Flat panel displays (FPDs) are now getting more important role in the application of digital home and personal consumer electronics. For the future mobile application, the lack of flexibility and the decrement of weight will become the major challenges by using the glass substrate. The new choice of substrate material can provide the benefits to make the display become flexible that the current glass substrate is hard to compete with. Herein, we focused on the packaging approach by adopting the newly development technology of rigid-flex packaging by introducing flexible interconnect. There are two packaging approaches we explore the concept for flexible FPDs. One is the stretchable interconnect and the other is ultra thin die attached method. The results show we can achieve the 25% stretchable metal trace on flexible substrate, such as PU or PDMS and the resistance is keeping as low as 5 ohm/cm without any deformation. Besides, by choosing the suitable adhesives, we can also demonstrate the strong reliable interface during the bending test. The reliability test shows the intriguing structure can be applied for the flexible panel displays
[1]
D. Mountain,et al.
Ultra-thin electronic device package
,
1999,
1999 Proceedings. 49th Electronic Components and Technology Conference (Cat. No.99CH36299).
[2]
Eero Ristolainen,et al.
Anisotropic conductive film flip chip joining using thin chips
,
2002,
Microelectron. Reliab..
[3]
E.M. Chow,et al.
Solder-Free Pressure Contact Micro-Springs in High-Density Flip-Chip Packages
,
2005,
Proceedings Electronic Components and Technology, 2005. ECTC '05..
[4]
Tzu-Ying Kuo,et al.
The evaluation of wafer thinning and singulating processes to enhance chip strength
,
2005,
Proceedings Electronic Components and Technology, 2005. ECTC '05..