CN102246261A - 用于密封半导体裸片的系统 - Google Patents
用于密封半导体裸片的系统 Download PDFInfo
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Abstract
本发明描述用于密封半导体裸片的两个系统(100,300)。两个系统(100,300)涉及将具有一个或多于一个孔(104,304)的密封隔离体(102,302,302a,302b)附接在相关联的衬底(150)上,从而一组芯片被定位在所述孔(104,304)中。第一系统(100)涉及将密封剂(103)直接分配到孔中。第二系统(300)涉及将密封剂输送层(350,351)附接到所述密封隔离体上,并通过凹进浇口(308)将密封剂排入孔中。
Description
相关申请
一份对应的PCT专利申请与本案在同一天递交,但该PCT专利申请涉及密封半导体裸片的方法。
技术领域
本发明涉及用于密封半导体裸片的系统,其省去了与喷射模塑法或传递模塑法相关联的型腔模具(cavity mould)。特别是,本发明涉及一种将密封剂排入由设置在相关联的衬底或载体上的密封隔离体限定的型腔中的系统。
背景技术
传统的用于半导体裸片封装的方法涉及粘片过程、打线过程、密封模塑过程、打磨过程和切割过程。传递模塑法典型地用于密封一组半导体裸片以及相应的与导电衬底的打线互连以形成半导体封装体。在所述过程中,导电衬底与打线的裸片一起被放置在分裂型腔(split cavity)的下模板中。通过在衬底的周界处于分裂模板的中间时将上模板夹持到下模板上、将液化的密封剂注入到型腔中并允许密封剂固化,裸片被物理密封并不受外部环境的影响。通过切割半导体封装体,得到单独的半导体芯片。
由于在输送密封剂时所使用的高压,打线中的一些可能被移位或移动为与邻近的打线接触。其它问题在于将贮存池、流槽、浇口和通气口设计为给出足以符合无空隙密封的密封剂流动特性。这些模具是昂贵的且需要不断的清洁以从模具内的通道中移除密封剂。
因此可见,存在对克服现有技术缺点的新的用于密封半导体裸片的系统和方法的需求。
发明内容
下文提出简单总结以提供对本发明的基本理解。该总结不是本发明的广义概述,并不致力于确定本发明的关键特征。而是以概括的形式提出本发明的一些发明概念,作为随后的详细描述的前序。
本发明通过去除与喷射模塑法或传递模塑法相关联的型腔模具而寻求一种简单且成本低廉的用于密封半导体裸片的系统;实际上,制造用于密封隔离体的工具的成本低于用于制造传统的型腔模具的成本。在本发明中,具有简单的滚筒(platen)和压盘(pressure plate)的小巧简单的压机(press)(例如4柱压机)足以用于本发明。在型腔模具的情况下,这些工具通常为简单且平坦的金属部件并避免对不断清洁的需要,并且在使用本发明时这转变到更高的生产力。
在另一实施例中,本发明提供一种用于半导体封装的系统。该系统包括:密封隔离体(102,302),其形状和尺寸适于与衬底/载体(150)匹配;其中,所述密封隔离体(102,302)具有一个或多于一个孔(104,304),从而当所述密封隔离体(102,302)附接到所述衬底/载体(150)时,所述衬底/载体(150)上的半导体裸片(160)被设置在相关联的孔内,并且由所述一个或多于一个孔(104,304)中的每一个和所述衬底/载体限定的容积能用以被填充密封剂(103)。
在一个实施例中,具有多个孔的所述密封隔离体为板的形式;在另一实施例中,具有单个孔的所述密封隔离体为环的形式。在另一实施例中,所述密封隔离体由单层构成;在另一实施例中,所述密封隔离体包括两个或多于两个层。
附图说明
将参照附图通过本发明的非限制性实施例对本发明进行描述,附图中:
图1A例示出根据本发明一实施例的密封系统;
图1B例示出根据在图1A中所示的密封系统的一实施例的密封隔离体;
图2A-2G例示出在使用图1A中所示的密封系统时涉及的各个步骤;
图3A例示出根据本发明另一实施例的密封系统;
图3B例示出根据在图3A中所示的密封系统的一实施例的密封隔离体,图3C例示出与图3B中所示的密封隔离体一起使用的密封剂输送层;
图3D例示出根据图3A中所示的密封系统的另一实施例的密封隔离体,图3E例示出与图3D中所示的密封隔离体一起使用的密封剂输送层;
图4A-4F例示出在使用图3A中所示的密封系统时的各个步骤。
具体实施方式
现在将参照所附附图描述本发明的一个或更多特定且可替换的实施例。然而,对于本领域技术人员来说明显的是,本发明可在没有这种特定细节的情况下实施。一些细节可能没被详细地描述以不会使本发明变得晦涩。为了易于参照,当参照附图中共有的相同或相似的特征时,在全部附图中将使用共用的附图标记或成系列的附图标记。
