due to nacelle space limitation and high reliabili...
Wind turbine converters demand high power density due to nacelle space limitation and high reliabili...
Power electronic converters for wind turbines are characterized by high specific power density and h...
Power density is the important design criterion in wind turbine converter design provided that satis...
Wind turbine power capability is an essential set of data for both wind turbine manufacturers/operat...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with increa...
Wind turbine power capability is an essential set of data for both wind turbine manufacturers/operat...
With three different DC-side and AC-side connections, the three-level H-bridge voltage source conver...
Power semiconductor switching devices play an important role in the performance of high power wind e...
With three different DC-side and AC-side connections, the three-level H-bridge voltage source conver...
Reliability is a critical criterion for multi-MW wind turbines, which are being employed with increa...
In order to satisfy the growing reliability requirements for the wind power converters with more cos...
As the power level of a single wind turbine is continuously pushed up even to 7 MW, the wind power g...
Over the last two decades, various models have been developed to assess and improve the reliability ...