Electrical Chip-Board Interaction (e-CBI) of Wafer Level Packaging Technology

2017 ◽  
Vol 2017 (1) ◽  
pp. 000325-000330 ◽  
Author(s):  
Wei Zhao ◽  
Mark Nakamoto ◽  
Karthikeyan Dhandapani ◽  
Brian Henderson ◽  
Ron Lindley ◽  
...  
Keyword(s):  
Printed Circuit Board ◽  
Measured Data ◽  
Circuit Board ◽  
Wafer Level ◽  
Test Chip ◽  
Chip Design ◽  
Packaging Technology ◽  
Printed Circuit ◽  
Wafer Level Packaging ◽  
Simulation Results

Abstract Electrical Chip Board Interaction (e-CBI) has emerged as a new risk in chip design as silicon die can directly interact with printed circuit board (PCB) in substrate-less wafer level packaging technology. To assess this risk Qualcomm Technologies, Inc. has converted an existing test chip to wafer level packaging technology. Both the measured data and simulation results show that e-CBI risk is significant and must be carefully managed.

Creep Analysis of Wafer Level Chip Scale Package (WLCSP) With 96.5Sn-3.5Ag and 100In Lead-Free Solder Joints and Microvia Build-Up Printed Circuit Board

2000 ◽  
Author(s):  
John H. Lau ◽  
Stephen H. Pan ◽  
Chris Chang
Keyword(s):  
Shear Stress ◽  
Printed Circuit Board ◽  
Circuit Board ◽  
Lead Free ◽  
Lead Free Solder ◽  
Wafer Level ◽  
Shear Creep ◽  
Printed Circuit ◽  
Chip Scale Package ◽  
Free Solder

Abstract In this study, time-temperature-dependent nonlinear analyses of lead-free solder bumped wafer level chip scale package (WLCSP) on printed circuit board (PCB) assemblies subjected to thermal cycling conditions are presented. Two different lead-free solder alloys are considered, namely, 96.5wt%Sn-3.5wt%Ag and 100wt%In. The 62wt%Sn-36wt%Pb-2wt%Ag solder alloy is also considered to establish a baseline. All of these solder alloys are assumed to obey the Garofalo-Arrhenius steady-state creep constitutive law. The shear stress and shear creep strain hysteresis loops, shear stress history, and shear creep strain history at the corner solder joint are presented for a better understanding of the thermal-mechanical behaviors of lead-free solder bumped WLCSP on PCB assemblies. Also, the effects of microvia build-up PCB on the WLCSP solder joint reliability are investigated.

On the Way from Fan-out Wafer to Fan-out Panel Level Packaging

2016 ◽  
Vol 2016 (S2) ◽  
pp. S1-S23 ◽  
Author(s):  
Karl-Friedrich Becker ◽  
Tanja Braun ◽  
S. Raatz ◽  
M. Minkus ◽  
V. Bader ◽  
...  
Keyword(s):  
Flip Chip ◽  
Printed Circuit Board ◽  
Layer Structure ◽  
Form Factors ◽  
Circuit Board ◽  
Wafer Level ◽  
Wafer Level Packaging ◽  
Bga Packages ◽  
Wire Bonds ◽  
Near Future

Fan-out Wafer Level Packaging (FOWLP) is one of the latest packaging trends in microelectronics. The technology has a high potential in significant package miniaturization concerning package volume but also in thickness. Main advantages of FOWLP are the substrate-less package, lower thermal resistance, higher performance due to shorter interconnects together with direct IC connection by thin film metallization instead of wire bonds or flip chip bumps and lower parasitic effects. Especially the inductance of the FOWLP is much lower compared to FC-BGA packages. In addition the redistribution layer can also provide embedded passives (R, L, C) as well as antenna structures using a multi-layer structure. It can be used for multi-chip packages for System in Package (SiP) and heterogeneous integration. Manufacturing is currently done on wafer level up to 12″/300 mm and 330 mm respectively. For higher productivity and therewith lower costs larger form factors are forecasted for the near future. Instead of following the wafer level approach to 450 mm, panel level packaging will be the next big step. Sizes for the panel could range up to 18″×24″ or even larger influenced by different technologies coming from e.g. printed circuit board, solar or LCD manufacturing. However, an easy upscaling of technology when moving from wafer to panel level is not possible. Materials, equipment and processes have to be further developed or at least adapted. An overview of state of technology for panel level packaging will be presented and discussed in detailed.

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