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    • 1. 发明授权
    • Method of fabricating an optical transformer
    • 制造光学变压器的方法
    • US08520987B2
    • 2013-08-27
    • US12709516
    • 2010-02-22
    • Yi-Ching WuShuenn-Jeng Chen
    • Yi-Ching WuShuenn-Jeng Chen
    • G02B6/12H01L21/00
    • G02B6/13G02B6/12004G02B6/1228G02B6/136
    • A method of fabricating an optical transformer is provided. A substrate is provided first, wherein the substrate includes a first region and a second region. Then a first material layer is formed on the substrate, and the portion of the first material layer other than in the first region is removed. Then a second material layer is formed on the substrate, and the portion of the second material layer in the first region and the second region is removed. Lastly, a first conductive layer is formed on the substrate and the portion of the first conductive layer other than in the second region is removed to make the first material layer, the second material layer and the first conductive layer have the same height such that the first material layer becomes a part of the optical transformer.
    • 提供一种制造光变换器的方法。 首先提供衬底,其中衬底包括第一区域和第二区域。 然后在基板上形成第一材料层,除去除了第一区域之外的第一材料层的部分。 然后在基板上形成第二材料层,并且去除第一区域和第二区域中的第二材料层的部分。 最后,在基板上形成第一导电层,除去除了第二区域以外的第一导电层的部分,使第一材料层,第二材料层和第一导电层具有相同的高度,使得 第一材料层成为光变换器的一部分。
    • 2. 发明申请
    • Method of Fabricating an Optical Transformer
    • 制造光电变压器的方法
    • US20110206315A1
    • 2011-08-25
    • US12709516
    • 2010-02-22
    • Yi-Ching WuShuenn-Jeng Chen
    • Yi-Ching WuShuenn-Jeng Chen
    • G02B6/12H01L33/00
    • G02B6/13G02B6/12004G02B6/1228G02B6/136
    • A method of fabricating an optical transformer is provided. A substrate is provided first, wherein the substrate includes a first region and a second region. Then a first material layer is formed on the substrate, and the portion of the first material layer other than in the first region is removed. Then a second material layer is formed on the substrate, and the portion of the second material in the first region and the second region is removed. Lastly, a first conductive layer is formed on the substrate and the portion of the first conductive layer other than in the second region is removed to make the first material layer, the second material layer and the first conductive layer have the same height such that the first material layer becomes a part of the optical transformer.
    • 提供一种制造光变换器的方法。 首先提供衬底,其中衬底包括第一区域和第二区域。 然后在基板上形成第一材料层,除去除了第一区域之外的第一材料层的部分。 然后在基板上形成第二材料层,并且去除第一区域和第二区域中的第二材料的部分。 最后,在基板上形成第一导电层,除去除了第二区域以外的第一导电层的部分,使第一材料层,第二材料层和第一导电层具有相同的高度,使得 第一材料层成为光变换器的一部分。
    • 4. 发明授权
    • Method for fabricating passivation layer
    • 钝化层制造方法
    • US06421108B1
    • 2002-07-16
    • US09313516
    • 1999-05-17
    • Wei-Shiau ChenShuenn-Jeng ChenTsan-Wen Liu
    • Wei-Shiau ChenShuenn-Jeng ChenTsan-Wen Liu
    • G02F11333
    • G02F1/133553G02F1/13439H01L21/76801
    • A method for fabricating a passivation layer and a liquid crystal display. For the fabrication method, a substrate is provided. An oxide layer, a first silicon nitride layer, a spin-on-glass (SOG) layer, and a second silicon nitride layer are sequentially formed over the substrate. The liquid crystal display has a controller, a dielectric layer, a metal layer, an oxide layer, a first silicon nitride layer, a spin-on-glass layer, and a second silicon nitride layer. The dielectric layer is positioned over the controller. A metal layer is positioned over the dielectric layer. An oxide layer is formed over the metal layer. A first silicon nitride layer is formed over the oxide layer. A spin-on-glass (SOG) layer is formed over the first silicon nitride layer. A second silicon nitride layer is formed over the SOG layer.