图1A示出根据本发明一实施例的密封系统100。如图1A中所示,密封系统100由附接到半导体衬底或载体150的密封隔离体102组成。一个或多于一个半导体裸片或芯片160根据衬底/载体上的导电图案附接到衬底/载体150上。裸片/芯片160可为被打线的器件,衬底150为相关联的布线板,比如QFN导线架、柔性衬底、球栅衬底等。密封隔离体102具有多个通孔104。为了描述简单,图1A示出简单的具有一排孔104的密封隔离体102,其中,当密封隔离体102附接到衬底/载体150时,一组裸片/芯片160位于每个孔104内。沿着每个孔104的一侧或多侧存在过流贮存池110。孔104的厚度根据待密封的裸片/芯片160的高度和裸片/芯片顶部的溢出物的量而预先确定。每个过流贮存池110通过通气口114连接到相应的孔104。通过用密封剂103填充孔104、对密封剂施加热和压力以最小化其中的任何空隙空间、允许密封剂固化然后将密封的裸片/芯片切割成单独的封装体,密封系统100提供一种简单且成本低廉的用于形成半导体封装体的方法。
密封隔离体102不必为如图1A中所示的板的形式。在另一实施例中,密封隔离体形成为单独的密封环102的形式。图1B示出密封环102形成为四边形形状,但其在形状上不限于此。如在先前的实施例中,过流贮存池110通过通气口114连接到密封环102的内部。
在密封环102的另一实施例中,存在另外的过流贮存池110a。在一个实施例中,该另外的过流贮存池110a被定位为与过流贮存池110相对。在另一实施例中,该另外的过流贮存池110a为圆形形状,并被定位在密封环的与过流贮存池110相对的角部。在又一实施例中,密封环102具有两种类型的这种另外的过流贮存池110a和相关联的通气口114a。
在一个实施例中,密封隔离体102由金属制成。在另一实施例中,密封隔离体由热塑性塑料制成。密封隔离体可通过传统的机加工、模塑、蚀刻、激光切割或成形方法形成。例如,密封隔离体102可通过对金属片(优选由铜制成)蚀刻而制成。在另一示例中,密封隔离体102可通过掩饰处理一金属片并利用金属(比如铜)对该金属片电镀来形成暴露的金属片而制成。密封隔离体的材料不限于此;可使用任何其他的低成本且易于通过传统的机加工或成形而形成的材料。
在图1A和图1B中,密封隔离体/环102被示出包括单层。在另一实施例中,密封隔离体/环102包括两个或多于两个层,其中相邻的层可利用粘合剂结合。通气口114、114a和过流贮存池110、110a的深度可由组成密封隔离体/环102a的相关层的厚度限定。本实施例的优点在于,形成密封隔离体102的层或者为纯实心的或具有孔104;由此,密封隔离体102的高度可根据待密封的裸片160而配置。
在使用时,密封隔离体102、102a可利用粘合剂安装在衬底150上。图2A至图2G例示出使用上述密封隔离体/环102、102a密封半导体裸片/芯片的过程200。如图2A中所示,裸片/芯片160的组根据衬底上的导电图案被安装210在衬底150上。在图2B中,密封隔离体/环102、102a利用粘合剂118被安装220在衬底150上。然后,密封剂103被分配230到密封隔离体102、102a的每个孔104中或密封环102、102a的内部,直到密封剂103到达密封隔离体/环102、102a的顶部并将通过相应的通气口114、114a过流到过流贮存池110、110a中。密封剂的分配可手动执行或通过配量系统自动地执行。如图2D中所示,在孔被填充后,压力可被施加240到密封剂的表面上。然后,覆盖板130被施加250在密封隔离体/环102、102a的顶部上以覆盖密封剂103。然后,整个组件被设置260在压机内,在该压机中,根据密封环102、102a的孔104或密封环102、102a的内部而确定形状和尺寸的滚筒向密封剂103施加265热和压力。所述热和压力可保持预定时间以允许密封剂103至少部分地固化。图2G示出在过程100的最后被密封到密封隔离体102、102a的孔104内的在衬底150上的裸片160。然后,整个组件可被设置在烘炉内以完全固化密封剂103。在密封剂103完全固化之后,密封的裸片/芯片被切割以形成单独的半导体封装体。
图3A示出根据本发明另一实施例的密封系统300。密封系统300由衬底/载体150、密封隔离体302和密封剂输送层350组成。如图3A中所示,密封隔离体302附接到衬底/载体150,密封剂输送层350相应地附接到密封隔离体302;这种附接可利用粘合剂118。当描述密封系统300的各个部件时,本发明更加清楚。
图3B示出根据本发明一实施例的密封隔离体302。密封隔离体302被例示为细长带,该细长带具有多个孔304。在图3B中,为了更简单的描述,孔304沿细长带的较长尺寸方向排列成一排,但它们不限于此。如同在先前的实施例中,一组半导体裸片/芯片160附接到衬底/载体150,从而裸片/芯片在孔304中被看见,并且密封隔离体302的在孔处的厚度限定围绕裸片/芯片160的密封剂的厚度。
