Optimization-Based Network Identification for Thermal Transient Measurements

Ziegeler, Nils J.; Nolte, Peter W.; Schweizer, Stefan

doi:10.3390/en14227648

Cited by 4 publications

(1 citation statement)

References 18 publications

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“…The paper [46] proposes a post-processing procedure for the network identification from thermal transient measurements. This so-called optimization-based network identification provides a much more accurate and robust result compared with the other approaches using the classical deconvolution algorithms.…”

Section: Introductionmentioning

confidence: 99%

Cooling Systems of Power Semiconductor Devices—A Review

Górecki

Posobkiewicz

2022

Energies

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In this paper, a detailed review of contemporary cooling systems of semiconductor devices is presented. The construction and the principles of operation of selected components of passive and active cooling systems, as well as selected computer tools supporting the design of such systems, are described. The dependences of thermal parameters calculated using these tools on selected factors characterizing the used cooling systems, e.g., the dimensions of their components, are presented and discussed. Additionally, some results of measurements illustrating the influence of selected parameters on the thermal resistance of power MOSFETs mounted in different cooling systems are shown. The properties of selected cooling systems are compared, and it is shown that by changing the type of cooling system, it is possible to reduce the thermal resistance value of a power MOSFET even 20 times. The presented considerations can make the process of designing cooling systems more effective.

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Section: Introductionmentioning

confidence: 99%

Cooling Systems of Power Semiconductor Devices—A Review

Górecki

Posobkiewicz

2022

Energies

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Where did you come from and where are you heading to, thermal analysis of heating effects?

Šesták

2023

J Therm Anal Calorim

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The review summarizes the current state, outlook and development of the field of thermal analysis, emphasizing the study of thermal effects as the basis of all other methodologies. Heat and its understanding intertwines throughout the entire civilization from the Greek philosophers through the middle ages to today’s advanced technological era. The foundations of the field of thermal analysis, where heat acts as its own agent, date back to the nineteenth century, and the calorimetric evaluation of heat fluxes became the basis. It views the processes of calibration and rectification specifies the iso- and noniso- degrees of transformation, explains the role of the equilibrium background, which is especially necessary in kinetics. It introduces a new concept of thermodynamics with regard to the constancy of first derivatives and discusses the role of standard temperature and its non-equilibrium variant—tempericity. It describes the constrained states of glasses and assesses the role of dimensions in material science. Finally yet importantly, it deals with the influence of thermoanalytical journals, their role in presenting unusual results, and discusses the role of the dissident science. It also describes the level and influence of adequate books and finally describes discussions and perspectives, i.e. where to look better interpretation for and what is the influence of current over-sophisticated devices.

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