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    • 4. 发明申请
    • Capacitor Unit and Method of Forming the Same
    • 电容器单元及其形成方法
    • US20080265371A1
    • 2008-10-30
    • US12106830
    • 2008-04-21
    • Jung-Min ParkSeok-Jun WonMin-Woo SongWeon-Hong Kim
    • Jung-Min ParkSeok-Jun WonMin-Woo SongWeon-Hong Kim
    • H01L29/66H01L21/20
    • H01L28/65H01G4/33H01G4/38Y10S438/957
    • A capacitor unit includes a first capacitor and a second capacitor. The first capacitor includes a first lower electrode, a first dielectric layer pattern and a first upper electrode sequentially stacked. The first capacitor includes a first control layer pattern for controlling a voltage coefficient of capacitance (VCC) of the first capacitor between the first lower electrode and the first dielectric layer pattern. The second capacitor includes a second lower electrode, a second dielectric layer pattern and a second upper electrode sequentially stacked. The second lower electrode is electrically connected to the first upper electrode, and the second upper electrode is electrically connected to the second lower electrode. The second capacitor includes a second control layer pattern for controlling a VCC of the second capacitor between the second lower electrode and the second dielectric layer pattern.
    • 电容器单元包括第一电容器和第二电容器。 第一电容器包括第一下电极,第一电介质层图案和顺序层叠的第一上电极。 第一电容器包括用于控制第一电容器和第一电介质层图案之间的第一电容器的电容电压(VCC)的电压系数的第一控制层图案。 第二电容器包括顺序层叠的第二下电极,第二电介质层图案和第二上电极。 第二下部电极与第一上部电极电连接,第二上部电极与第二下部电极电连接。 第二电容器包括用于在第二下电极和第二电介质层图案之间控制第二电容器的VCC的第二控制层图案。
    • 5. 发明授权
    • Analog capacitor having at least three high-k dielectric layers, and method of fabricating the same
    • 具有至少三个高k电介质层的模拟电容器及其制造方法
    • US07435654B2
    • 2008-10-14
    • US11452828
    • 2006-06-14
    • Yong-Kuk JeongSeok-Jun WonDae-Jin KwonWeon-Hong Kim
    • Yong-Kuk JeongSeok-Jun WonDae-Jin KwonWeon-Hong Kim
    • H01L21/20H01L21/44
    • H01L28/40H01L21/31637H01L21/31645
    • There are provided an analog capacitor having at least three high-k dielectric layers, and a method of fabricating the same. The analog capacitor includes a lower electrode, an upper electrode, and at least three high-k dielectric layers interposed between the lower electrode and the upper electrode. The at least three high-k dielectric layers include a bottom dielectric layer contacting the lower electrode, a top dielectric layer contacting the upper electrode, and a middle dielectric layer interposed between the bottom dielectric layer and the top dielectric layer. Further, each of the bottom dielectric layer and the top dielectric layer is a high-k dielectric layer, the absolute value of the quadratic coefficient of VCC thereof being relatively low compared to that of the middle dielectric layer, and the middle dielectric layer is a high-k dielectric layer having a low leakage current compared to those of the bottom dielectric layer and the top dielectric layer. Therefore, with use of the at least three high-k dielectric layers, the VCC characteristics and the leakage current characteristics of the analog capacitor can be optimized.
    • 提供了具有至少三个高k电介质层的模拟电容器及其制造方法。 模拟电容器包括下电极,上电极和介于下电极和上电极之间的至少三个高k电介质层。 所述至少三个高k电介质层包括与下电极接触的底部电介质层,与上电极接触的顶部电介质层和介于底部电介质层和顶部电介质层之间的中间电介质层。 此外,底部电介质层和顶部电介质层中的每一个是高k电介质层,其VCC的二次系数的绝对值与中间介电层的绝对值相对较低,并且中间介电层为 与介电层和顶部电介质层相比,具有低泄漏电流的高k电介质层。 因此,通过使用至少三个高k电介质层,可以优化模拟电容器的VCC特性和漏电流特性。
    • 8. 发明申请
    • Analog capacitor having at least three high-k dielectric layers, and method of fabricating the same
    • 具有至少三个高k电介质层的模拟电容器及其制造方法
    • US20060234466A1
    • 2006-10-19
    • US11452828
    • 2006-06-14
    • Yong-Kuk JeongSeok-Jun WonDae-Jin KwonWeon-Hong Kim
    • Yong-Kuk JeongSeok-Jun WonDae-Jin KwonWeon-Hong Kim
    • H01L21/20
    • H01L28/40H01L21/31637H01L21/31645
    • There are provided an analog capacitor having at least three high-k dielectric layers, and a method of fabricating the same. The analog capacitor includes a lower electrode, an upper electrode, and at least three high-k dielectric layers interposed between the lower electrode and the upper electrode. The at least three high-k dielectric layers include a bottom dielectric layer contacting the lower electrode, a top dielectric layer contacting the upper electrode, and a middle dielectric layer interposed between the bottom dielectric layer and the top dielectric layer. Further, each of the bottom dielectric layer and the top dielectric layer is a high-k dielectric layer, the absolute value of the quadratic coefficient of VCC thereof being relatively low compared to that of the middle dielectric layer, and the middle dielectric layer is a high-k dielectric layer having a low leakage current compared to those of the bottom dielectric layer and the top dielectric layer. Therefore, with use of the at least three high-k dielectric layers, the VCC characteristics and the leakage current characteristics of the analog capacitor can be optimized.
