CN109690765A - 半导体装置 - Google Patents
半导体装置 Download PDFInfo
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- CN109690765A CN109690765A CN201780055573.6A CN201780055573A CN109690765A CN 109690765 A CN109690765 A CN 109690765A CN 201780055573 A CN201780055573 A CN 201780055573A CN 109690765 A CN109690765 A CN 109690765A
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Abstract
半导体装置(1)具备:半导体元件(2);支承体(3),是在最表面(35)具有金属化层(34)的金属部件,且配置为所述最表面与所述半导体元件相对置,所述金属化层(34)含有铁族元素即第一成分和铬以外的周期表第5族或第6族过渡金属元素即第二成分;接合件(4),配置在所述支承体的所述最表面与所述半导体元件之间,并设置为通过与所述最表面接合而将所述半导体元件固定于所述支承体;模塑树脂(6),设置为将所述支承体和所述接合件和所述半导体元件的接合体(S)覆盖。
Description
关联申请的相互参照
本申请基于2016年9月12日申请的日本专利申请第2016-177873号、以及2017年9月7日申请的日本专利申请第2017-172030号,在此参照引用它们的记载内容。
技术领域
本发明涉及具备半导体元件的半导体装置。
背景技术
已知有一种半导体装置,其通过将半导体元件和对其进行支承的支承体(例如支承基板、散热板、热沉等)进行树脂模塑而形成。关于这种半导体装置,日本特开2003-124406号公报提出了在半导体元件及热沉的表面配置聚酰胺树脂层的结构。根据该结构,半导体元件及热沉与模塑树脂之间的粘接力提高。因此,根据该结构,即使在高温下也能够抑制半导体元件及热沉与模塑树脂发生剥离。
发明内容
关于这种半导体装置,要求兼顾相对于支承体将半导体元件进行固定的贴片(dieattach)部的耐热可靠性和树脂模塑部的耐热可靠性。
根据本发明的一个方面,半导体装置具备:半导体元件;支承体,在最表面具有金属化层,配置为所述最表面与所述半导体元件相对置,所述金属化层含有铁族元素即第一成分和铬以外的周期表第5族或第6族过渡金属元素即第二成分;接合件,配置在所述支承体的所述最表面与所述半导体元件之间,并设置为通过与所述最表面接合而将所述半导体元件固定于所述支承体;模塑树脂,设置为将所述支承体与所述接合件与所述半导体元件的接合体覆盖。
在上述结构中,构成所述支承体的所述最表面的所述金属化层,与所述接合件(例如含银的烧结体层)接合,并且被所述模塑树脂覆盖。本申请的发明人经过深入研究发现:通过使所述金属化层含有铁族元素即所述第一成分、以及铬以外的周期表第5族或第6族过渡金属元素即所述第二成分,能够良好地确保夹着所述接合件的所述半导体元件与所述支承体的接合部即贴片部的耐热可靠性、以及利用所述模塑树脂将所述支承体覆盖的部分即树脂模塑部的耐热可靠性。
此外,权利要求所记载的各部分的括弧内的符号用于表示该部分与后述的实施方式所记载的具体部分的对应关系的一例。
附图说明
图1是表示实施方式的半导体装置的概略结构的侧剖视图。
图2A是表示实施例及比较例的树脂模塑部的粘接强度评价用的测试件的结构的侧剖视图。
图2B是表示实施例及比较例的贴片部的接合强度评价用的测试件的结构的侧剖视图。
图3是表示实施例及比较例的评价结果的图表。
图4是表示实施例及比较例的评价结果的表。
图5是表示变形例的半导体装置的概略结构的侧剖视图。
具体实施方式
以下参照附图对实施方式进行说明。此外,在以下的说明中,对于在实施方式与后述变形例之间彼此相同或等价的部分标记相同符号,只要没有技术上的矛盾,则能够将在先实施方式的说明适当地用于后述变形例。
