CN104882437A - 半导体器件 - Google Patents

半导体器件 Download PDF

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Publication number
CN104882437A
CN104882437A CN201510217327.9A CN201510217327A CN104882437A CN 104882437 A CN104882437 A CN 104882437A CN 201510217327 A CN201510217327 A CN 201510217327A CN 104882437 A CN104882437 A CN 104882437A
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lettering
semiconductor substrate
back wiring
district
semiconductor device
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坂本吉史
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Lapis Semiconductor Co Ltd
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Lapis Semiconductor Co Ltd
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Abstract

本发明提供一种在W-CSP那样的封装尺寸与半导体芯片大致相同的半导体器件中,能确保更宽的印字区的半导体器件的结构。该半导体器件包含:矩形的半导体基板;多个正面电极,形成在所述半导体基板的正面;多个贯通孔,在所述半导体基板的内部从所述半导体基板的反面到达各个所述正面电极;导电体,覆盖各个所述贯通孔的内壁;反面布线网,设置在所述半导体基板的反面并且与所述导电体连接;绝缘膜,覆盖所述反面布线网;印字标记,不被配置于所述反面布线网的上方,而是形成在所述绝缘膜上的印字区;以及焊锡,与所述反面布线网连接并且与所述印字区邻接。

Description

半导体器件
本申请是申请人为拉碧斯半导体株式会社、发明名称为“半导体器件”、申请日为2009年1月20日、申请号为“200910005615.2”、优先权日2008年04月22日这一母案申请的分案申请。
技术领域
本发明涉及半导体器件,特别是涉及具有晶片级芯片尺寸封装(W-CSP)结构的半导体器件。
背景技术
近年的以带照相功能的移动电话或数字照相机为代表的信息设备的小型化、高密度、高功能化显著发展。作为实现在这些设备上搭载的CCD或CMOS等摄像元件的小型化的技术,公知有实现与芯片尺寸相同的封装的晶片级芯片尺寸封装(以下称作W-CSP)。
W-CSP是在晶片状态下完成全部的组装工序的新概念的封装。W-CSP与FBGA(Fine Pitch Ball Grid Array)同样,在封装的反面具有把端子排列为格子状的外形形状,封装尺寸与芯片尺寸大致相同。
在图1表示使用W-CSP技术制作的图像传感器30的截面结构。在由硅等构成的图像传感器芯片4的正面形成受光部3。受光部3由配置为矩阵状的光电二极管和电荷耦合元件(CCD)构成。在受光部3的正面层叠微透镜阵列3a。在图像传感器芯片4的正面形成与受光部3电连接的焊盘9。在焊盘9各个中电连接有贯通图像传感器芯片4并到达下面的贯通电极10。在贯通电极10和硅芯片之间设置使两者之间绝缘的绝缘膜11。在图像传感器芯片的反面形成反射防止膜23,在其开口部中形成与贯通电极10连接的反面布线13。焊锡凸起12在图像传感器芯片4的反面侧与反面布线13电连接。通过使用焊锡凸起12进行回流焊,将图像传感器30安装在安装基板上。在图像传感器芯片4上,隔着间隙形成玻璃罩6。图像传感器芯片上的空隙由包围受光部3的外周的方式形成的隔离块5形成。隔离块5和玻璃罩6的接合由粘接剂20进行。
