Flip Chip conductive method - connect to Substrate/PCB
1.Metal bump 金屬凸塊-C4 process(IBM)
2. Tape-Automated bonding 卷帶接合-ACF process
3. Anisotropic conductive adhesives
異方向性導電膠 -ACP process
4.Polymer bump 高分子凸塊 - C4 process
5.Stud bump. 打線成球 - ACP process(Matsushita)
C4: controlled collapse chip connection
ACF: anisotropic conductive film
ACP(ACA): anisotropic conductive Adhesive paste
Various flip chip technologies
PS: WIT ( Wire interconnect technology)
TAB(Tape- automated bonding)
Various flip chip technologies
SBB Process
C4: Controlled Collapse Chip Connection Process
ACP: Anisotropic Conductive Paste Process
ACF: Anisotropic Conductive Film Process
Wafer Bump
Metal bump method
1. 蒸鍍 Evaporation?
2. 濺鍍 Sputter?
3. 電鍍 Electroplating
4. 印刷 Printed solder paste bump
5. 錫球焊接 Solder ball bumping or Stud bump bonding (SBB)
6.無電鍍鎳 Electroless nickel technologies
Material of solder bump
1.95Sn/5Pb,97Sn/3Pb 高溫錫鉛合金
2. 63Sn/37Pb 低溫錫鉛合金
3. Ni 鎳
4. Au 金?
5.Cu 銅
Wafer bump (Printed method) Process:Wafer clean
Silicon Wafer arrives with an aluminum based final metal pad and die passivation. Wafer can be probed prior to bumping.
Wafer Bump (Printed method)?Process: Sputter UBM
The Under Bump Metallurgy is added by FCT through sputtered layers of Al,Ni-V,&Cu
Wafer Bump (Evaporation method)
Process: Sputter UBM
UBM consist 3 layer:
1. Adhesion layer : Ti,Cr,TiW 提供鋁墊(Al pad)與護層(Passivation layer)有較強之黏著性
2. Wetting layer:Ni,Cu,Mo,Pt 高溫回焊時錫球可完全沾附而成球
3. Protective layer:Au 保護 Ni,Cu等免于被氧化.
Wafer Bump (Printed method)
Process:Photo-resist
Apply photoresist, Pattern and develop
Wafer Bump (Printed method)
Process: Etch UBM
Etch to form UBM cap
Wafer Bump (Printed method)?
Process: Print solder paste & reflow
Deposit solder paste and reflow to form bump
Wafer Bump (Printed method)
Process: Inspection
Sample measure bump height, bump shear and bump resistance.
The typical size of a bump before reflow :
1. Evaporative bumps are 125 mils in diameter and 100 mils high.
2. Plated bumps are 125 - 175 mils in diameter and 25 -100 mils high.
上芯片流程Flip Chip flow
上芯片流程Flip Chip flow
Why do you need to underfill
填膠制程? Under-fill
1. 毛細作用型 Capillary type):
利用毛細力造成膠材之流動.
2. 異方向導電膠(Anisotropic conductive adhesive):
低溫制程,分膏狀(paste)和膜狀(film)
3. 前置型(Pre-applied type):
小尺寸芯片(<6mm),點膠(Die attachment)后再回焊(Reflow)
制程與材料之限制:
1. 加強快速填膠與固化能力
2. 提升其界面之黏著力
3. 較低的吸水率
4. 提升低錫鉛球間距內的流動性
5. 加強可重工性(rework)
Polymide passivation?Evaporative solder bumping process
UBM:Cr/Cr-Cu/Cu/Au
編輯:黃飛
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