Laser grooving characterization for dicing defects reduction and its challenges

Shi, Koh Wen; Beng, Lau Teck; Yow, K. Y.

doi:10.1109/eptc.2009.5416427

Cited by 8 publications

(4 citation statements)

References 8 publications

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“…(9)(10)(11) The initial experiment focuses on the laser power parameter with the experimental conditions summarized in Table 1. Ten conditions of 0.1 to 1.0 W were processed with speed fixed at 100 mm/s at high frequency.…”

Section: Methodsmentioning

confidence: 99%

Design of UV Laser Parameters on Grooving Depth for Die Attach Film

2018

Sensors and Materials

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A die attach film (DAF) is a material that is used to attach dies to a substrate or lead frame during the die attach manufacturing step in the semiconductor IC assembly process, and the DAF UV laser half cut is a manufacturing step in the semiconductor IC assembly process, and the cutting performance affects the die bond chip pickup yield. Therefore, the optimization of laser half cut parameters is very important. In this work, different laser parameters were studied to find the significant factor parameters followed by the fine tuning of the optimization condition. Experimental results showed that the laser power and cutting feed speed are the significant parameters for achieving laser cutting quality. According to the design of experiment (DOE) results, in the laser power range of 0.5-0.8 W, the cutting feed speed range is 45-65 mm/s and the grooving depth is 15-20 µm, which are the optimized conditions of a 20-µm-thick DAF.

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Section: Methodsmentioning

confidence: 99%

Design of UV Laser Parameters on Grooving Depth for Die Attach Film

2018

Sensors and Materials

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“…Another meaning of laser grooving is a thermal energy based process and there is no direct tool-to-work piece contact. It uses a focused high-energy laser to transfer thermal energy to the wafer, which is absorbed by the topmost low thermal energy ILD metal layers [6][7][8]. These metal layers then heat up and melt into molten and vaporized solids, which can be removed by directional flow of air pressure.…”

Section: Assembly Process Flowmentioning

confidence: 99%

“…Worth noting is that continuous process and design improvement is really important to foster and sustain high quality performance of semiconductor products and its assembly manufacturing. Studies in [6][7][8][11][12] are helpful in reinforcing robustness and optimization of assembly processes.…”

Section: Conclusion and Recommenda-tionsmentioning

confidence: 99%

Package Design Improvement for Wire Shorting Resolution

Sumagpang¹,

Graycochea²,

Gomez³

2020

JERR

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New devices and new technologies in semiconductor industry are getting more complex in terms of package layout, direct materials, and process capability. With the package design complexity, several issues are encountered during the development, and in turn affecting the overall yield of the package. The paper discusses the modification and improvement done on the bond/lead finger where the wire has issues on shorting with the soldermask during wirebonding process. With the design improvement, occurrence of wire shorting to soldermask would be mitigated.

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“…The conventional diamond blade sawing has been widely used in semiconductor in semi-conductor industry to manufacture singulated ICs [4]. However, this well established dicing technique faces challenges to process next generation of low-k wafer with line pitch down to 90-, 45-, 32-and 22-nm.…”

Section: Introductionmentioning

confidence: 99%

Application of Pico-Second Laser on Low-K Wafer Dicing

Chao²

2013

AMM

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Moore’s law by scaling conventional CMOS involves huge lots of technology evolution in both aspects of electronics material and micromachining. One of the most promising modern innovations is the 3D IC and the key material to the 3D IC is the low-K (dielectric) materials. Since the new generation low-K material is rather porous and fragile in structure strength, conventional singulation methods including the dicing saw and nano-second laser can not be applied. New machine modality has to be used to avoid the cracking and excessive debris contamination. In this paper we demonstrate the application of pico-second laser on the grooving machining of low-K wafer. The results show that the removal of low-K material is up to the production standard: smooth groove bottom with minimal debris. However, as the groove line involves metal pads the laser power is partially consumed by the ablation of the metallic material the depth is not controlled ideally. With proper adjustment of the machine parameter such as laser power, focal depth and pulse energy the problem can be resolved.

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Laser grooving characterization for dicing defects reduction and its challenges

Cited by 8 publications

References 8 publications

Design of UV Laser Parameters on Grooving Depth for Die Attach Film

Design of UV Laser Parameters on Grooving Depth for Die Attach Film

Package Design Improvement for Wire Shorting Resolution

Application of Pico-Second Laser on Low-K Wafer Dicing

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