通过这样用W-CSP构成图像传感器,不仅能实现装置的小型化、轻量化,不必通过在无尘室内使用倒装片焊接那样的高成本的个别安装方式,就能通过一般的回流焊,即可向安装基板进行安装。
专利文献1:日本特开2007-184680号公报
专利文献2:日本特开2006-73852号公报
一般,在半导体器件的制造工序中,在封装的正面或反面使用激光器描画来进行用于表示产品名称或制造时间、制造批次和特性等的文字、数字和记号等激光印字。由激光印字形成的印字标记,在把半导体器件在安装基板安装时作为用于防止异种元件的混入的识别标记、用装配机装配时的位置识别标记使用,此外,发生问题时用于制造流程的追踪等。可是,在以尽可能缩小封装尺寸为目的的W-CSP中,激光印字引起的弊端令人担心。
即在W-CSP中,从印字面到半导体芯片正面的距离极短,所以有时由于印字标记的形成,使反面布线露出,或者由于激光的热量使反面布线熔化,有可能引起绝缘不良。此外,在具有图像传感器那样的受光部的器件中,在受光区域无法形成印字标记。在W-CSP中,由于该封装的特点,能通过激光印字形成印字标记的区域非常有限,不容易设置印字区。
发明内容
本发明是鉴于所述问题而提出的,其目的在于,提供在W-CSP那样的封装尺寸与半导体芯片大致相同的半导体器件中,能确保更宽的印字区的半导体器件的结构。
本发明的半导体器件包含:矩形的半导体基板;多个正面电极,形成在所述半导体基板的正面;多个贯通孔,在所述半导体基板的内部从所述半导体基板的反面到达各个所述正面电极;导电体,覆盖各个所述贯通孔的内壁;反面布线网,设置在所述半导体基板的反面并且与所述导电体连接;绝缘膜,覆盖所述反面布线网;印字标记,不被配置于所述反面布线网的上方,而是形成在所述绝缘膜上的印字区;以及焊锡,与所述反面布线网连接并且与所述印字区邻接。
优选,在所述半导体器件中,所述印字区是通过激光照射而形成于所述绝缘膜的沟。
优选,在所述半导体器件中,所述焊锡以围绕所述印字区的周围的方式配置。
优选,在所述半导体器件中,所述印字区的外缘的一部分与所述半导体基板的外缘一致。
优选,在所述半导体器件中,所述印字区大小在所述锡焊的间隔以上。
优选,在所述半导体器件中,所述印字区在与所述印字标记形成面平行的方向与所述锡焊分开。
附图说明
图1是以往的具有W-CSP结构的图像传感器的剖面结构图。
图2是本发明实施例的图像传感器的剖面结构图。
图3是本发明实施例的图像传感器的剖面结构图。
图4是本发明实施例的图像传感器的反面侧的俯视图。
图5是比较印字区的配置和印字区的面积的图。
图6是表示本发明实施例的图像传感器的制造工序的剖面图。
图7是表示本发明实施例的图像传感器的制造工序的剖面图。
图8是本发明另一实施例的图像传感器的剖面图。
图9(a)是表示本发明另一实施例的图像传感器的印字区的俯视图,图9(b)是沿着图9(a)的9b-9b线的剖面图。
图中符号的说明:
1—图像传感器;100—半导体基板;102—玻璃基板;105a—贯通电极;105b—反面布线;108—焊锡凸起;110—正面电极;111—绝缘膜;150—保护膜;200—印字标记;300—印字区。
具体实施方式
下面,参照附图说明本发明的实施例。另外,在以下所示的图中,对实质上相同或等价的构成要素或部分标注相同的参照符号。
(实施例1)
图2是本发明实施例1的具有W-CSP结构的图像传感器1的剖面结构图。由单晶硅构成的半导体基板100构成图像传感器1的主体,在其正面形成CMOS电路或者CCD等受光元件140。在半导体基板100上形成像素数目个的多个受光元件,通过设置在外部的透镜等的光学系统,从摄像对象发出的光在受光元件140的受光面成像。受光元件140把与受光的光的强度对应的光电变换信号作为检测输出信号输出。然后,根据受光元件的位置和检测输出信号生成图像数据。
在半导体基板100的正面形成例如由铝等金属构成的正面电极110,通过正面电极110进行检测输出信号的收发或偏置电压的输入。在半导体基板100的正面形成在正面电极110的形成部分具有开口的由聚酰亚胺等构成的钝化膜112,用于保护半导体基板100的正面。
