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    • 2. 发明授权
    • Method of forming oxynitride gate dielectric
    • 形成氮氧化物栅极电介质的方法
    • US06245616B1
    • 2001-06-12
    • US09226369
    • 1999-01-06
    • Douglas Andrew BuchananMatthew Warren CopelPatrick Ronald Varekamp
    • Douglas Andrew BuchananMatthew Warren CopelPatrick Ronald Varekamp
    • H01L21336
    • H01L21/28185H01L21/28194H01L21/28202H01L29/513H01L29/518
    • A method for forming an oxynitride gate dielectric in a semiconductor device and gate dielectric structure formed by the method are disclosed. In the method, an oxynitride layer is first formed on a silicon surface and then re-oxidized with a gas mixture containing oxygen and at least one halogenated species such that an oxynitride layer with a controlled nitrogen profile and a layer of substantially silicon dioxide formed underneath the oxynitride film is obtained. The oxynitride film layer can be formed by either contacting a surface of silicon with at least one gas that contains nitrogen and/or oxygen at a temperature of not less than 500° C. or by a chemical vapor deposition technique. The re-oxidation process may be carried out by a thermal process in an oxidizing halogenated atmosphere containing oxygen and a halogenated species such as HCl, CH2Cl2, C2H3Cl3, C2H2Cl2, CH3Cl and CHCl3.
    • 公开了一种在半导体器件中形成氧氮化物栅极电介质的方法和通过该方法形成的栅极电介质结构。 在该方法中,首先在硅表面上形成氧氮化物层,然后用含有氧和至少一种卤化物质的气体混合物再次氧化,使得具有受控氮分布的氧氮化物层和形成在下面的基本上二氧化硅层 得到氧氮化物膜。 氧氮化物膜层可以通过在不低于500℃的温度下或通过化学气相沉积技术使硅表面与至少一种含有氮和/或氧的气体接触而形成。 再氧化过程可以通过在含氧和卤化物质如HCl,CH 2 Cl 2,C 2 H 3 Cl 3,C 2 H 2 Cl 2,CH 3 Cl和CHCl 3的氧化卤化气氛中的热处理进行。
    • 3. 发明授权
    • Oxynitride gate dielectric and method of forming
    • 氧氮化物栅极电介质及其形成方法
    • US06756646B2
    • 2004-06-29
    • US09862372
    • 2001-05-22
    • Douglas Andrew BuchananMatthew Warren CopelPatrick Ronald Varekamp
    • Douglas Andrew BuchananMatthew Warren CopelPatrick Ronald Varekamp
    • H01L31062
    • H01L21/28185H01L21/28194H01L21/28202H01L29/513H01L29/518
    • A method for forming an oxynitride gate dielectric in a semiconductor device and gate dielectric structure formed by the method are disclosed. In the method, an oxynitride layer is first formed on a silicon surface and then re-oxidized with a gas mixture containing oxygen and at least one halogenated species such that an oxynitride layer with a controlled nitrogen profile and a layer of substantially silicon dioxide formed underneath the oxynitride film is obtained. The oxynitride film layer can be formed by either contacting a surface of silicon with at least one gas that contains. nitrogen and/or oxygen at a temperature of not less than 500° C. or by a chemical vapor deposition technique. The re-oxidation process may be carried out by a thermal process in an oxidizing halogenated atmosphere containing oxygen and a halogenated species such as HCl, CH2Cl2, C2H3Cl3, C2H2Cl2. CH3Cl and CHCl3.
    • 公开了一种在半导体器件中形成氧氮化物栅极电介质的方法和通过该方法形成的栅极电介质结构。 在该方法中,首先在硅表面上形成氧氮化物层,然后用含有氧和至少一种卤化物质的气体混合物再次氧化,使得具有受控氮分布的氧氮化物层和形成在下面的基本上二氧化硅层 得到氧氮化物膜。 氧氮化物膜层可以通过使硅的表面与至少一种含有气体接触而形成。 氮和/或氧的温度不低于500℃,或通过化学气相沉积技术。 再氧化过程可以通过在含氧和卤化物质如HCl,CH 2 Cl 2,C 2 H 3 Cl 3,C 2 H 2 Cl 2的氧化卤化气氛中的热处理进行。 CH 3 Cl和CHCl 3。
    • 5. 发明申请
    • Universal Inter-Layer Interconnect for Multi-Layer Semiconductor Stacks
    • 多层半导体堆叠的通用层间互连
    • US20100271071A1
    • 2010-10-28
    • US12431259
    • 2009-04-28
    • Gerald K. BartleyRussell Dean HooverCharles Luther JohnsonSteven Paul VanderWielPatrick Ronald Varekamp
    • Gerald K. BartleyRussell Dean HooverCharles Luther JohnsonSteven Paul VanderWielPatrick Ronald Varekamp
    • H01L25/00G06F17/50
    • G06F17/5068H01L25/0657H01L2224/05001H01L2224/05009H01L2224/05568H01L2224/16145H01L2225/06513H01L2225/06541H01L2924/00014H01L2924/01019H01L2924/01087H01L2224/05599H01L2224/05099
    • A circuit arrangement and method utilize a universal, standardized inter-layer interconnect in a multi-layer semiconductor stack to facilitate interconnection and communication between functional units disposed on a stack of semiconductor dies. Each circuit layer in the multi-layer semiconductor stack is required to include an inter-layer interface region that is disposed at substantially the same topographic location such that when the semiconductor dies upon which such circuit layers are disposed are arranged together in a stack, electrical conductors disposed within each semiconductor die are aligned with one another to provide an inter-layer bus that is oriented vertically, or transversely, with respect to the individual circuit layers. Based upon a standardized placement of the inter-layer interface region in each circuit layer, and a standardized arrangement of electrical conductors associated with the inter-layer bus, each circuit layer may designed using a standardized template upon which the design features necessary to implement the inter-layer bus are already provided, thereby simplifying circuit layer design and the interconnection of functional units to the inter-layer bus. In addition, vertically-oriented supernodes may be defined within a semiconductor stack to provide multiple independently-operating nodes having functional units disposed in multiple circuit layers of the stack.
