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    • 1. 发明授权
    • Increased surface area electrical contacts for microelectronic packages
    • 用于微电子封装的增加的表面积电触点
    • US08772930B2
    • 2014-07-08
    • US13354302
    • 2012-01-19
    • Pui Chung Simon LawDan YangXunqing Shi
    • Pui Chung Simon LawDan YangXunqing Shi
    • H01L23/498
    • H01L21/76898H01L27/14618H01L2924/0002H01L2924/00
    • A multilayer microelectronic device package includes one or more vertical electrical contacts. At least one semiconductor material layer is provided having one or more electrical devices fabricated therein. An electrical contact pad can be formed on or in the semiconductor material layer. Another material layer is positioned adjacent to the semiconductor material layer and includes a conductive material stud embedded in or bonded to the layer. A via is formed through at least a portion of the semiconductor material layer and the electrical contact pad and into the adjacent layer conducting material stud. The via is constructed such that the via tip terminates within the conducting material stud, exposing the conducting material. A metallization layer is disposed in the via such that the metallization layer contacts both the electrical contact pad and the conducting material stud exposed by the via tip.
    • 多层微电子器件封装包括一个或多个垂直电触点。 提供至少一个半导体材料层,其中制造有一个或多个电气器件。 可以在半导体材料层上或半导体材料层中形成电接触焊盘。 另一材料层定位成与半导体材料层相邻,并且包括嵌入或结合到该层的导电材料柱。 通孔通过半导体材料层和电接触焊盘的至少一部分形成,并进入相邻层导电材料柱。 通孔被构造成使得通孔末端终止于导电材料柱内,露出导电材料。 金属化层设置在通孔中,使得金属化层接触电接触焊盘和由通孔尖露露出的导电材料柱。
    • 2. 发明授权
    • High optical efficiency CMOS image sensor
    • 高光效CMOS图像传感器
    • US08212297B1
    • 2012-07-03
    • US13010800
    • 2011-01-21
    • Pui Chung Simon LawDan YangXunqing Shi
    • Pui Chung Simon LawDan YangXunqing Shi
    • H01L31/062
    • H01L27/14632H01L24/19H01L27/1461H01L27/14618H01L27/1463H01L27/14636H01L27/1464H01L27/14645H01L27/14687H01L27/1469H01L27/14692H01L2924/12043H01L2924/00
    • High optical efficiency CMOS image sensors capable of sustaining pixel sizes less than 1.2 microns are provided. Due to high photodiode fill factors and efficient optical isolation, microlenses are unnecessary. Each sensor includes plural imaging pixels having a photodiode structure on a semiconductor substrate adjacent a light-incident upper surface of the image sensor. An optical isolation grid surrounds each photodiode structure and defines the pixel boundary. The optical isolation grid extends to a depth of at least the thickness of the photodiode structure and prevents incident light from penetrating through the incident pixel to an adjacent pixel. A positive diffusion plug vertically extends through a portion of the photodiode structure. A negative diffusion plug vertically extends into the semiconductor substrate for transferring charge generated in the photodiode to a charge collecting region within the semiconductor substrate. Pixel circuitry positioned beneath the photodiode controls charge transfer to image readout circuitry.
    • 提供能够维持小于1.2微米的像素尺寸的高光学效率CMOS图像传感器。 由于高光电二极管填充因子和高效的光隔离,微透镜是不必要的。 每个传感器包括在与图像传感器的光入射上表面相邻的半导体衬底上具有光电二极管结构的多个成像像素。 光学隔离栅格围绕每个光电二极管结构并且限定像素边界。 光隔离栅格延伸至至少光电二极管结构的厚度的深度,并防止入射光穿过入射像素到相邻像素。 正扩散插塞垂直延伸穿过光电二极管结构的一部分。 垂直延伸到半导体衬底中的负扩散插头用于将在光电二极管中产生的电荷转移到半导体衬底内的电荷收集区域。 位于光电二极管下面的像素电路控制电荷转移到图像读出电路。
    • 4. 发明授权
    • Via and method of via forming and method of via filling
    • 通孔形成方法和通孔填充方法
    • US08232626B2
    • 2012-07-31
    • US12814938
    • 2010-06-14
    • Yat Kit TsuiDan YangXunqing Shi
    • Yat Kit TsuiDan YangXunqing Shi
    • H01L29/40H01L21/44H05K1/11
    • H01L21/76898H01L23/481H01L2224/16145H01L2924/1461H01L2924/00
    • An electronic or micromechanical device having first (11) and second (12) surfaces and a via extending through the device from the first surface to the second surface. The via comprises integrally formed first (84, 86), second (82) and third (88) portions. The first portion (84, 86) extends from the first surface (11) to the second surface (12). The second portion (82) extends over a part of the first surface (11) of the device. The third portion (88) extends over a part of the second surface (12) of the device. Preferably the first portion comprises first and second parts, the second part extending through an active region of the device and having a narrower width than the first part. A method of forming and filling the via is also disclosed.
    • 具有第一表面(11)和第二表面(12)的电子或微机械装置以及从第一表面延伸穿过该装置到第二表面的通孔。 通孔包括一体形成的第一(84,86),第二(82)和第三(88)部分。 第一部分(84,86)从第一表面(11)延伸到第二表面(12)。 第二部分(82)在装置的第一表面(11)的一部分上延伸。 第三部分(88)在装置的第二表面(12)的一部分上延伸。 优选地,第一部分包括第一部分和第二部分,第二部分延伸穿过装置的有源区域并且具有比第一部分更窄的宽度。 还公开了形成和填充通孔的方法。
    • 5. 发明申请
    • VIA AND METHOD OF VIA FORMING AND METHOD OF VIA FILLING
    • 通过形成的方法和方法以及通过填充的方法
    • US20110304026A1
    • 2011-12-15
    • US12814938
    • 2010-06-14
    • Yat Kit TsuiDan YangXunqing Shi
    • Yat Kit TsuiDan YangXunqing Shi
    • H01L23/48H05K1/11H01L21/02H01L21/768
    • H01L21/76898H01L23/481H01L2224/16145H01L2924/1461H01L2924/00
    • An electronic or micromechanical device having first (11) and second (12) surfaces and a via extending through the device from the first surface to the second surface. The via comprises integrally formed first (84, 86), second (82) and third (88) portions. The first portion (84, 86) extends from the first surface (11) to the second surface (12). The second portion (82) extends over a part of the first surface (11) of the device. The third portion (88) extends over a part of the second surface (12) of the device. Preferably the first portion comprises first and second parts, the second part extending through an active region of the device and having a narrower width than the first part. A method of forming and filling the via is also disclosed.
    • 具有第一表面(11)和第二表面(12)的电子或微机械装置以及从第一表面延伸穿过该装置到第二表面的通孔。 通孔包括一体形成的第一(84,86),第二(82)和第三(88)部分。 第一部分(84,86)从第一表面(11)延伸到第二表面(12)。 第二部分(82)在装置的第一表面(11)的一部分上延伸。 第三部分(88)在装置的第二表面(12)的一部分上延伸。 优选地,第一部分包括第一部分和第二部分,第二部分延伸穿过设备的有源区域并且具有比第一部分更窄的宽度。 还公开了形成和填充通孔的方法。