Litcius/Paper detail

Online Thermal Resistance and Reliability Characteristic Monitoring of Power Modules With Ag Sinter Joining and Pb, Pb-Free Solders During Power Cycling Test by SiC TEG Chip

Dongjin Kim, Shijo Nagao, Chuantong Chen, Naoki Wakasugi, Yasuyuki Yamamoto, Aiji Suetake, Tetsu Takemasa, Tohru Sugahara, Katsuaki Suganuma

2020IEEE Transactions on Power Electronics81 citationsDOI

Abstract

Despite the rapid progression of silicon carbide (SiC) power devices, the thermal characteristic evaluation during power cycling at high temperature (>200 °C) is an issue. In this article, a fast and miniaturized evaluation system with online thermal characteristic measurement function was introduced by an n-doped 4H SiC thermal engineering group (TEG) chip. Online thermal resistance measurement of a power module structure by Ag sinter joining with micron/submicron Ag particles paste in low temperature, low pressure, and cooling system by a thermal interface material bonding was performed. High-temperature reliability was systemically investigated by power cycling tests by switching on/off the power source which is connected to the SiC-TEG chip by Au wires. The total thermal resistance of the power module from the SiC-TEG chip to the cooling system increased from 0.5 to 0.53 K/W with the enhanced power source, and remained almost same after 20 000 power cycling at a swing temperature ΔTj of 150 °C. Furthermore, the SiC-TEG power module structure with the die attached with Pb and Pb-free solders, alongwith the same power source as sinter Ag paste was also measured. The Ag sinter joint possesses the lowest thermal resistance and highest high temperature reliability during power cycling compared with Pb and Pb-free die-attach materials.

Topics & Concepts

Temperature cyclingMaterials sciencePower cyclingSilicon carbideThermal resistancePower moduleDie (integrated circuit)Junction temperatureReliability (semiconductor)CarbideComposite materialThermalPower (physics)OptoelectronicsNanotechnologyQuantum mechanicsMeteorologyPhysicsSilicon Carbide Semiconductor TechnologiesElectronic Packaging and Soldering TechnologiesAluminum Alloys Composites Properties