Calvin Lo scite author profile

Calvin Lo

3Publications

2Citation Statements Received

1Citation Statement Given

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Wafer dicing process optimization and characterization for C90 low-k wafer technology

Shi¹,

Yow²,

Rachel³

et al. 2009

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This paper presents an investigation on the effect and optimization of machining parameters for 90nm low-k wafer topside peeling improvement in mechanical dicing operation. It is part of the continuous improvement that performed based on current established dicing recipe. The resulted outcomes to achieve are cut quality improvement, dicing yield loss reduction and device reliability enhancement for low-k wafer dicing. The experimental studies were conducted under varying table speed, Z1 spindle rotation as well as the Z1 cut depth was examined. The settings of machining parameters were determined by using design of experiment (DOE) techniques and the critical process parameters were determined and analyzed statistically by using analysis of variance (ANOVA). Optical visual inspection was conducted on post-processed low-k test wafers and several of scribe structures which comprised of different level of metal density, for a through quantification and categorization on the peeling mode. Worst case peeling measurements and characterizations were conducted by using optical microscope, scanning electron microscopy (SEM) and focused ion beam (FIB). Electrical test and device reliability assessments were conducted to reflect and confirm the improvement of the samples diced with optimized mechanical dicing process. As a result, the optimum dicing parameters to apply in production environment was realized and established in order to overcome the quality obstacles and yield loss issue in low-k wafer dicing.

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Multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer

Shi¹,

Yow²,

Lo³

et al. 2014

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Single & multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer

Shi

Yow²,

Lo³

2014

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Calvin Lo

Wafer dicing process optimization and characterization for C90 low-k wafer technology

Multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer

Single & multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer

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Calvin Lo

Wafer dicing process optimization and characterization for C90 low-k wafer technology

Multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer

Single &amp; multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer

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Single & multi beam laser grooving process parameter development and die strength characterization for 40nm node low-K/ULK wafer