印制电路信息
印製電路信息
인제전로신식
PRINTED CIRCUIT INFORMATION
2013年
4期
130-135
,共6页
林佳%张亚平%郑仰存%孙俊杰
林佳%張亞平%鄭仰存%孫俊傑
림가%장아평%정앙존%손준걸
Mini-tab%因子分析%球栅阵列%金属线键合%表面涂覆
Mini-tab%因子分析%毬柵陣列%金屬線鍵閤%錶麵塗覆
Mini-tab%인자분석%구책진렬%금속선건합%표면도복
Mini-Tab%Factors Analysis%BGA%Wire-Bonding%Surface Finish
在当今电子加工行业,金属线键合还被大量应用于BGA封装.但随着产品集成度提高,对封装载板的线路加工精度越来越高,线路加工工艺已经由传统的减成法(Tenting)加工工艺,逐渐演变为加成法(MSAP、SAP)等.但是占有最大的市场份额的还是减成法.掌握影响成品金属线键合的印制插头顶部宽度的因素,将有助于载板供应商优化工艺参数,增大成品金属线键合的印制插头的顶部宽度,降低金属线键合不良的风险.文章从数学角度,对成品金属线键合的印制插头横截面建立模型,理论计算影响其顶部宽度的因素.利用mini-tab中的因子分析工具,通过研究相关矩阵和协方差阵的内部依赖关系出发,把一些多个变量归结为少数几个深层次因子.结合因子得分,确定影响打金属线键合的印制插头宽度的关键监控需要因子,再通过DOE试验设计不同金属线键合的印制插头,导出可以控制BGA金属线键合的印制插头顶部宽度的黄金法则,并进行实物分析认证.
在噹今電子加工行業,金屬線鍵閤還被大量應用于BGA封裝.但隨著產品集成度提高,對封裝載闆的線路加工精度越來越高,線路加工工藝已經由傳統的減成法(Tenting)加工工藝,逐漸縯變為加成法(MSAP、SAP)等.但是佔有最大的市場份額的還是減成法.掌握影響成品金屬線鍵閤的印製插頭頂部寬度的因素,將有助于載闆供應商優化工藝參數,增大成品金屬線鍵閤的印製插頭的頂部寬度,降低金屬線鍵閤不良的風險.文章從數學角度,對成品金屬線鍵閤的印製插頭橫截麵建立模型,理論計算影響其頂部寬度的因素.利用mini-tab中的因子分析工具,通過研究相關矩陣和協方差陣的內部依賴關繫齣髮,把一些多箇變量歸結為少數幾箇深層次因子.結閤因子得分,確定影響打金屬線鍵閤的印製插頭寬度的關鍵鑑控需要因子,再通過DOE試驗設計不同金屬線鍵閤的印製插頭,導齣可以控製BGA金屬線鍵閤的印製插頭頂部寬度的黃金法則,併進行實物分析認證.
재당금전자가공행업,금속선건합환피대량응용우BGA봉장.단수착산품집성도제고,대봉장재판적선로가공정도월래월고,선로가공공예이경유전통적감성법(Tenting)가공공예,축점연변위가성법(MSAP、SAP)등.단시점유최대적시장빈액적환시감성법.장악영향성품금속선건합적인제삽두정부관도적인소,장유조우재판공응상우화공예삼수,증대성품금속선건합적인제삽두적정부관도,강저금속선건합불량적풍험.문장종수학각도,대성품금속선건합적인제삽두횡절면건립모형,이론계산영향기정부관도적인소.이용mini-tab중적인자분석공구,통과연구상관구진화협방차진적내부의뢰관계출발,파일사다개변량귀결위소수궤개심층차인자.결합인자득분,학정영향타금속선건합적인제삽두관도적관건감공수요인자,재통과DOE시험설계불동금속선건합적인제삽두,도출가이공제BGA금속선건합적인제삽두정부관도적황금법칙,병진행실물분석인증.
Nowadays, wire-bonding is still boardly used in the BGA packing. While with the density of the electronic products increase, so does the I/O number, which means the fine pitch requirement of the Substrate becomes more and more urgent. And the traditional process(tenting) is gradually updated to MSAP/SAP etc. However, the tenting process is still holding the most market. Knowing the factors in the wire-bonding finger width will help the substrate vendor optimize the process parameters, increase the width of fingers and decrease the wire-bonding failure. From the side of mathematics, this article establishes the model for the micro-section of wire-bonding finger, analyzes the factors that maybe affect the top width of them. Utilizing the mini-tab can deal with huge date analysis, and we study the relation of the factors with matrix and covariance. Hence, we can just work out the main factors and mark them synthetically. Eventually, we found how the main factors contribute to the width of Au finger, and make the golden formulae for the finger width, then utilize this disciplinarian to optimize manufacture process.
