Compact Modeling of a 3.3 kV SiC MOSFET Power Module for Detailed Circuit-Level Electrothermal Simulations Including Parasitics

Scognamillo, Ciro; Catalano, Antonio Pio; Riccio, Michele; d’Alessandro, V.; Codecasa, Lorenzo; Borghese, Alessandro; Tripathi, Ravi Nath; Castellazzi, Alberto; Breglio, Giovanni; Irace, Andrea

doi:10.3390/en14154683

Cited by 21 publications

(8 citation statements)

References 36 publications

(52 reference statements)

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“…It results from the fact that thermal resistance of a semiconductor component is not constant, as it is assumed in linear thermal models based on the Foster and Cauer networks [84]. In the models described in [81,82], the value of thermal resistance depends on the power emitted in it, and in [67,85]-on the junction temperature of the semiconductor device and the ambient temperature.…”

Section: Methods Based On Transient Analysismentioning

confidence: 99%

“…They cause an increase in the temperature of the components during their operation [65,66]. Thermal couplings occur not only between the components, but also inside them, e.g., in the case of power modules between semiconductor structures placed in the common case [67,68], and in the case of inductive components between the core and its windings [69,70].…”

Section: Thermal Phenomena In Power Convertersmentioning

confidence: 99%

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Methods of Fast Analysis of DC–DC Converters—A Review

Górecki

2021

Electronics

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The paper discusses the methods of fast analysis of DC–DC converters dedicated to computer programmes. Literature methods of such an analysis are presented, which enable determination of the characteristics of the considered converters in the steady state and in the transient states. The simplifications adopted at the stage of developing these methods are discussed, and their influence on the accuracy of computations is indicated. Particular attention is paid to the methods of fast analysis of DC–DC converters, taking into account thermal phenomena in semiconductor devices. The sample results of computations of the DC–DC boost type converter obtained with the use of the selected methods are presented. The scope of application of particular computation methods and their duration times are discussed. Computations were performed with the use of SPICE and PLECS.

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Section: Methods Based On Transient Analysismentioning

confidence: 99%

Section: Thermal Phenomena In Power Convertersmentioning

confidence: 99%

Methods of Fast Analysis of DC–DC Converters—A Review

Górecki

2021

Electronics

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“…This work analyzes four main aspects: (1) (recommended) in frequencies between 100 KHz and 200 KHz, so that GaN and SiC switches present better efficiency (lower losses) than conventional IGBTs and MOSFETs. More information concerning these switch technologies is available in [48][49][50]). In general terms, switching with ZVS or ZCS increases the switch useful life.…”

Section: Bbc Topologiesmentioning

confidence: 99%

PFC Single-Phase AC/DC Boost Converters: Bridge, Semi-Bridgeless, and Bridgeless Topologies

et al. 2021

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Power Factor Correction (PFC) single-phase AC/DC converters are used in several power electronics applications as full wave control rectifiers improving power quality and providing high standards of efficiency. Many papers dealing with the description or use of such topologies have been published in recent years; however, a review that describes and organizes their specific details has not been reported in the technical literature. Therefore, this paper presents an extensive review of PFC single-phase AC/DC converters operating with the Boost converter topology for low and medium voltage as well as and power appliances. A categorization of bridge, semi-bridgeless, and bridgeless, in accordance with the construction characteristics, was carried out in order to unify the technical terminology. Benefits and disadvantages are described and analyzed in detail. Furthermore, a comparison performance in terms of PFC, Total Harmonic Distortion (THD), power capacity, electromagnetic compatibility (EMC), number of elements, and efficiency is included.

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“…Ceramic baseplates are used in power modules for electrical motor drives [12]. The most important feature of ceramic is that it withstands high temperatures and has a lower heat resistivity compared to commonly used materials [13].…”

Section: Introductionmentioning

confidence: 99%

Metallization, Material Selection, and Bonding of Interconnections for Novel LTCC and HTCC Power Modules

Sešek

Makarovič

2022

Materials

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Ceramic baseplates are important elements in the power modules of electric drives. This paper presents low-temperature cofired ceramic (LTCC) and high-temperature cofired ceramic (HTCC) materials for the fabrication of three-dimensional power modules. The silver-based metallization and power module assembly are presented, together with aluminum-based power wire bonding and an industrial procedure to achieve high solderability and bondability. The results of the bond tests using different metallization materials, especially cost-effective ones, are presented, together with the assembly of the power modules. The best results were achieved with Ag metallization and 380 µm Al wire and with Ag–Pd metallization and 25 µm Al wire, both on an LTCC base. The paper concludes with a dual-pulse electrical test of the power modules, which proves the quality of metallization, the type of material selected, and the correctness of the wire bonding and assembly.

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Compact Modeling of a 3.3 kV SiC MOSFET Power Module for Detailed Circuit-Level Electrothermal Simulations Including Parasitics

Cited by 21 publications

References 36 publications

Methods of Fast Analysis of DC–DC Converters—A Review

Methods of Fast Analysis of DC–DC Converters—A Review

PFC Single-Phase AC/DC Boost Converters: Bridge, Semi-Bridgeless, and Bridgeless Topologies

Metallization, Material Selection, and Bonding of Interconnections for Novel LTCC and HTCC Power Modules

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