(结构)
参照图1,半导体装置1具备半导体元件2、支承体3、接合件4、底层5、模塑树脂6。
半导体元件2是适于高温工作的SiC器件,形成为薄板状。以下,为了简化说明,将图1中的上方简称为“上方”,将图1中的下方简称为“下方”。即,图1中的上下方向与薄板状的半导体元件2的厚度方向平行。半导体元件2的一个主面即上表面21和另一个主面即下表面22设置为彼此平行。
支承体3是作为散热板发挥功能的板状的金属部件,与半导体元件2的下表面22相对置地配置。支承体3的主体部31由铜制的板材形成。主体部31的一个主面即外表面32(即图中下侧的表面)设置为露出到模塑树脂6的外部,以便能与未图示的热沉接合。
主体部31的另一个主面即内表面33被金属化层34覆盖。在本实施方式中,金属化层34是构成支承体3的最表面35的镀层,最表面35与半导体元件2相对置。
本实施方式中的金属化层34由含有第一成分和第二成分的金属薄膜形成,该第一成分是铁族元素(即铁、钴或镍),该第二成分是铬以外的周期表第5族或第6族过渡金属元素(即钼、钨、钒、铌或钽)。具体而言,在本实施方式中,金属化层34具有与支承体3的内表面33密接的作为基底层的镍镀层、以及在该镍镀层之上形成的合金镀层。构成支承体3的最表面35的上述合金镀层含有上述第一成分和第二成分。
接合件4设置为,配置在支承体3的最表面35与半导体元件2之间,通过与最表面35接合而将半导体元件2固定于支承体3。在本实施方式中,接合件4是含银的烧结体层,通过对银膏进行热处理而形成。
底层5是为了使支承体3与模塑树脂6的粘接性提高而设置的合成树脂层,配置在支承体3的最表面35与模塑树脂6之间。即,底层5与支承体3的最表面35中的与接合件4接合的部位以外的部分粘接。在本实施方式中,底层5由含有酰亚胺基的芳香族类聚合物(例如聚酰亚胺、聚酰胺酰亚胺等)形成。模塑树脂6是含有环氧类树脂和/或马来酰亚胺类树脂的封固树脂,设置为从半导体元件2侧将支承体3与接合件4与半导体元件2的接合体S覆盖。
(效果)
在上述结构中,构成支承体3的最表面35的金属化层34与接合件4直接接合,并且隔着底层5而被模塑树脂6覆盖。在以下的说明中,将夹着接合件4的半导体元件2与支承体3的接合部称为“贴片部”。并且,将利用模塑树脂6将接合体S覆盖的结构中的、支承体3与模塑树脂6相对置的部分(即利用模塑树脂6将支承体3覆盖的部分)称为“树脂模塑部”。
如上所述,作为半导体元件2,近年广泛采用了适合高温工作的半导体器件(例如SiC器件等)。该半导体器件例如适于用作在混合动力车用功率控制单元等的功率模块中搭载的功率半导体器件。关于搭载有该半导体器件的模块(即功率模块等),要求安装结构的高耐热性。因此,需要兼顾贴片部的耐热可靠性和树脂模塑部的耐热可靠性。
从贴片部的耐热可靠性的观点出发,适合采用银膏烧结体作为接合件4。但是,银膏烧结体与Ni金属化层及Au金属化层(例如镍镀层、NiAu镀层等)的接合性不佳。因此,优选的是,支承体3的最表面35由银金属化层(例如NiAg镀层等)形成。另一方面,银金属化层与构成底层5的合成树脂、以及构成模塑树脂6的合成树脂的粘接性(尤其是高温下的粘接强度)不佳。相对于此,Ni金属化层及Au金属化层与这些合成树脂的粘接性良好。
本申请的发明人对能够确保贴片部的耐热可靠性以及树脂模塑部(即支承体3的最表面35与底层5之间的粘接部)的耐热可靠性的金属化层34的结构进行了仔细研究。结果发现使金属化层34的至少构成最表面35的部分含有铁族元素即第一成分、以及铬以外的周期表第5族或第6族过渡金属元素即第二成分的结构是有效的。以下,与比较例的评价结果进行对比来说明实施例的评价结果。
