Effect of Design Parameters on Drop Test Performance of Wafer Level Chip Scale Packages (WLCSP)

Tumne, Pushkraj; Venkatadri, Vikram; Kudtarkar, S.; DeLaus, M.; Santos, Daryl; Havens, Ross; Srihari, K.

doi:10.1115/ipack2011-52078

ASME 2011 Pacific Rim Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Systems, MEMS 2011

DOI: 10.1115/ipack2011-52078

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Effect of Design Parameters on Drop Test Performance of Wafer Level Chip Scale Packages (WLCSP)

Pushkraj Tumne

Vikram Venkatadri

S. Kudtarkar

et al.

Abstract: Today’s consumer market demands electronics that are smaller, faster and cheaper. To cater to these demands, novel materials, new designs, and new packaging technologies are introduced frequently. Wafer Level Chip Scale Package (WLCSP) is one of the emerging package technologies that have the key advantages of reduced cost and smaller footprint. The portable consumer electronics are frequently dropped; hence the emphasis of reliability is shifting towards study of effects of mechanical shock loading increasing… Show more

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“…The board level reliability is the key issue for WLCSP, especially the drop reliability [15]. Design parameters had a significant effect on the drop performance and played a vital role in influencing the package reliability [16]. Xuejun Fan et al pointed that, for a copper post (or pillar) WLP, wafer level epoxy, which encapsulated copper pillars, served as a compliant layer for solder joint stress reduction under dynamic loading [17].…”

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Drop failure modes of a wafer-level chip-scale packaging

Huang

Liu

Zhao

et al. 2013

2013 14th International Conference on Electronic Packaging Technology

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The present work evaluated the board level reliability of a kind of wafer-level chip-scale packaging (WLCSP). Drop impact tests were conducted to evaluate the lifetime and failure mode of the components before and after thermal cycles from -55 to 125 o C (50, 100, 150 temperature cycles) and high temperature (125 o C) storage (50 h, 100 h, 150 h). Under the peak acceleration of 1500 g and pulse duration of 0.5 ms, no failures were found in all of the components experienced thermal treatments after 300 drops. For the components without thermal treatments, cracks generated after 5000 drops under the shock condition with the peak acceleration of 2900 g and the pulse duration of 0.3 ms. Three kinds of failure modes were observed. The first was resin crack that generated between Cu pad and PCB; the second was internal cracks in the solder joints which generated near the IMC layer on the component side; and the third one was fracture of the Cu pad near the component. Among the above three failure modes, resin cracks most likely occurred during drop tests. The solder joints in the first row that closed to the center of PCB were checked after drop tests. Resin cracks were generally emerged at the two corners of the components. The internal cracks of solder joints tended to occur in the third solder joints, due to the resin cracks in the first and second joints released the impact energy. The cracks in Redistribution Layer (RDL) and fracture of Cu pad near the component least happened and always coexisted with the other two kinds of cracks. From the perspective of locations of components, cracks more easily generated in the components near the edge of PCB.Keywords-Sn-3Ag-0.5Cu solder joint; board-level drop reliability; failure mode; wafer-level chip-scale packaging (WLCSP); intermetallic compound (IMC)

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confidence: 99%

Drop failure modes of a wafer-level chip-scale packaging

Huang

Liu

Zhao

et al. 2013

2013 14th International Conference on Electronic Packaging Technology

View full text Add to dashboard Cite

show abstract

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Effect of Design Parameters on Drop Test Performance of Wafer Level Chip Scale Packages (WLCSP)

Cited by 1 publication

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Drop failure modes of a wafer-level chip-scale packaging

Drop failure modes of a wafer-level chip-scale packaging

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