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Alpha-Particle Shielding Effect of Thick Copper Plating Film on Power MOSFETs

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We investigated characteristics impact of alpha-particles irradiation to power MOSFETs and demonstrated alpha-particle shielding effect of thick copper plating film on a ...Show More

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Abstract:

We investigated characteristics impact of alpha-particles irradiation to power MOSFETs and demonstrated alpha-particle shielding effect of thick copper plating film on a power MOSFET. We used americium-241 alpha-source for irradiating alpha-particles to the surface of the power MOSFET die. Irradiation under gate-source bias caused threshold voltage (Vth) decrease due to generated trapped holes in gate oxide, however, no Vth shift occurred under drain-source bias. We found that sensitivity to alpha-particles depends on gate structures of trench or planar. Recovery behavior of Vth shift by gate bias or thermal annealing support the hole trapping model in the gate oxide. We evaluated alpha-particle shielding effect of thick copper plating film. We demonstrated more than 15 micrometer thick copper plating on the power MOSFET shielded alpha-particles successfully.

Published in: 2019 31st International Symposium on Power Semiconductor Devices and ICs (ISPSD)

Date of Conference: 19-23 May 2019

Date Added to IEEE Xplore: 11 July 2019

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ISSN Information:

DOI: 10.1109/ISPSD.2019.8757695

Conference Location: Shanghai, China

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Contents

I. Introduction

Continuous cell pitch shrinking of trench power MOSFET has achieved significant chip On-resistance reduction in last three decades [1], [2]. Furthermore, charge coupling technologies such as superjunction [3] and trench Field Plate (FP) MOSFET [4] drastically reduced drift layer resistance and overcame silicon limit. In addition, copper clip source connection technology decreased parasitic package resistance [5], which is especially important for low voltage devices. These technologies enabled us to realize extremely low on-resistance power MOSFET.

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Mark A. Gajda, Charles Daniel T. De Leon, Vegneswary A P Ramalingam, Haima Santican, "Elimination Of Parametric Shifts In Trench MOSFETs Using Low Alpha-Particle Solder", 2024 IEEE 26th Electronics Packaging Technology Conference (EPTC), pp.704-709, 2024.

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Chen Yu Huang, Chi Yung Chen, Chong Leong Gan, Tracy Tennamt, "Alpha Emission Rate Characterization and Risk Evaluation of Substrate Materials Used in Memory Packages", 2024 IEEE 40th International Electronics Manufacturing Technology (IEMT), pp.1-5, 2024.

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Ai Loon Ooi, David Goh, Voon Cheng Ngwan, "High Temperature Reverse Bias (HTRB) & Temperature Humidity Bias (THB) Reliability Failure Mechanisms and Improvements in Trench Power MOSFET and IGBT", IEEE Journal of the Electron Devices Society, vol.9, pp.1181-1187, 2021.

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C. Jacquemont, K. M. Wong, David Goh, "Hydrogen Proton Induced HTRB Reliability Degradation in Trench Power Devices", 2020 4th IEEE Electron Devices Technology & Manufacturing Conference (EDTM), pp.1-3, 2020.

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Alpha-Particle Shielding Effect of Thick Copper Plating Film on Power MOSFETs

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I. Introduction

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Alpha-Particle Shielding Effect of Thick Copper Plating Film on Power MOSFETs

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I. Introduction

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