Thermal management is a crucial step in the design of power electronic applications, especially railroad traction and automotive systems. Mass/size parameters, robustness and reliability of the power electronic system greatly depend on the cooling system type and performance. This paper presents an approximate parameter estimation of the thermal management system required as well as different commercially available cooling solutions. Advantages and drawbacks of different designs ranging from simple passive heatsinks to complex evaporative systems are discussed
Thermal management plays an increasingly dominant role in the design process of electronic products....
The designs of electronic devices and systems are being continuously improved by becoming smaller in...
Details infallible techniques for designing electronic hardware to withstand severe thermal environm...
Existing passive cooling solutions limit the short-term thermal output of systems, thereby either li...
Extracting heat from electronic systems has always been a challenging task for electronic package d...
Due to rapid growth in semiconductor technology, there is a continuous increase of the system power ...
In this paper, a detailed review of contemporary cooling systems of semiconductor devices is present...
The temperature has significant impact on the electronic performances. Therefore, the effective cooi...
This paper presents a thermo-hydraulic comparison of common and less commonly used cooling methods f...
ABSTRACT A study of thermal management of a harsh environment power electronics system is presented....
Dynamic thermal management plays a very important role in the design and development of electro-ther...
Heat removal for power semiconductor devices is critical for robust operation. Because there are dif...
AbstractHeatsinks have long been used for cooling of electronic components to maintain them under th...
Recent developments in the electronic equipment market have been very demanding on two important des...
(Abstract) The task of thermal management in electrical systems has never been simple and has only b...
Thermal management plays an increasingly dominant role in the design process of electronic products....
The designs of electronic devices and systems are being continuously improved by becoming smaller in...
Details infallible techniques for designing electronic hardware to withstand severe thermal environm...
Existing passive cooling solutions limit the short-term thermal output of systems, thereby either li...
Extracting heat from electronic systems has always been a challenging task for electronic package d...
Due to rapid growth in semiconductor technology, there is a continuous increase of the system power ...
In this paper, a detailed review of contemporary cooling systems of semiconductor devices is present...
The temperature has significant impact on the electronic performances. Therefore, the effective cooi...
This paper presents a thermo-hydraulic comparison of common and less commonly used cooling methods f...
ABSTRACT A study of thermal management of a harsh environment power electronics system is presented....
Dynamic thermal management plays a very important role in the design and development of electro-ther...
Heat removal for power semiconductor devices is critical for robust operation. Because there are dif...
AbstractHeatsinks have long been used for cooling of electronic components to maintain them under th...
Recent developments in the electronic equipment market have been very demanding on two important des...
(Abstract) The task of thermal management in electrical systems has never been simple and has only b...
Thermal management plays an increasingly dominant role in the design process of electronic products....
The designs of electronic devices and systems are being continuously improved by becoming smaller in...
Details infallible techniques for designing electronic hardware to withstand severe thermal environm...