Direct Visualization of Breakdown-Induced Metal Migration in Enhanced Modified Lateral Silicon-Controlled Rectifiers

Direct Visualization of Breakdown-Induced Metal Migration in Enhanced Modified Lateral Silicon-Controlled Rectifiers

The robustness of electrostatic sensitive devices is important in state-of-the-art silicon technology. However, the electrical breakdown-induced microstructure evolution remains unclear. In this work, we performed the physical failure analysis of breakdown in an enhanced modified lateral silicon-con...

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Veröffentlicht in:IEEE transactions on electron devices 2021-03, Vol.68 (3), p.1378-1381
Hauptverfasser: Chen, Xinqian, Du, Feibo, Wang, Chaolun, Xu, Hejun, Zhang, Yuxin, Hou, Fei, Yang, Xin, Wu, Yongren, Tsai, Chihang, Chen, Zhirong, Guo, Yurou, Liu, Zhiwei, Wu, Xing
Format: Artikel
Sprache:eng
Schlagworte:
Anodes
Cathodes
Chemical properties
Electric breakdown
Electrical breakdown
Electrical faults
electrostatic discharge (ESD)
Electrostatic discharges
Evolution
Failure analysis
Filaments
High resolution electron microscopy
Metal fibers
Microstructure
Nickel
Robust control
Silicides
Silicon
Silicon controlled rectifiers
Silicon substrates
silicon-controlled rectifier (SCR)
Static electricity
transmission electron microscopy
Visualization
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Beschreibung
Zusammenfassung:The robustness of electrostatic sensitive devices is important in state-of-the-art silicon technology. However, the electrical breakdown-induced microstructure evolution remains unclear. In this work, we performed the physical failure analysis of breakdown in an enhanced modified lateral silicon-controlled rectifier-based electrostatic discharge (ESD) device. Direct visualization of the conductive metal filaments in the doped silicon substrate has been achieved by high-resolution transmission electron microscopy. The locations of these metal filaments induced by breakdown are found near the cathode. The evolution of these microstructural changes and chemical properties provides guide to the failure analysis of ESD devices.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2021.3053501