This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic modules. An observer based feedback controller is proposed to reduce a power device or module's thermal cycle amplitude during operation, with the aim of improving reliability and lifetime. The full-state observer design is based on a developed Cauer type thermal model. The observer enables estimation and control of the temperature at reliability critical locations only measuring one accessible location. This makes the method particularly powerful and suitable for application in power systems. The designed strategy is confirmed experimentally. Although the experiment is developed for a specific application scenario, the proposed strategy is ...
Dynamic thermal management plays a very important role in the design and development of electro-ther...
This paper proposes an on-board methodology for monitoring the health of power converter modules in ...
The availability is defined as the portion of time the system remains operational to serve its purpo...
This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic...
This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic...
This paper presents a design and experimental validation of a temperature feedback control scheme to...
In this paper, a reduced order thermal observer with disturbance estimation is applied for temperatu...
Thermal cycling is one of the main sources of aging and failures in power electronics. A possibility...
Lifetime of power electronics modules can be extended with passive methods (condition monitoring) an...
Power electronic system design is typically constrained by the thermal limitation so by the overall ...
The thermal stress of power electronic components is one of the most important causes of their failu...
This paper presents a technique to estimate the temperature of each power electronic device in a the...
Condition Monitoring using thermal variables has been identified as one of the most critical aspects...
This thesis sets out a series of new techniques to improve the thermal management of power electroni...
Residual lifetime estimation has gained a key point among the techniques that improve the reliabilit...
Dynamic thermal management plays a very important role in the design and development of electro-ther...
This paper proposes an on-board methodology for monitoring the health of power converter modules in ...
The availability is defined as the portion of time the system remains operational to serve its purpo...
This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic...
This paper presents an advanced dynamic cooling strategy for multi-layer structured power electronic...
This paper presents a design and experimental validation of a temperature feedback control scheme to...
In this paper, a reduced order thermal observer with disturbance estimation is applied for temperatu...
Thermal cycling is one of the main sources of aging and failures in power electronics. A possibility...
Lifetime of power electronics modules can be extended with passive methods (condition monitoring) an...
Power electronic system design is typically constrained by the thermal limitation so by the overall ...
The thermal stress of power electronic components is one of the most important causes of their failu...
This paper presents a technique to estimate the temperature of each power electronic device in a the...
Condition Monitoring using thermal variables has been identified as one of the most critical aspects...
This thesis sets out a series of new techniques to improve the thermal management of power electroni...
Residual lifetime estimation has gained a key point among the techniques that improve the reliabilit...
Dynamic thermal management plays a very important role in the design and development of electro-ther...
This paper proposes an on-board methodology for monitoring the health of power converter modules in ...
The availability is defined as the portion of time the system remains operational to serve its purpo...