    • 电路布置和方法利用多层半导体堆叠中的通用的标准化层间互连,以便于布置在半导体管芯堆叠上的功能单元之间的互连和通信。 多层半导体堆叠中的每个电路层需要包括布置在基本上相同的地形位置处的层间界面区域,使得当将这样的电路层设置在其上的半导体管芯堆叠在一起时,电气 布置在每个半导体管芯内的导体彼此对准以提供相对于各个电路层垂直或横向取向的层间总线。 基于每个电路层中的层间界面区域的标准化布置以及与层间总线相关联的电导体的标准化布置,每个电路层可以使用标准化模板来设计,在该模板上设计实现 已经提供了层间总线,从而简化了电路层设计和功能单元与层间总线的互连。 此外,可以在半导体堆叠内定义垂直取向的超节点,以提供多个独立运行的节点,其具有布置在堆叠的多个电路层中的功能单元。
    • 7. 发明授权
    • Universal inter-layer interconnect for multi-layer semiconductor stacks
    • 用于多层半导体堆叠的通用层间互连
    • US08330489B2
    • 2012-12-11
    • US12431259
    • 2009-04-28
    • Gerald K. BartleyRussell Dean HooverCharles Luther JohnsonSteven Paul VanderWielPatrick Ronald Varekamp
    • Gerald K. BartleyRussell Dean HooverCharles Luther JohnsonSteven Paul VanderWielPatrick Ronald Varekamp
    • H01L25/00
    • G06F17/5068H01L25/0657H01L2224/05001H01L2224/05009H01L2224/05568H01L2224/16145H01L2225/06513H01L2225/06541H01L2924/00014H01L2924/01019H01L2924/01087H01L2224/05599H01L2224/05099
    • A circuit arrangement and method utilize a universal, standardized inter-layer interconnect in a multi-layer semiconductor stack to facilitate interconnection and communication between functional units disposed on a stack of semiconductor dies. Each circuit layer in the multi-layer semiconductor stack is required to include an inter-layer interface region that is disposed at substantially the same topographic location such that when the semiconductor dies upon which such circuit layers are disposed are arranged together in a stack, electrical conductors disposed within each semiconductor die are aligned with one another to provide an inter-layer bus that is oriented vertically, or transversely, with respect to the individual circuit layers. Based upon a standardized placement of the inter-layer interface region in each circuit layer, and a standardized arrangement of electrical conductors associated with the inter-layer bus, each circuit layer may designed using a standardized template upon which the design features necessary to implement the inter-layer bus are already provided, thereby simplifying circuit layer design and the interconnection of functional units to the inter-layer bus. In addition, vertically-oriented supernodes may be defined within a semiconductor stack to provide multiple independently-operating nodes having functional units disposed in multiple circuit layers of the stack.
    • 电路布置和方法利用多层半导体堆叠中的通用的标准化层间互连,以便于布置在半导体管芯堆叠上的功能单元之间的互连和通信。 多层半导体堆叠中的每个电路层需要包括布置在基本上相同的地形位置处的层间界面区域,使得当将这样的电路层设置在其上的半导体管芯堆叠在一起时,电气 布置在每个半导体管芯内的导体彼此对准以提供相对于各个电路层垂直或横向取向的层间总线。 基于每个电路层中的层间界面区域的标准化布置以及与层间总线相关联的电导体的标准化布置,每个电路层可以使用标准化模板来设计,在该模板上设计实现 已经提供了层间总线,从而简化了电路层设计和功能单元与层间总线的互连。 此外,可以在半导体堆叠内定义垂直取向的超节点,以提供多个独立运行的节点,其具有布置在堆叠的多个电路层中的功能单元。