在半导体基板100形成从其反面侧到达正面电极110的贯通孔120。贯通孔120的内壁表面由铜等导电膜覆盖,据此,构成贯通电极105a。贯通电极105a在贯通孔120的底面,与正面电极110电连接。在半导体基板100的反面侧,与贯通电极105a电连接的反面布线105b被伸展。贯通电极105a的侧壁和半导体基板100的反面由绝缘膜111覆盖,据此,使贯通电极105a和反面布线105b及半导体基板100绝缘。半导体基板100的反面由阻焊剂等的绝缘膜106覆盖,确保反面侧的绝缘性。在反面布线105b的终端部,通过在绝缘膜106形成的开口部形成焊锡凸起108。焊锡凸起108经由反面布线105b和贯通电极105a与正面电极110电连接,因此,从半导体基板100的反面侧取出检测输出信号,或者供给偏置电压。焊锡凸起108构成与安装图像传感器1的安装基板的接合部。
在半导体基板100上形成具有光透过性的粘接层101。另外,取代形成光透过性的粘接层,也可以在该区域设置空隙。在粘接层101上形成具有光透过性的玻璃基板102。在玻璃基板102上,为了在图像传感器1的制造工序中对玻璃基板102的正面不带来损伤,粘贴保护膜150。另外,保护膜150是专门为了保护玻璃基板102,在把图像传感器1对安装基板安装之前剥离。
在图像传感器1的反面侧即形成焊锡凸起108的面形成由表示产品名称或制造时间和特性等的文字、数字和记号构成的印字标记200。在覆盖图像传感器1的反面的绝缘膜106上,通过激光印字方式形成印字标记200。通过从激光印字装置照射的激光的功率,在印字标记形成面刻沟,从而形成印字标记200。因此,如果在反面布线105b上进行激光印字,例如在由于制造偏差,绝缘膜106的膜厚变薄时,或者激光印字装置的激光输出被提高时,印字标记的沟到达反面布线105b,其结果使反面布线露出,无法确保绝缘性。因此,在反面布线上无法形成印字标记。
此外,在激光印字中,还有必要考虑基于激光的热量的影响,所以不仅从印字标记形成面到反面布线105b在深度方向的距离,还有必要确保与印字标记形成面平行的方向的距离。即印字标记200的外缘配置在从最近的反面布线105b或焊锡凸起108的形成位置在与印字标记形成面平行的方向至少分开距离L的位置。如图3所示,在反面布线成为多层布线时,在上层的布线105c上不形成印字标记。
图4表示从反面侧观察图像传感器1的俯视图。图像传感器1在制造工艺的最终工序中被分割,单片化为图4所示的芯片状。图像传感器1的反面由绝缘膜106覆盖,在其开口部形成配置为矩阵状的多个焊锡凸起108。另外,在图4中,表示设置在绝缘膜106的下层的贯通电极105a和反面布线105b。贯通电极105a沿着单片化的图像传感器1的周围部配置。在各贯通电极105a与反面布线105b连接,各反面布线105b分别延伸到焊锡凸起108的形成位置。各焊锡凸起108连接在绝缘膜106的终端部。连接从各焊锡凸起108到贯通电极105a之间的反面布线105b分别与其它反面布线彼此不接近地形成确保适当的间隔的布线图案。
在图像传感器1的反面设置多个凸起,在离正面极浅的位置存在反面布线网,所以为了一边确保必要的凸起数量,一边在图像传感器1的反面侧确保印字区,对凸起的排列方式和反面布线的布置进行研究。
在本实施例中,在图像传感器1的反面确保由图4的虚线包围的印字区300。在印字区300内形成表示表示产品名称、制造时间、制造批次等的文字、数字和记号等构成的印字标记200。假定在本实施例中形成的印字标记的大小与焊锡凸起108的间隔为相同程度或其以上。
印字区300如上所述,为了不配置在反面布线的形成区域的上方,避免激光引起的热对相邻的焊锡凸起或反面布线产生不良影响,印字区300的外缘配置在从最近的焊锡凸起或反面布线的形成位置在与印字形成面平行的方向至少分开距离L,所以图中斜线表示的区域从印字区排除。例如,考虑绝缘膜106的膜厚的偏差、激光印字装置的激光功率的偏差等,即使在它们变为最差的情形时,激光印字引起的热等的影响也不波及反面布线或焊锡凸起,由此决定距离L。
在不容易确保印字区的状况下,为了尽可能谋求印字区的扩大,本发明的半导体器件如图4所示,在图像传感器1的周围部配置印字区300。换言之,按照印字区的外缘与单片化的图像传感器芯片的外缘一致的方式配置印字区。通过在芯片周围部配置印字区300,与不伴随着扩大封装尺寸或者焊锡凸起或反面布线的削减将印字区在图像传感器1的中央部配置的情况相比,能够扩大印字区。
