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OSP.ENIG 표면 처리된 기판과 Sn-3.0Ag-0.5Cu 솔더 접합부의 낙하충격 신뢰성 평가
하상옥,하상수,이종범,윤정원,박재현,추용철,이준희,김성진,정승부,Ha, Sang-Ok,Ha, Sang-Su,Lee, Jong-Bum,Yoon, Jeong-Won,Park, Jai-Hyun,Chu, Yong-Chul,Lee, Jun-Hee,Kim, Sung-Jin,Jung, Seung-Boo 한국마이크로전자및패키징학회 2009 마이크로전자 및 패키징학회지 Vol.16 No.1
전자 기기 제품들이 소형화 및 휴대화 되면서 낙하충격 신뢰성에 대한 관심이 높아지고 있다. 본 연구에서는 대표적인 무연솔더인 Sn-3.0Ag-0.5Cu 솔더를 이용하여 ENIG (Electroless Nickel Iimmersion Gold), OSP (Organic Solderability Preservative) 표면 처리와 등온 시효 시험 (High Temperature Storage test)에 따른 보드 레벨 패키지 (board level package)의 낙하충격 신뢰성 (drop reliability) 시험을 수행하였다. 또한 충격 조건을 변화시켜 시편에 가해지는 가속도 (G:acceleration)와 충격 지속 시간 (pulse duration)에 따른 신뢰성을 평가하였다. 기판의 strain측정 결과 중앙 부위가 가장 응력이 컸으며, 충격가속도에 비례하여 응력이 증가하였다. 시효 처리 전에는 OSP처리된 기판이 다소 우수한 신뢰성을 보였지만, 시효 처리후에는 ENIG기판에서 신뢰성이 우수하였고, 반대로 OSP는 감소하는 경향을 보였다. OSP의 경우 과도한 금속간화합물 (intermetallic compound)의 성장으로 인해 접합 계면에서 취성파괴 (brittle fracture)가 일어난 것을 관찰할 수 있었다. The use of portable devices has created the need for new reliability criterion of drop impact tests because of the tendency to accidentally drop in the use of these devices. The effects of different PCB surface finishes (organic solderability preservative (OSP) and electroless nickel immersion gold (ENIG)) and high temperature storage (HTS) test on the drop reliability were studied. Various drop test conditions were used to evaluate a drop reliability of assemblies to endure such impact and shock load. In the case of the as-reflowed samples (no HTS test), the SAC/OSP boards exhibited a better drop impact reliability than that of SAC/ENIG. However, the reverse was true if HTS test is performed. In addition, significant decrease of drop reliability was observed for both SAC/ENIG and SAC/OSP assemblies after HTS test. It was also observed that the thickness of intermetallic compound layer do play an important role in the brittle fracture of drop test.
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하상수,윤정원,고민관,김대곤,김성진,홍태환,정승부,하상옥,김종웅 대한금속·재료학회 2009 METALS AND MATERIALS International Vol.15 No.4
This study investigated the microstructural evolution and evaluated the thermo-mechanical reliability of a Sn-3.0Ag-0.5Cu (in wt.%) flip chip package during a thermal shock test. The reliability of the flip chip bonded packages was evaluated by means of the thermal shock in the temperature range of 233 K to 398 K. After 250 thermal shock cycles, cracks finally occurred at the corner solder bump joint on the chip side interfacial regions. In that, the crack initiated at the solder region near the intermetallic compound (IMC) layers. For the interpretation of the failure mechanism of the package, finite element analyses were conducted. From the finite element analysis or computational simulation result, the distribution of the plastic work in the corner solder bump was found to be most considerable. This means that the corner solder bump has the highest potential for first crack initiation and growth, because the thermo-mechanical failure of the solder joints is mainly caused by the accumulation of the plastic work. This matched well with the experimental results. This study investigated the microstructural evolution and evaluated the thermo-mechanical reliability of a Sn-3.0Ag-0.5Cu (in wt.%) flip chip package during a thermal shock test. The reliability of the flip chip bonded packages was evaluated by means of the thermal shock in the temperature range of 233 K to 398 K. After 250 thermal shock cycles, cracks finally occurred at the corner solder bump joint on the chip side interfacial regions. In that, the crack initiated at the solder region near the intermetallic compound (IMC) layers. For the interpretation of the failure mechanism of the package, finite element analyses were conducted. From the finite element analysis or computational simulation result, the distribution of the plastic work in the corner solder bump was found to be most considerable. This means that the corner solder bump has the highest potential for first crack initiation and growth, because the thermo-mechanical failure of the solder joints is mainly caused by the accumulation of the plastic work. This matched well with the experimental results.
