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    • 6. 发明授权
    • High tolerance TCR balanced high current resistor for RF CMOS and RF SiGe BiCMOS applications and cadenced based hierarchical parameterized cell design kit with tunable TCR and ESD resistor ballasting feature
    • 高容差TCR平衡型高电流电阻,用于射频CMOS和射频SiGe BiCMOS应用以及基于分级的分级参数化电池设计套件,具有可调TCR和ESD电阻镇流功能
    • US07949983B2
    • 2011-05-24
    • US12234473
    • 2008-09-19
    • Ebenezer E. EshunSteven H. Voldman
    • Ebenezer E. EshunSteven H. Voldman
    • G06F17/50
    • H01C7/06H01L27/0288H01L27/0802H01L28/24H01L2924/0002H01L2924/00
    • A resistor device structure and method of manufacture therefore, wherein the resistor device structure invention includes a plurality of alternating conductive film and insulative film layers, at least two of the conductive film layers being electrically connected in parallel to provide for high current flow through the resistor device at high frequencies with increased temperature and mechanical stability. The alternating conductive film and insulative film layers may be of a planar or non-planar geometric spatial orientation. The alternating conductive film and insulative film layers may include lateral and vertical portions designed to enable a uniform current density flow within the structure itself through a self-ballasting effect within the physical resistor. A computer aided design tool with graphical and schematic features is provided to enable generation of hierarchical parameterized cells for a resistor element with the ability to provide customization, personalization and tunability of TCR, TCR matching, and high current and ESD robustness.
    • 因此,电阻器件结构及其制造方法,其中电阻器件结构发明包括多个交替导电膜和绝缘膜层,至少两个导电膜层并联电连接以提供通过电阻器的高电流 器件在高频下具有升高的温度和机械稳定性。 交替导电膜和绝缘膜层可以是平面或非平面的几何空间取向。 交替导电膜和绝缘膜层可以包括横向和垂直部分,其被设计成能够通过物理电阻器内的自镇流效应在结构本身内实现均匀的电流密度流动。 提供了具有图形和原理图功能的计算机辅助设计工具,以便能够为电阻元件生成分层参数化单元,具有提供TCR,TCR匹配以及高电流和ESD鲁棒性的定制,个性化和可调性的能力。
    • 8. 发明授权
    • Dendrite growth control circuit
    • 树枝生长控制电路
    • US07807562B2
    • 2010-10-05
    • US12256221
    • 2008-10-22
    • Douglas B. HershbergerSteven H. VoldmanMichael J. Zierak
    • Douglas B. HershbergerSteven H. VoldmanMichael J. Zierak
    • H01L21/4763
    • H01L21/76838
    • A circuit is provided which prevents dendrite formation on interconnects during semiconductor device processing due to a dendrite-forming current. The circuit includes a switch located in at least one of the dendrite-forming current paths. The switch is configured to be open or in the “off” state during processing, and is configured to be closed or in the “on” state after processing to allow proper functioning of the semiconductor device. The switch may include an nFET or pFET, depending on the environment in which it is used to control or prevent dendrite formation. The switch may be configured to change to the “closed” state when an input signal is provided during operation of the fabricated semiconductor device.
    • 提供了一种电路,其防止由于树突形成电流而在半导体器件处理期间互连上的枝晶形成。 电路包括位于至少一个枝晶形成电流路径中的开关。 该开关被配置为在处理期间处于打开状态或处于“关闭”状态,并且在处理之后被配置为闭合或处于“接通”状态以允许半导体器件正常工作。 开关可以包括nFET或pFET,这取决于其用于控制​​或防止枝晶形成的环境。 当在制造的半导体器件的操作期间提供输入信号时,开关可以被配置为改变为“闭合”状态。
    • 9. 发明授权
    • Semiconductor devices
    • 半导体器件
    • US07755161B2
    • 2010-07-13
    • US12237148
    • 2008-09-24
    • Xuefeng LiuRobert M. RasselSteven H. Voldman
    • Xuefeng LiuRobert M. RasselSteven H. Voldman
    • H01L29/00
    • H01L29/7436H01L27/0262H01L29/7378
    • A device comprises a first sub-collector formed in an upper portion of a substrate and a lower portion of a first epitaxial layer and a second sub-collector formed in an upper portion of the first epitaxial layer and a lower portion of a second epitaxial layer. The device further comprises a reach-through structure connecting the first and second sub-collectors and an N-well formed in a portion of the second epitaxial layer and in contact with the second sub-collector and the reach-through structure. The device further comprises N+ diffusion regions in contact with the N-well, a P+ diffusion region in contact with the N-well, and shallow trench isolation structures between the N+ and P+ diffusion regions.
    • 一种器件包括形成在衬底的上部中的第一子集电极和形成在第一外延层的上部中的第一外延层和第二子集电极的下部,以及第二外延层的下部 。 该装置还包括连接第一和第二子集电器的连通结构和形成在第二外延层的一部分中并与第二子集电器和达到通孔结构接触的N阱。 该装置还包括与N阱接触的N +扩散区,与N阱接触的P +扩散区,以及N +和P +扩散区之间的浅沟槽隔离结构。