图5(a)表示在图像传感器1的反面侧中央部配置印字区300a的情形。即这时,印字区300a成为其周围由焊锡凸起108包围的状态。如上所述,需要将印字区300a的外缘从焊锡凸起108的形成位置在与印字形成面平行的方向至少分开距离L,所以图中斜线表示的区域从印字区排除。即在芯片中央部配置印字区时,构成印字区的外缘的四边全部需要从焊锡凸起108的形成位置后退距离L。作为结果,无法充分确保足够的印字空间,有时无法在印字区300a以预定的文字的尺寸形成预定字数的印字标记。
图5(b)表示在图像传感器1的周围部配置印字区300b的情形。在该图所示的例子中,印字区300b配置在图像传感器1的左侧端部。这时,在印字区300b的左方不存在焊锡凸起或反面布线,关于印字区300b的左侧端部,不需要如图5(a)所示的情形那样后退距离L。其结果,印字区300b的左端部能扩展到芯片左端部,印字区300b的面积能比图5(a)所示的情形的印字区300a的面积大。
在图5(d)表示通过重叠显示印字区300a和印字区300b,比较两者的面积的图。该图的斜线部分是扩大后的部分的面积。通过这样的芯片周围部配置印字区,不伴随着封装尺寸的扩大或焊锡凸起或反面布线的削减,就能扩大印字区。另外,扩大部分的区域除了能充当印字区,还能充当焊锡凸起或反面布线的形成区域。
图5(c)表示在芯片角部配置印字区300c的情形。在该图所示的例子中,印字区300c配置在图像传感器1的左下角部。这时,在印字区300c的左方和下方不存在焊锡凸起或反面布线,关于印字区300c的左端部和下端部,不需要如图5(a)所示的情形那样,后退距离L。其结果,印字区300c的左端部和下端部能分别扩展到芯片左侧端部和下端部,印字区300c的面积能比图5(a)所示的情形的印字区300a的面积大。此外,这时,比图5(b)所示的情形的印字区300b的面积更大。
在图5(d)通过重叠显示印字区300a和印字区300c,比较两者的面积。该图的斜线部分是扩大的部分的面积。通过在芯片周围部,特别是角部配置印字区300c,不伴随着封装尺寸的扩大或焊锡凸起或反面布线的削减,就能扩大印字区。扩大部分的区域除了能充当印字区,还能充当焊锡凸起或反面布线的形成区域。
下面,参照图6(a)~(e)和图7(f)~(i)所示的制造工序图,说明具有所述结构的图像传感器1的制造方法。
首先,准备CMOS电路或CCD等受光元件的形成工序、正面电极形成工序、其它作为形成图像传感器所必需的构成部分的由单晶硅等构成的半导体基板100(图6(a))。
此外,准备在正面粘贴保护膜150的玻璃基板102。保护膜150是为了避免玻璃基板102在制造工序中不损伤,为了保护而设置,覆盖玻璃基板102的上面的整面进行粘贴。接着,在半导体基板100的受光元件形成面涂敷透明粘接层101,粘贴半导体基板100和玻璃基板102(图6(b))。
接着,磨削半导体基板100的反面,从而使半导体基板100的厚度变为预定值(图6(c))。
接着,在半导体基板100的反面侧与正面电极(未图示)的形成位置对应的部分形成具有开口部的光掩模之后,蚀刻从光掩模的开口部分露出的半导体基板100,形成用于形成贯通电极的贯通孔104。贯通孔104蚀刻到在半导体基板100的正面形成的正面电极(未图示)(图6(d))。
接着,通过CVD法,按照覆盖贯通孔104的内壁和半导体基板100的反面的方式堆积由SiO2等构成的绝缘膜111。然后,蚀刻在贯通孔104的底面堆积的绝缘膜106,在贯通孔104的内部使正面电极(未图示)露出。接着,通过CVD法在贯通孔104的侧壁和底面、半导体基板100的反面依次堆积由TiN构成的阻碍金属层、铜(Cu)构成的电镀种层之后,在电镀种层中安装电极,通过电解电镀法,在贯通孔104的内壁形成由铜(Cu)构成的贯通电极105a,并且在半导体基板100的反面的绝缘膜111上形成反面布线105b。然后,对于反面布线105b通过蚀刻进行图案化,形成所希望的布线图案。贯通电极105a在贯通孔104的底面与正面电极(未图示)电连接(图6(e))。
