Journal ArticleDOI
Thermal component model for electrothermal analysis of IGBT module systems
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TLDR
In this article, the static and dynamic thermal behavior of IGBT module system mounted on a water-cooled heat sink is analyzed using an RC component model (RCCM) to extract thermal resistances and time constants.Abstract:
The insulated gate bipolar transistor (IGBT) modules are getting more accepted and increasingly used in power electronic systems as high power and high voltage switching components. However, IGBT technology with high speed and greater packaging density leads to higher power densities on the chips and increases higher operating temperatures. These operating temperatures in turn lead to an increase of the failure rate and a reduction of the reliability. In this paper, the static and dynamic thermal behavior of IGBT module system mounted on a water-cooled heat sink is analyzed. Although three-dimensional finite element method (3-D FEM) delivers very accurate results, its usage is limited by an imposed computation time in arbitrary load cycles. Therefore, an RC component model (RCCM) is investigated to extract thermal resistances and time constants for a thermal network. The uniqueness of the RCCM is an introduction of the time constants based on the Elmore delay, which represents the propagation delay of the heat flux through the physical geometry of each layer. The dynamic behavior predicted by the thermal network is equivalent to numerical solutions of the 3-D FEM. The RCCM quickly offers insight into the physical layers of the components and provides useful information in a few minutes for the arbitrary or periodic power waveforms. This approach enables a system designer to couple the thermal prediction with a circuit simulator to analyze the electrothermal behavior of IGBT module system, simultaneously.read more
Citations
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Journal ArticleDOI
Condition Monitoring for Device Reliability in Power Electronic Converters: A Review
TL;DR: The state of the art in condition monitoring for power electronics can be found in this paper, where the authors present a review of the current state-of-the-art in power electronics condition monitoring.
Journal ArticleDOI
Active thermal control of power electronics modules
TL;DR: In this paper, an online junction temperature estimation and manipulation of the switching frequency and current limit to regulate the losses are used to prevent overtemperature and power cycling failures in insulated gate bipolar transistor (IGBT) power modules.
Journal ArticleDOI
Thermal Management on IGBT Power Electronic Devices and Modules
TL;DR: A quick and efficient evaluation judgment for the thermal management of the IGBTs depended on the requirements on the junction-to-case thermal resistance and equivalent heat transfer coefficient of the test samples is proposed.
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Lifetime prediction and design of reliability tests for high-power devices in automotive applications
TL;DR: In this article, different procedures are defined and compared to extract the statistical distribution of the thermal cycles experienced by power devices that are installed in hybrid vehicles and operated according to arbitrary mission profiles.
Journal ArticleDOI
A thermal model for insulated gate bipolar transistor module
TL;DR: In this paper, a thermal resistor-capacitor (RC) model is introduced for the power insulated gate bipolar transistor (IGBT) modules used in a three-phase inverter.
References
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Thermal resistance analysis by induced transient (TRAIT) method for power electronic devices thermal characterization. I. Fundamentals and theory
TL;DR: In this paper, a careful theoretical analysis of the thermal dynamics of an electronic device and its package was carried out in order to study the problem of the equivalent thermal circuit implementation, and it was found that the device temperature evolution in time is ruled by an infinite and convergent series of time constants.
Journal ArticleDOI
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Journal ArticleDOI
Thermal resistance analysis by induced transient (TRAIT) method for power electronic devices thermal characterization. II. Practice and experiments
TL;DR: In this article, the TRAIT method for thermal characterization of electronic devices, whose theory was exposed in part I for one-dimensional (1-D) structures, was here applied to systems having heat fluxes with three-dimensional dependence in order to demonstrate that the spatial resolution of the thermal resistance analysis is still qualitatively maintained in this type of structure too.