High efficient approach to utilize SiC MOSFET potential in power modules

2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD) Pub Date : 2017-05-01 DOI:10.23919/ISPSD.2017.7988909
I. Kasko, S. Berberich, M. Gross, P. Beckedahl, S. Buetow
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引用次数: 6

Abstract

A holistic approach taking benefit from optimization of chip, assembly technology and module design was utilized to exploit the performance potential of SiC power modules. A novel MOSFET SiC module (1200V, 400A) with extremely low inductance (1.4nH) was designed and assembled using Semikron DPD (Direct Pressed Die) technology. The electrical measurements showed excellent switching performance (switching speed up to ∼53kV/μs for dv/dt and ∼67kA/μs for di/dt) and very low energy losses (80% lower than state of the art Si based IGBT module). The enhanced reliability was demonstrated by power cycling tests (8–10x life time improvement compared to conventional assembly of SiC devices).
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在功率模块中高效利用SiC MOSFET电位的方法
采用优化芯片、组装技术和模块设计的整体方法来挖掘SiC功率模块的性能潜力。采用赛米控(Semikron) DPD (Direct Pressed Die)技术,设计并组装了一种具有极低电感(1.4nH)的新型MOSFET SiC模块(1200V, 400A)。电学测量显示出优异的开关性能(dv/dt的开关速度可达~ 53kV/μs, di/dt的开关速度可达~ 67kA/μs)和极低的能量损耗(比目前基于Si的IGBT模块低80%)。功率循环测试证明了增强的可靠性(与传统的SiC器件组装相比,寿命提高了8 - 10倍)。
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2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD)
2017 29th International Symposium on Power Semiconductor Devices and IC's (ISPSD)
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