    • 一种制造钝化层和液晶显示器的方法。 对于制造方法,提供基板。 在衬底上顺序地形成氧化物层,第一氮化硅层,旋涂玻璃(SOG)层和第二氮化硅层。 液晶显示器具有控制器,电介质层,金属层,氧化物层,第一氮化硅层,旋涂玻璃层和第二氮化硅层。 电介质层位于控制器上方。 金属层位于电介质层上。 在金属层上形成氧化物层。 在氧化物层上形成第一氮化硅层。 在第一氮化硅层上形成旋涂玻璃(SOG)层。 在SOG层上形成第二氮化硅层。
    • 6. 发明授权
    • Planarization process
    • 平面化过程
    • US06211097B1
    • 2001-04-03
    • US09223398
    • 1998-12-30
    • Shuenn-Jeng ChenChing-Hsing Hsieh
    • Shuenn-Jeng ChenChing-Hsing Hsieh
    • H01L2131
    • H01L21/31053H01L21/31051H01L21/316H01L21/31612
    • This invention provides a planarization method that solves the microscratch problem caused by chemical-mechanical polishing. This method comprises the following steps: providing a substrate with semiconductor devices, forming a SRO oxide on the substrate, forming a SOG layer on the SRO layer, performing a curing process, performing an implantation process during the curing process, forming an oxide layer on the SRO oxide, and planarizing the oxide layer by CMP. Another SOG layer is formed on the planarized oxide layer, a curing process is performed on the second SOG layer, and a cap oxide layer is formed on the second SOG layer to adjust the thickness of the dielectric layer. This invention can solve conventional problems such as microscratching and metal bridges.
    • 本发明提供了解决化学机械抛光引起的微观问题的平面化方法。 该方法包括以下步骤:向衬底提供半导体器件,在衬底上形成SRO氧化物,在SRO层上形成SOG层,进行固化过程,在固化过程中进行注入工艺,形成氧化层 SRO氧化物,并通过CMP平坦化氧化物层。 在平坦化氧化物层上形成另一SOG层,对第二SOG层进行固化处理,在第二SOG层上形成帽氧化层,调整电介质层的厚度。 本发明可以解决诸如显微划线和金属桥的常规问题。
    • 8. 发明授权
    • Method for forming inter-metal dielectrics
    • 形成金属间电介质的方法
    • US06265298B1
    • 2001-07-24
    • US09249882
    • 1999-02-16
    • Shuenn-Jeng ChenChing-Hsing HsiehChih-Ching Hsu
    • Shuenn-Jeng ChenChing-Hsing HsiehChih-Ching Hsu
    • H01L2144
    • H01L21/76829H01L21/76819H01L21/76826
    • An improved method for forming inter-metal dielectrics (IMD) over a semiconductor substrate is provided, wherein a conductive line is formed thereon. A first dielectric layer is formed over the conductive line. A second dielectric layer is formed on the first dielectric layer by a spin-on glass method. A curing treatment with an electron beam having a low energy and a high dosage is performed to cure an upper portion of the second dielectric layer so that a cured third dielectric layer is formed on the second dielectric layer. A fourth dielectric layer is formed on the cured third dielectric layer. A chemical-mechanical polishing process is performed using the cured dielectric layer as a stop layer. A cap layer is formed on the fourth dielectric layer.
    • 提供了一种用于在半导体衬底上形成金属间电介质(IMD)的改进方法,其中在其上形成导电线。 在导电线上形成第一介电层。 通过旋涂玻璃法在第一介电层上形成第二介电层。 执行具有低能量和高剂量的电子束的固化处理以固化第二介电层的上部,使得固化的第三介电层形成在第二介电层上。 在固化的第三电介质层上形成第四电介质层。 使用固化的电介质层作为停止层进行化学机械抛光工艺。 在第四电介质层上形成覆盖层。