本申请的发明人利用图2A所示的测试件70,利用剪切试验机测定剪切强度,从而对树脂模塑部的粘接强度进行了评价。如图2A所示,树脂模塑部的粘接强度评价用的测试件70包括支承台71、金属化层72、底层73和块部74。支承台71相当于图1所示的半导体装置1中的支承体3的主体部31,由铜板形成。金属化层72是相当于图1所示的半导体装置1中的金属化层34的、实施例或比较例的金属化层,形成在支承台71上。底层73相当于图1所示的半导体装置1中的底层5,形成在金属化层72上。即,底层73是聚酰亚胺膜,与金属化层72直接接合。块部74相当于图1所示的半导体装置1中的树脂模塑6,固定在底层73上。
另外,本申请的发明人利用图2B所示的测试件80,以与上述同样的方法,对贴片部的接合强度进行了评价。如图2B所示,贴片部的接合强度评价用的测试件80包括支承台81、基材侧金属化层82、接合件层83、块部84、块部侧金属化层85。支承台81与图2A所示的测试件70中的支承台71是同样的,由铜板形成。基材侧金属化层82与图2A所示的测试件70中的金属化层72是同样的。即,基材侧金属化层82是相当于图1所示的半导体装置1中的金属化层34的、实施例或比较例的金属化层。接合件层83是与图1所示的半导体装置1中的接合件4对应的银膏烧结体。块部84是模拟图1中的半导体元件2的铜制块部。在块部84的下表面即接合件层83侧的面,形成有块部侧金属化层85,该块部侧金属化层85是与设在支承台81上的基材侧金属化层82同样的金属化层。即,块部84隔着块部侧金属化层85以及接合件层83,与形成在支承台81上的基材侧金属化层82接合。
图3中,柱状图表示在接合初期和热耐久后(即在250℃下放置500小时后)对常温下的贴片部的接合强度进行测定的结果。另外,纵线图表示对高温下(即225℃)的树脂模塑部的粘接强度进行测定的结果。
在图3中,NiP/CoWP表示实施例的金属化层即NiP/CoWP镀层(即在基底的非电解镍镀层之上形成有非电解CoW合金镀层的结构)的评价结果。NiP/Au表示比较例的金属化层即NiP/Au镀层(即在基底的非电解镍镀层之上形成有金镀层的结构)的评价结果。NiP/Ag表示比较例的金属化层即NiP/Ag镀层(即在基底的非电解镍镀层之上形成有银镀层的结构)的评价结果。
由图3的评价结果可知,比较例的金属化层即NiP/Au镀层的情况下,高温下的树脂模塑部的粘接强度良好。但是,在热耐久后贴片部的接合强度大幅降低。即,比较例的金属化层即NiP/Au镀层的情况下,贴片部的耐热可靠性不足。另一方面,比较例的金属化层即NiP/Ag镀层的情况下,贴片部的耐热可靠性良好。但是,高温下的树脂模塑部的粘接强度不足。相对于此,根据实施例的金属化层即NiP/CoWP镀层,高温下的树脂模塑部的粘接强度、以及贴片部的耐热可靠性均为良好。
在图4中,比较例1的金属化层是NiP镀层(即非电解镍镀层)。比较例2的金属化层是上述的NiP/Au镀层。比较例3的金属化层是NiP/PdP/Ag镀层(即在基底的非电解镍镀层之上形成有非电解钯镀层及金镀层的结构)。实施例1的金属化层是上述的NiP/CoWP镀层。实施例2的金属化层是NiP/NiWP镀层(即在基底的非电解镍镀层之上形成有非电解NiW合金镀层的结构)。实施例3的金属化层是Ni/CoW层。实施例4的金属化层是Ni/NiW层。
在图4所示的贴片部的耐热可靠性的评价结果中,将通过下式算出的“剪切强度比”为0.7以上的情况设为OK,将0.5以下的情况设为NG。
剪切强度比=(热耐久后的剪切强度)/(接合初期的剪切强度)
图4所示的树脂粘接强度(即高温下的树脂模塑部的粘接强度)的评价结果中,使用了下述的评价指标。
·OK:225℃的剪切强度为15MPa以上的情况
·NG:225℃的剪切强度为10MPa以下、或225℃的剪切破坏模式为中间层72与接合层73的粘接界面处的剥离的情况
由图4的评价结果可知,关于比较例1和比较例2的金属化层,高温下的树脂模塑部的粘接强度良好。但是,贴片部的耐热可靠性不足。另一方面,关于比较例3的金属化层,贴片部的耐热可靠性良好。但是,高温下的树脂模塑部的粘接强度不足。相对于此,关于实施例1~实施例4的金属化层,高温下的树脂模塑部的粘接强度、以及贴片部的耐热可靠性均为良好。