如图3B中所示,在细长带的较短尺寸方向上有四个缺口(relief)320。缺口320的尺寸适于例如在密封剂固化后在密封隔离体302将从衬底/载体150剥离时或者在密封剂输送层350将从密封隔离体302剥离时,提供供四指和拇指抓持的空间。
如图3B中所见,密封隔离体302的右手侧具有比左手侧更大的边缘。在右手边缘中,封闭的假想线306示出在密封剂输送层350附接到密封隔离体302时密封剂103贮存在密封剂输送层350中的位置。如在图3B中所见的在密封隔离体302的后侧的凹进浇口308从封闭的假想线306的内部延伸到相关联的孔304。由另一个假想线限定的平面309穿过凹进浇口308。密封隔离体302的在平面309的右手侧的区域可在密封剂被输送到孔304中且已至少部分地固化之后被断开或切断。如在图3B中所见,在每个孔304的左侧和后侧存在过流贮存池310。通气口314将每个过流贮存池310连接到相应的孔304。
在一个实施例中,密封隔离体302由单层制成。例如,当密封隔离体302是金属制时,形成的层可通过将金属电镀在衬底上而沉积而成,而凹陷或孔可通过掩饰处理和蚀刻暴露的金属表面而形成。在另一实施例中,密封隔离体302a由两个或多于两个层组成;相邻的层可利用粘合剂结合;在另一示例中,相邻的层可层压到一起;凹进浇口308、通气口314和过流贮存池310的深度可由组成密封隔离体302a的相关层的厚度限定。
图3C示出与密封隔离体302、302a一起使用的根据本发明一实施例的密封剂输送层350。如图3A中所示,密封剂输送层350的尺寸适于与密封隔离体302、302a匹配,其中密封剂贮存在贮存池352中。密封输送层350由薄且柔性的塑料组成,但足够坚韧和有弹性以将密封剂保持在贮存池352中。在一示例中,可通过传统的塑料模塑(比如喷射模塑法或传递模塑法)来制造密封剂输送层350。在使用前,密封剂输送层350可由一剥离层覆盖;通过移除该剥离层,密封剂输送层350上的粘合剂被暴露,然后密封剂输送层350可附接到密封隔离体302、302a上。在使用时,密封系统300被放置在压机内,贮存池352上的压力使贮存池塌缩以通过凹进浇口308将密封剂输送到相关联的孔304中,从而密封设置在衬底/载体150上的裸片/芯片160。在围绕裸片/芯片的密封剂已固化之后,密封剂输送层350可被剥离;可替换地,密封隔离体304、304a与密封输送层350一起可在平面309处被断开或切断。
图3D示出根据本发明另一实施例的密封隔离体302b。密封隔离体302b与密封隔离体302、302a相似,不同之处在于凹进浇口308起始于凹进308a。每个凹进308a对应于在图3E中所示的匹配的密封剂输送层351上的分散的密封剂贮存池353。在另一实施例中,围绕凹进308a的区域的形状和尺寸可适于与相关联的密封剂贮存池353重叠,并且围绕凹进浇口308的区域足以依附到密封剂输送层351以允许密封剂被输送到孔304中,从而围绕凹进308a和凹进浇口308的材料是多余的;该多余的材料在被移除时形成开口324。
图4A至图4F例示出使用密封隔离体302、302a、302b密封半导体裸片的过程400。如图4A中所示,裸片160的组根据衬底上的导电图案被安装410到衬底150上。在图4B中,密封隔离体302、302a、302b例如通过粘合剂被安装420到衬底上。在图4C中,密封剂输送层350、351的贮存池或罐装容器352、353被密封剂103填充430。然后在图4D中,密封剂输送层350、351附接到密封隔离体302、302a、302b。然后,整个组件或系统300被设置在压机内,在该压机中,根据孔304确定形状和尺寸的滚筒将热和压力施加440到密封剂103。随后,如图4E中所示,例如通过使压头延伸在贮存池/罐装容器上而使密封剂输送层350、351的贮存池或罐装容器352、353塌缩450。如图4F中所示,所述热和压力可保持预定时间以允许密封剂103至少部分地固化。在密封剂固化且组件从压机移除之后,密封隔离体302、302a、302b和密封剂输送层350、351在密封的裸片被切割以形成单独的半导体封装体之前沿平面309被断开或切断460。可替换地,密封剂输送层350、351在切割以形成单独的半导体封装体之前被移除。
尽管已经描述并例示出特定的实施例,但应该理解,可在不脱离本发明的范围的情况下作出本发明的许多改变、修改、变型和组合。例如,密封隔离体102、102a、302、302a、302b可具有设置在每个过流贮存池110、110a、310旁边的真空通道111、311。每个真空通道111、311可具有用于在需要时连接到真空系统的真空端口312;然后,可在密封剂输送层350、351上提供对应于真空端口312的真空开口362。控制浇口315将过流贮存池连接到相关联的真空通道311。尽管已描述了密封系统300的板布置,但系统300同样适用于与单独的密封环和密封剂输送层351一起使用。
