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Flip chip plastic ball grid array (FC-PBGA) is unique and has been widely used. During FC-PBGA's practical application, the analysis of its failure mechanisms under high temperature, electricity, water vapor and other comprehensive environmental stress conditions is very important for improving its application reliability. In this paper, with 0.13-μm m/6-level copper-based FPGA with FC-PBGA package, failure mode of the device is exposed under external stress, which is dominated with thermal-mechanical stress generated by high temperature thermal reflow process. And the failure mechanism corresponding to the failure mode is analyzed. Results show that the basic cause of the failure is the thermal-mechanical stress, which is induced by the combination of internal and external reflow temperature difference and high temperature reflow process when assembled. The thermal-mechanical stress makes the solder bumps on the flip chip melt again and bridges the adjacent solder bumps to lead to the device short failure. It also induces crack or delamination in the underfill, crack in solder bump or solder bump fallen off to lead to device open failure. The residual stress on Cu/low-k interconnect structures damages the structure integrity and affects the reliability of FC-PBGA packages.
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Keywords:
- flip chip (FC) /
- plastic ball gate array(PBGA) /
- failure mechanism /
- external stress
[1] Shimoto T, Kikuchi K 2003 NEC Research & Development 44 213
[2] Wang G T, Groothuis S, Ho P S 2003 Proceeding of the Electronic Components and Technology Conf., New Orleans, May27- 30, 2003 p727
[3] Ho P S, Wang G T, Ding M, Zhao J H, Dai X 2004 Microelectronics Reliability 44 719
[4] Banijamali B, Mohammed I, Savalia P 2009 Proceeding of the Electronic Components and Technology Conf., San Diego, May26-29, 2009 p293
[5] Wang G T, Groothuis S, Ho P S 2004 Proceeding of the 42nd Annual Int. Reliability Physics Symp., Phoenix, April 25-30, 2004 p557
[6] Li L, Xue J, Ahmad M, Brillhart M 2006 Proceeding of the Electronic Components and Technology Conf., San Diego, May30- June 02, 2006 p1590
[7] Peng C T, Liu C M, Lin J C, Cheng H C, Chiang K N 2004 IEEE Trans. On Components and Packaging Technologies 27 684
[8] Shimoto T, Kikuchi K, Baba K, Matsui K, Honda H, Kata K 2004 Microelectronic Reliability 44 515
[9] Mercado L L, Kuo S M, Goldberg C, Frear D 2003 IEEE Transactions on advanced packaging 26 433
[10] Tsukada Y, Mashimoto Y 1992 Proceeding of the Surface Mount International Conf., San Jose, August 30-Sept.3, 1992 p294
[11] Lu Y D, He X Q, En Y F, Wang X, Zhuang Z Q 2010 Acta Phys. Sin. 59 3438 (in Chinese)[陆裕东, 何小琦, 恩云飞, 王歆, 庄志强 2010 59 3438]
[12] Komain Z, Amin N, Cheah A Y, Jalar A 2008 Proceeding of the 33rd International Electronics Manufacturing Technology Conf., Penang, Nov. 4-6, 2008 p1
[13] Andideh E, Blaine J, Block C, Jin B, Scherban T, Sun B 2001 Proceeding of the IEEE International Interconnect Technology Conf., Burlingame, June 4-6, 2001 p257
[14] Tsao P H, Huang C, Lii M J, Tsai N S 2004 Proceeding of the Electronic Components and Technology Conf., Las Vegas, June 1- 4, 2004 p767
[15] Mercado L L, Goldberg C, Kuo S M, Lee T Y, Pozder S K 2003 IEEE Transactions on Device and Material Reliability 3 111
[16] Wang G T, Groothuis S, Merrill C, Ho P S 2004 Intersociety Conf. on Thermal Phenomena Las Vegas, June1-4, 2004 p211
[17] Uchibori C J, Lee M 2009 Proceeding of the IEEE International Interconnect Technology Conf., Sapporo, June 1-3, 2009 p217
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[1] Shimoto T, Kikuchi K 2003 NEC Research & Development 44 213
[2] Wang G T, Groothuis S, Ho P S 2003 Proceeding of the Electronic Components and Technology Conf., New Orleans, May27- 30, 2003 p727
[3] Ho P S, Wang G T, Ding M, Zhao J H, Dai X 2004 Microelectronics Reliability 44 719
[4] Banijamali B, Mohammed I, Savalia P 2009 Proceeding of the Electronic Components and Technology Conf., San Diego, May26-29, 2009 p293
[5] Wang G T, Groothuis S, Ho P S 2004 Proceeding of the 42nd Annual Int. Reliability Physics Symp., Phoenix, April 25-30, 2004 p557
[6] Li L, Xue J, Ahmad M, Brillhart M 2006 Proceeding of the Electronic Components and Technology Conf., San Diego, May30- June 02, 2006 p1590
[7] Peng C T, Liu C M, Lin J C, Cheng H C, Chiang K N 2004 IEEE Trans. On Components and Packaging Technologies 27 684
[8] Shimoto T, Kikuchi K, Baba K, Matsui K, Honda H, Kata K 2004 Microelectronic Reliability 44 515
[9] Mercado L L, Kuo S M, Goldberg C, Frear D 2003 IEEE Transactions on advanced packaging 26 433
[10] Tsukada Y, Mashimoto Y 1992 Proceeding of the Surface Mount International Conf., San Jose, August 30-Sept.3, 1992 p294
[11] Lu Y D, He X Q, En Y F, Wang X, Zhuang Z Q 2010 Acta Phys. Sin. 59 3438 (in Chinese)[陆裕东, 何小琦, 恩云飞, 王歆, 庄志强 2010 59 3438]
[12] Komain Z, Amin N, Cheah A Y, Jalar A 2008 Proceeding of the 33rd International Electronics Manufacturing Technology Conf., Penang, Nov. 4-6, 2008 p1
[13] Andideh E, Blaine J, Block C, Jin B, Scherban T, Sun B 2001 Proceeding of the IEEE International Interconnect Technology Conf., Burlingame, June 4-6, 2001 p257
[14] Tsao P H, Huang C, Lii M J, Tsai N S 2004 Proceeding of the Electronic Components and Technology Conf., Las Vegas, June 1- 4, 2004 p767
[15] Mercado L L, Goldberg C, Kuo S M, Lee T Y, Pozder S K 2003 IEEE Transactions on Device and Material Reliability 3 111
[16] Wang G T, Groothuis S, Merrill C, Ho P S 2004 Intersociety Conf. on Thermal Phenomena Las Vegas, June1-4, 2004 p211
[17] Uchibori C J, Lee M 2009 Proceeding of the IEEE International Interconnect Technology Conf., Sapporo, June 1-3, 2009 p217
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