薄氧化物POD电容器双峰击穿电压行为的改进

2009 IEEE Symposium on Industrial Electronics & Applications Pub Date : 2009-12-18 DOI:10.1109/ISIEA.2009.5356346

H. Ng

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引用次数: 0

摘要

多晶硅-氧化物扩散(POD)电容器是一种基于cmos技术的多晶硅-氧化物扩散电容器。由于器件结构类似于栅氧化试验结构，因此将标准击穿电压测量作为介质完整性鉴定应用于POD。本文对POD电容器的低氧化物击穿电压进行了研究。电介质为7nm热氧化物，同时生长于MOS晶体管中作为栅极氧化物。V-Ramp测量显示了Vbd的双峰分布，其中一个圆形贴片有≪7V，而不是目标Vbd (10V)。贴片的大小取决于POD电容的面积。在MOS晶体管栅极氧化物和22.5nm POD电容器上没有观察到这种行为。进行了工艺分区校核，包括晶圆方向和晶圆槽布置。贴片特征与POD栅氧化前的清洗步骤密切相关。对抗蚀剂去除的进一步工艺改进已经成功地消除了贴片特征，为后续的清洗步骤提供了更多的工艺余地。

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Improvement of bimodal breakdown voltage behavior on thin Oxide POD capacitor

Polysilicon-Oxide-Diffusion (POD) capacitor is built on CMOS-based technology by special POD implant below gate oxide. Since the device construction is similar to gate oxide test structure, the standard breakdown voltage measurement is applied to POD as a dielectric integrity qualification. This paper presents an investigation of low oxide breakdown voltage on POD capacitor. The dielectric was 7nm thermal oxide, which was grown simultaneously for MOS transistor as gate oxide. The V-Ramp measurement showed bimodal distribution of Vbd with one circular patch having ≪7V instead of the target Vbd (10V). The size of the patch depends on the POD capacitor area. This behavior was not observed on gate oxide of MOS transistor and 22.5nm POD capacitor. Process partition check, including wafer orientation and wafer slot arrangement was conducted. The patch signature has been identified closely related to the cleaning step before POD gate oxidation. Further process improvement on resist removal has successfully eliminated the patch signature giving much more process margin for subsequent cleaning steps.

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2009 IEEE Symposium on Industrial Electronics & Applications

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