接着,按照覆盖形成反面布线105b的半导体基板100的反面全体的方式,以约30μm左右的厚度涂敷由光硬化性环氧树脂构成的阻焊剂,干燥后,通过预定的光掩模使曝光部分光硬化。然后,有选择地除去阻焊剂的未曝光部分,形成在焊锡凸起形成位置具有开口部107的绝缘膜106(图7(f))。
接着,通过电解电镀法形成与从绝缘膜106的开口部107中露出的反面布线105b电连接的焊锡凸起108(图7(g))。
接着,在单片化为芯片状之前,在绝缘膜106上,使用激光印字装置,形成印字标记。印字标记如图4所示,形成在芯片周围部所确保的印字区300内。基于激光印字的印字深度由激光功率管理。印字区300考虑印字装置的激光功率的偏差、绝缘膜106的偏差,按照即使在它们变为最差的情形时,激光印字引起的热等的影响也不波及反面布线或焊锡凸起的方式,把印字区300的外缘配置在从反面布线105b或焊锡凸起108在平行于印字形成面的方向分开预定距离L的位置(图7(h))。
接着,剥离粘贴在玻璃基板102上的保护膜150,在晶片胶带300粘贴玻璃基板102一侧,进行分割,由此把图像传感器1单片化为芯片状(图7(i))。经过以上的各工序,制成本发明的图像传感器1。
(实施例2)
图8是具有本发明实施例2的W-CSP结构的图像传感器2的剖面结构图。图像传感器2与实施例1的图像传感器1不同点在于,印字标记200不是在半导体基板100的反面侧,而是在玻璃基板102上所粘贴的保护膜150上形成。即在图像传感器2的保护膜150的正下方不存在应该避免印字标记的形成的反面布线,此外,保护膜150在把图像传感器安装在安装基板上之前剥离,所以在使用时印字标记不会妨碍受光,能把该整面作为印字区。另外,通常,一般在分割之前剥离保护膜150,但是有时也可以保持粘贴保护膜,在晶片状态或单片化的芯片状态下出厂。在用户在剥离保护膜150之前,能把形成在保护膜150上的印字标记200作为向安装基板安装时的位置识别标记或方向识别标记使用。
根据保护膜150的特性或膜厚等,在保护膜150上进行激光印字,有可能对正下方的玻璃基板102带来损伤,有时由于它的干扰,无法从受光元件取得适当的检测输出信号。在这时,例如如图9(a)和(b)所示,优选回避由受光元件140受光的受光区400形成印字标记。图9(a)是从上面一侧观察图像传感器2的俯视图,图9(b)是图9(a)的9b-9b线剖面图。即受光区400例如配置在图像传感器2的中央部,包围受光区400的外周区域成为印字区300。这样配置印字区300回避了受光区400,从而向保护膜上印字时可以不损害作为图像传感器的功能。
受光区的周围部作为印字区300时,也可以在玻璃基板102直接形成印字标记。这时,不损害作为图像传感器的功能,而且安装后也会留下印字标记。
此外,如实施例1所示,在图像传感器的反面侧形成印字标记时,也可以如本实施例中所示那样,在保护膜或玻璃基板上形成印字标记。
此外,在所述各实施例中,以本发明应用在图像传感器中的情形为例进行说明,但是并不局限于此,作为半导体器件的功能也可以是其它的半导体器件。

Claims (6)

1.一种半导体器件,其特征在于,包含:
矩形的半导体基板;
多个正面电极,形成在所述半导体基板的正面;
多个贯通孔,在所述半导体基板的内部从所述半导体基板的反面到达各个所述正面电极;
导电体,覆盖各个所述贯通孔的内壁;
反面布线网,设置在所述半导体基板的反面并且与所述导电体连接;
绝缘膜,覆盖所述反面布线网;
印字标记,不被配置于所述反面布线网的上方,而是形成在所述绝缘膜上的印字区;以及
焊锡,与所述反面布线网连接并且与所述印字区邻接。
2.根据权利要求1所述的半导体器件,其特征在于:
所述印字区是通过激光照射而形成于所述绝缘膜的沟。
3.根据权利要求1所述的半导体器件,其特征在于:
所述焊锡以围绕所述印字区的周围的方式配置。
4.根据权利要求1所述的半导体器件,其特征在于:
所述印字区的外缘的一部分与所述半导体基板的外缘一致。
5.根据权利要求1所述的半导体器件,其特征在于:
所述印字区大小在所述锡焊的间隔以上。
6.根据权利要求1所述的半导体器件,其特征在于:
所述印字区在与所述印字标记形成面平行的方向与所述锡焊分开。
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