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大气中子在系统级封装器件中引起的单粒子效应特性及机理研究

叶结锋梁朝辉张战刚郑顺顺雷志锋刘志利耿高营韩慧

原子能科学技术2025，Vol.59Issue(5)：1154-1164,11.

原子能科学技术2025，Vol.59Issue(5)：1154-1164,11.DOI:10.7538/yzk.2024.youxian.0666

大气中子在系统级封装器件中引起的单粒子效应特性及机理研究

Characteristics and Mechanisms of Single Event Effects Caused by Atmospheric Neutrons in System in Package Device

叶结锋 ¹梁朝辉 ²张战刚 ²郑顺顺 ¹雷志锋 ²刘志利 ³耿高营 ³韩慧⁴

作者信息

1. 安徽大学物质科学与信息技术研究院,安徽合肥 230039||工业和信息化部电子第五研究所电子元器件可靠性物理及其应用技术重点实验室,广东广州 511370
2. 工业和信息化部电子第五研究所电子元器件可靠性物理及其应用技术重点实验室,广东广州 511370
3. 中国电子科技集团第五十八研究所,江苏无锡 214035
4. 安徽大学物质科学与信息技术研究院,安徽合肥 230039
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摘要

Abstract

To investigate the effects of atmospheric neutron radiation effects on a system-in-package(SiP)device,single event upset(SEU)and single event functional interruption(SEFI)were focused on in the experiment.Correlations between these effects and experimental parameters were found and the reasons for these correlations were analyzed.The accelerated irradiation experiment of a SiP device was conducted based on the atmospheric neutron irradiation spectrometer.The experiment observed the effects of SEU and SEFI caused by neutrons.SEUs are found in the static random access memory(SRAM)module of the digital signal processor(DSP)and the block random access memory(BRAM)module inside the field programmable gate array(FPGA).SEFI errors are primarily program crashes and DSP state machine freezes.The SEU cross section caused by neutrons was calculated,and the effects of process nodes and neutron beam energy spectrum on the SEU cross section were analyzed.As the process node decreases from 40 nm to 28 nm,the U-SEU cross section reduces by 73％.Thermal neutrons significantly impacts the SEU cross section of SRAM.After filtering thermal neutron components from the neutron beam,the SRAM SEU cross section decreases by 28.8％.The experimental results were analyzed through simulations performed using GEANT4,a particle transport and interaction modeling software.The simulated results provide essential insights into the underlying mechanisms contributing to the lower SEU cross section observed in the experimental.The soft error rate at New York sea level was calculated,revealing that the BRAM inside the FPGA was the most SEU-sensitive module,with a soft error rate of 766.8 FIT/Mb due to high-energy neutrons(E>1 MeV).This finding emphasizes the necessity for error correction codes(ECC)or redundancy techniques to mitigate potential SEUs in critical memory devices.No SEUs are found in DDR2 SDRAM,CLB,or ROM inside the FPGA.This resilience may stem from architectural design or test capacity.The DSP is found to be the most SEFI-sensitive module.Overall,the experimental data serve as a critical resource for guiding the design and development of SiP devices with improved resistance to neutron-induced radiation effects.The insights derived from this study are invaluable for advancing the reliability and performance of semiconductor devices operating in neutron radiation environments.

关键词

单粒子效应/中子辐照/系统级封装/单粒子翻转截面/热中子/软错误率

Key words

single event effect/neutron irradiation/system-in-package/single event upset cross sec-tion/thermal neutron/soft error rate

分类

核科学

引用本文复制引用

叶结锋,梁朝辉,张战刚,郑顺顺,雷志锋,刘志利,耿高营,韩慧..大气中子在系统级封装器件中引起的单粒子效应特性及机理研究[J].原子能科学技术,2025,59(5):1154-1164,11.

基金项目

广东省重点领域研发计划(2022B0701180002) （2022B0701180002）

国家自然科学基金(12175045,12075065) （12175045,12075065）

原子能科学技术

OA北大核心

ISSN：1000-6931

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