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고속전단 시험을 이용한 Sn-37Pb BGA solder joints의 기계적 신뢰성 특성 평가
장진규,하상수,하상옥,이종근,문정탁,박재현,서원찬,정승부,Jang, Jin-Kyu,Ha, Sang-Su,Ha, Sang-Ok,Lee, Jong-Gun,Moon, Jung-Tak,Park, Jai-Hyun,Seo, Won-Chan,Jung, Seung-Boo 한국마이크로전자및패키징학회 2008 마이크로전자 및 패키징학회지 Vol.15 No.4
본 연구에서는 BGA(Ball Grid Array) 솔더 접합부에 high impact가 가해졌을 경우 접합부의 기계적 특성에 대해서 연구하였다. 시편은 ENIG(Electroless Nickel Immersion Gold) 표면 처리된 FR-4 기판 위에 직경이 500 ${\mu}m$인 Sn-37Pb 솔더볼을 BGA 방식으로 배열하고 리플로우(Reflow)를 통하여 제작하였다. HTS(High Temperature Storage) 테스트를 위해, 시편을 일정한 온도의 $120^{\circ}C$에서 250시간 동안 시효처리(Aging)를 실시하였다. 시효처리 후, 각각의 시편은 고속 전단 시험기(Dage-4000HS)를 이용하여 속도 변수는 0.01, 0.1, 1, 3 m/s로 설정하여 고속전단 시험을 실시하였다. 전단시험 후, 솔더 접합 계면과 파면을 주사전자현미경(Scanning Electron Microscope, SEM)을 통하여 관찰하였다. 솔더 접합 계면에는 $Ni_3Sn_4$의 금속간 화합물이 성장하였으며, 시효처리 후, 솔더 접합 계면에 생성된 금속간 화합물의 두께가 증가하는 것을 관찰 할 수 있었다. 전단 시험 결과, 전단 속도가 빨라짐에 따라 전단 강도값은 증가하는 경향을 나타내었다. 솔더 접합부의 파단은 전단 속도와 시효처리 시간에 따라 다양한 파괴 모드로 진행됨을 알 수 있었다. 또한, 파괴 모드는 연성파괴 형상을 보이다가 전단속도가 증가함에 따라 취성 파괴 형상으로 변하는 것을 알 수 있었다. The mechanical shear strength of BGA(Ball Grid Array) solder joints under high impact loading was investigated. The Sn-37Pb solder balls with a diameter of $500{\mu}m$ were placed on the pads of FR-4 substrates with ENIG(Electroless Nickel Immersion Gold) surface treatment and reflowed. For the High Temperature Storage(HTS) test, the samples were aged a constant testing temperature of $120^{\circ}C$ for up to 250h. After the HTS test, high speed shear tests with various shear speed of 0.01, 0.1, 1, 3 m/s were conducted. $Ni_3Sn_4$ intermetallic compound(IMC) layer was observed at the solder/Ni-P interface and thickness of IMC was increased with aging process. The shear strength increased with increasing shear speed. The fracture surfaces of solder joints showed various fracture modes dependent on shear speed and aging time. Fracture mode was changed from ductile fracture to brittle fracture with increasing shear speed.
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