此外,在上述的各实施例中,作为第二成分,都采用了钨。另外,包含钨的周期表第6族过渡金属元素和铌等周期表第5族过渡金属元素是族编号相邻的过渡金属元素,单质金属中的晶格结构相同。因此,从环保的观点来看,通过将除了铬以外的可天然产出的周期表第5族或第6族过渡金属元素用作第二成分,能够期待与上述实施例同样的效果。
尤其是,钨、钼、铌以及钽彼此的晶格常数接近,彼此完全固溶、都构成酸性氧化物等化学性质近似。因此,通过将周期表第5族~第6族过渡金属元素中的第5~第6周期的元素用作第二成分,能够获得上述那样的良好效果。此外,能够与非电解铜镀液所含的铜进行置换镀且对铜具有阻隔性的钨或铌是优选的。钨和铌的内聚能大,因此认为能够通过添加来提高耐热性。
(变形例)
本发明并不限定于上述实施方式,能够对上述实施方式适当地进行变更。以下对代表性的变形例进行说明。在以下的变形例的说明中,仅针对与上述实施方式不同的部分进行说明。
本发明并不限定于在上述实施方式中示出的具体的装置结构。例如可以省略底层5。即,依次层叠了半导体元件2、接合件4和支承体3而成的接合体S可以不经由底层5而被模塑树脂6直接封固。
金属化层34并不限定于上述具体例那样的二层结构。即,例如,金属化层34也可以是三层以上的多层结构。或者,如果能够获得对铜的良好阻隔性、以及对支承体3的内表面33的良好成膜性,则金属化层34也可以是一层结构。具体而言,例如,上述的具体例中的NiP/CoWP二层镀可以变更为一层的Ni-Co-W-P合金镀。或者,上述的各具体例中的基底镍镀层可以省略。此外,在与上述的实施例1和实施例2对应的组成中,为了非电解镀处理的方便而含有磷,但是本发明并不限定于含磷的组成。即,鉴于不仅是上述的实施例1和实施例2而且在比较例中也含磷、以及实施例3和实施例4为不含磷的组成,可知利用不含磷的组成的(即例如通过电解镀而形成的)金属化层34也能够很好地获得本发明的效果。
金属化层34的形成方法并不限定于镀覆。即,金属化层34也可以通过CVD等气相成膜法良好地形成。CVD是Chemical Vapor Deposition的缩写。
支承体3可以是DBC基板或DBA基板。DBC是Direct Bonded Copper的缩写。DBA是Direct Bonded Aluminum的缩写。或者,支承体3可以是铜板等散热板与DBC基板或DBA基板的接合体。
如图5所示那样,支承体3及接合件4不仅可以安装在半导体元件2的上表面21,而且也可以安装在下表面22。即,支承体3及接合件4可以分别安装在半导体元件2的上表面21和下表面22。
变形例也并不限定于上述的例示。另外,多个变形例可以相互组合。此外,上述实施方式的全部或一部分、以及变形例的全部或一部分可以相互组合。
Claims (6)
1.一种半导体装置(1),其特征在于,
具备:
半导体元件(2);
支承体(3),在最表面(35)具有含有第一成分和第二成分的金属化层(34),所述最表面与所述半导体元件相对置地配置,所述第一成分是铁族元素,所述第二成分是铬以外的周期表第5族或第6族过渡金属元素;
接合件(4),配置在所述支承体的所述最表面与所述半导体元件之间,并且设置为,通过与所述最表面接合而将所述半导体元件固定于所述支承体;以及
模塑树脂(6),设置为,将接合体(S)覆盖,所述接合体是所述支承体和所述接合件和所述半导体元件的接合体。
2.根据权利要求1所述的半导体装置,其特征在于,
所述接合件是含银的烧结体层。
3.根据权利要求1或2所述的半导体装置,其特征在于,
还具备在所述支承体的所述最表面与所述模塑树脂之间设置的作为合成树脂层的底层(5)。
4.根据权利要求3所述的半导体装置,其特征在于,
所述底层由含有酰亚胺基的芳香族类聚合物形成。
5.根据权利要求1~4的任一项所述的半导体装置,其特征在于,
在所述半导体元件的上表面(21)和下表面(22)分别安装有所述接合件以及所述支承体。
6.根据权利要求1~4的任一项所述的半导体装置,其特征在于,
所述金属化层还含有磷。
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