Claims (17)
1.一种用于半导体封装的密封系统(100,300),包括:
密封隔离体(102,302),其形状和尺寸适于与衬底/载体(150)匹配;
其中,所述密封隔离体(102,302)具有一个或多于一个孔(104,304),从而当所述密封隔离体(102,302)附接到所述衬底/载体(150)时,在所述衬底/载体(150)上的半导体裸片(160)被设置在相关联的孔内,并且由所述一个或多于一个孔(104,304)中的每一个和所述衬底/载体限定的容积能用以被填充密封剂(103)。
2.根据权利要求1所述的密封系统,其中,所述一个或多于一个孔(104,304)的形状和尺寸能根据所述衬底/载体上的导电元件的图案来配置。
3.根据权利要求1或2所述的密封系统,进一步包括设置在相关联的孔旁边的过流贮存池,所述过流贮存池通过通气口连接到所述相关联的孔。
4.根据权利要求1至3中任一项所述的密封系统,其中,具有多个孔的所述密封隔离体为板的形式。
5.根据权利要求1至3中任一项所述的密封系统,其中,具有单个孔的所述密封隔离体为环的形式。
6.根据权利要求1至5中任一项所述的密封系统,其中,所述密封剂被分配到所述一个或多于一个孔中以密封相关联的半导体裸片。
7.根据权利要求3至6中任一项所述的密封系统,进一步包括设置在相关联的过流贮存池旁边的真空通道,并且所述真空通道通过控制浇口连接到所述相关联的过流贮存池。
8.根据权利要求7所述的密封系统,其中,真空通道进一步包括用于连接到外部真空系统的真空端口。
9.根据权利要求1至8中任一项所述的密封系统,其中,所述密封隔离体由单层构成。
10.根据权利要求9所述的密封系统,其中,所述密封隔离体与所述衬底整体形成。
11.根据权利要求1至9中任一项所述的密封系统,其中,所述密封隔离体包括两个或多于一个层,并且相邻的层利用粘合剂结合。
12.根据权利要求11所述的密封系统,其中,所述过流贮存池、通气口、真空通道或控制浇口的深度能通过选择所述密封隔离体的相关层的厚度来配置。
13.根据权利要求1至12中任一项所述的密封系统,进一步包括能附接到所述密封隔离体上的密封剂输送层。
14.根据权利要求13所述的密封系统,其中,所述密封剂输送层由柔性塑料制成,并具有用于贮存所述密封剂的贮存池/罐状容器。
15.根据权利要求14所述的密封系统,其中,所述贮存池/罐状容器在施加力以输送所述密封剂时能塌缩。
16.根据权利要求14或15所述的密封系统,进一步包括在所述密封隔离体上的凹进浇口,用于将所述密封剂从在所述密封剂输送层上的所述贮存池/罐状容器输送到相关联的孔。
17.根据权利要求13至16中任一项所述的密封系统,其中,所述密封隔离体进一步包括沿着周界的缺口,所述缺口允许人抓持所述衬底/载体或密封剂输送层。
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- 2009-11-17 TW TW098139239A patent/TWI515842B/zh active
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Also Published As
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WO2010056211A2 (en) | 2010-05-20 |
CN102246262A (zh) | 2011-11-16 |
US20110281403A1 (en) | 2011-11-17 |
TWI502653B (zh) | 2015-10-01 |
CN102246261B (zh) | 2015-08-12 |
US9082775B2 (en) | 2015-07-14 |
WO2010056212A2 (en) | 2010-05-20 |
TWI515842B (zh) | 2016-01-01 |
TW201030861A (en) | 2010-08-16 |
WO2010056211A3 (en) | 2010-07-15 |
WO2010056212A3 (en) | 2010-08-12 |
US20110271902A1 (en) | 2011-11-10 |
TW201030906A (en) | 2010-08-16 |
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