    • 提供了具有至少三个高k电介质层的模拟电容器及其制造方法。 模拟电容器包括下电极,上电极和介于下电极和上电极之间的至少三个高k电介质层。 所述至少三个高k电介质层包括与下电极接触的底部电介质层,与上电极接触的顶部电介质层和介于底部电介质层和顶部电介质层之间的中间电介质层。 此外,底部电介质层和顶部电介质层中的每一个是高k电介质层,其VCC的二次系数的绝对值与中间介电层的绝对值相对较低,并且中间介电层是 与介电层和顶部电介质层相比,具有低泄漏电流的高k电介质层。 因此,通过使用至少三个高k电介质层,可以优化模拟电容器的VCC特性和漏电流特性。
    • 9. 发明申请
    • MEMS tunable capacitor with a wide tuning range
    • 具有宽调谐范围的MEMS可调电容器
    • US20060215348A1
    • 2006-09-28
    • US11444357
    • 2006-06-01
    • Seok-Jun WonKang-soo ChuWeon-Hong Kim
    • Seok-Jun WonKang-soo ChuWeon-Hong Kim
    • H01G5/00
    • H01G5/0136H01G5/14H01G5/145H01G5/18
    • A MEMS tunable capacitor and method of fabricating the same, includes a plurality of fixed charge plates on a substrate, the plurality of fixed charge plates having a same height, being arranged in a shape of comb-teeth and being electrically connected to one another, a capacitor dielectric layer covering the plurality of fixed charge plates, a movable charge plate structure spaced apart from the capacitor dielectric layer, and arranged on the plurality of fixed charge plates, wherein the movable charge plate structure includes a plurality of movable charge plates arranged corresponding the plurality of fixed charge plates, and an actuator connected to the movable charge plate structure allowing the movable charge plate structure to move in a horizontal direction.
    • MEMS可调谐电容器及其制造方法包括在基板上的多个固定的充电板,多个具有相同高度的固定充电板被布置成梳齿形并彼此电连接, 覆盖所述多个固定充电板的电容器电介质层,与所述电容器介电层间隔开并且布置在所述多个固定的充电板上的可移动的充电板结构,其中所述可移动的充电板结构包括多个相应地布置的可移动的充电板 多个固定的充电板和连接到可移动的充电板结构的致动器,其允许可移动的充电板结构在水平方向上移动。
    • 10. 发明授权
    • Analog capacitor having at least three high-k-dielectric layers, and method of fabricating the same
    • 具有至少三个高k电介质层的模拟电容器及其制造方法
    • US07091548B2
    • 2006-08-15
    • US10874461
    • 2004-06-23
    • Yong-Kuk JeongSeok-Jun WonDae-Jin KwonWeon-Hong Kim
    • Yong-Kuk JeongSeok-Jun WonDae-Jin KwonWeon-Hong Kim
    • H01L29/00
    • H01L28/40H01L21/31637H01L21/31645
    • There are provided an analog capacitor having at least three high-k dielectric layers, and a method of fabricating the same. The analog capacitor includes a lower electrode, an upper electrode, and at least three high-k dielectric layers interposed between the lower electrode and the upper electrode. The at least three high-k dielectric layers include a bottom dielectric layer contacting the lower electrode, a top dielectric layer contacting the upper electrode, and a middle dielectric layer interposed between the bottom dielectric layer and the top dielectric layer. Further, each of the bottom dielectric layer and the top dielectric layer is a high-k dielectric layer, the absolute value of the quadratic coefficient of VCC thereof being relatively low compared to that of the middle dielectric layer, and the middle dielectric layer is a high-k dielectric layer having a low leakage current compared to those of the bottom dielectric layer and the top dielectric layer. Therefore, with use of the at least three high-k dielectric layers, the VCC characteristics and the leakage current characteristics of the analog capacitor can be optimized.
    • 提供了具有至少三个高k电介质层的模拟电容器及其制造方法。 模拟电容器包括下电极,上电极和介于下电极和上电极之间的至少三个高k电介质层。 所述至少三个高k电介质层包括与下电极接触的底部电介质层,与上电极接触的顶部电介质层和介于底部电介质层和顶部电介质层之间的中间电介质层。 此外,底部电介质层和顶部电介质层中的每一个是高k电介质层,其VCC的二次系数的绝对值与中间介电层的绝对值相对较低,并且中间介电层是 与介电层和顶部电介质层相比,具有低泄漏电流的高k电介质层。 因此,通过使用至少三个高k电介质层,可以优化模拟电容器的VCC特性和漏电流特性。