Abstract-The current status of research in the field of power semiconductor device models is reviewed. For this purpose, the basic modeling problems and research issues, which have to be overcome in this field, are discussed. Recently, some new and quite promising modeling concepts have been proposed, which are compared with more traditional ways of achieving an efficient tradeoff between the necessary accuracy, required simulation speed, and feasibility of parameter determination. From this comparison, a prediction of the future evolution of circuit simulation models for power semiconductor devices naturally emerges. Many of the different concepts are expected to survive only in an application niche, where their specific points of strength are important. However, three modeling concepts have already been proven to be successfully applicable to the complete spectrum of power semiconductor devices and have their strength for different grades of complexity of the power circuit. A revolutionary development from anticipated or longdue breakthroughs is on the other hand not expected in the foreseeable future.
Abstract-This paper analyzes the operation of PowerMOSFETs in the 42-V-PowerNet and shows that very stressful conditions are encountered, which can lead to severe reliability problems. To enable thorough investigations by circuit simulations an accurate physics-based compact model of the devices is proposed: it includes all important electrothermal effects relevant to the description of the observed failure mechanisms. By means of an advanced thermal-modeling approach, multichip assemblies can be accurately described, including mutual heating effects between neighboring devices. Some properly chosen examples demonstrate the validity of the model and its usefulness for reliability investigations.Index Terms-Electrothermal effects, modeling, power metal-oxide semiconductor field-effect transistors (MOSFETs), reliability.
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