Invasion percolation model for abnormal TDDB characteristic of ULK dielectrics with Cu interconnect at advanced technology nodes

With the continuing aggressive scaling of interconnect dimensions and introduction of new lower k materials, dielectric TDDB reliability margin is greatly reduced. In this paper, a comprehensive investigation on an abnormal low-k TDDB characteristic, a systematic degradation of Weibull slopes at low...

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Hauptverfasser:	Chen, F, Shinosky, M, Li, B, Aitken, J, Cohen, S, Bonilla, G, Simon, A, McLaughlin, P, Achanta, R, Baumann, F, Parks, C, Angyal, M
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	alloy seed Copper CuMn alloy Dielectrics Integrated circuit interconnections invasion percolationy leakage low-k reliability Manganese metal diffusion Semiconductor device modeling Stress TDDB time-dependent dielectric breakdown TVS
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creator	Chen, F Shinosky, M Li, B Aitken, J Cohen, S Bonilla, G Simon, A McLaughlin, P Achanta, R Baumann, F Parks, C Angyal, M
description	With the continuing aggressive scaling of interconnect dimensions and introduction of new lower k materials, dielectric TDDB reliability margin is greatly reduced. In this paper, a comprehensive investigation on an abnormal low-k TDDB characteristic, a systematic degradation of Weibull slopes at lower stress voltages, was conducted for Cu and CuMn alloy interconnect with porous ultra low-k (ULK) CVD dielectric (k = 2.4). Based on extensive electrical and physical evidences, such abnormal TDDB characteristic was attributed to slow metallic diffusion in bulk ULK induced by Mn and Cu segregation. A new TDDB model based on invasion percolation was proposed to successfully model the observed abnormality. CuMn interconnect with robust liner to assure metal free ULK has become important for TDDB reliability.
doi_str_mv	10.1109/IRPS.2011.5784466
format	Conference Proceeding
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In this paper, a comprehensive investigation on an abnormal low-k TDDB characteristic, a systematic degradation of Weibull slopes at lower stress voltages, was conducted for Cu and CuMn alloy interconnect with porous ultra low-k (ULK) CVD dielectric (k = 2.4). Based on extensive electrical and physical evidences, such abnormal TDDB characteristic was attributed to slow metallic diffusion in bulk ULK induced by Mn and Cu segregation. A new TDDB model based on invasion percolation was proposed to successfully model the observed abnormality. CuMn interconnect with robust liner to assure metal free ULK has become important for TDDB reliability.</abstract><pub>IEEE</pub><doi>10.1109/IRPS.2011.5784466</doi></addata></record>
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subjects	alloy seed Copper CuMn alloy Dielectrics Integrated circuit interconnections invasion percolationy leakage low-k reliability Manganese metal diffusion Semiconductor device modeling Stress TDDB time-dependent dielectric breakdown TVS
title	Invasion percolation model for abnormal TDDB characteristic of ULK dielectrics with Cu interconnect at advanced technology nodes
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