三维集成电路中等离子体损伤(PID)和静电放电(ESD)的高效双向保护结构

2020 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2020-04-01 DOI:10.1109/IRPS45951.2020.9129158

C. Premachandran, S. Cimino, M. Prabhu

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引用次数: 1

摘要

在金属/介质等离子体处理线路后端(BEOL)时，由于等离子体放电电流，晶体管栅极氧化物可能发生降解。这种退化可能造成功能故障或导致未来的可靠性问题。特定尺寸的二极管被集成到芯片中，以保护在BEOL处理过程中免受等离子体诱导损伤(PID)。在三维集成电路(IC)中，通过硅孔(TSV)蚀刻和背面再分布层(RDL)等附加工艺是决定二极管尺寸的重要因素。额外的二极管保护结构也用于静电放电(ESD)损坏在fab/组装。在这项研究中，提出了一个双向二极管，以保护晶体管栅极氧化物在三维集成过程中受到PID和ESD的影响。组合保护二极管解决了由于正面和背面过程引起的PID和芯片到芯片/晶圆到晶圆键合过程中的ESD。

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Efficient Bidirectional protection structure for Plasma induced damage (PID) and Electrostatic discharge (ESD) for 3D IC Integration

During metal/dielectric plasma processing for the back end of the line (BEOL), degradation of the transistor gate oxide may occur due to the plasma discharge current. This degradation can create a functional failure or lead to future reliability issues. Diodes of a specific size are incorporated into the chip to protect from plasma induced damage (PID) during the BEOL processing. In 3D integrated circuits (IC) additional processes such as through silicon via (TSV) etching and backside redistribution layer (RDL) are accounted for in deciding the diode size. Additional diode protection structure is also used for electrostatic discharge (ESD) damage during fab/assembly. In this study, a bidirectional diode is proposed to protect the transistor gate oxide from both PID and ESD during the 3D IC integration process. The combined protection diode addresses PID due to front and back side processes and ESD during chip to chip/wafer to wafer bonding process.

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2020 IEEE International Reliability Physics Symposium (IRPS)

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