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    • 2. 发明授权
    • Memory cell having a shared programming gate
    • 具有共享编程门的存储单元
    • US08384149B2
    • 2013-02-26
    • US11785608
    • 2007-04-19
    • Shih Wei WangTe-Hsun HsuHung-Cheng Sung
    • Shih Wei WangTe-Hsun HsuHung-Cheng Sung
    • H01L29/788
    • H01L29/7883H01L27/115H01L29/42336
    • A semiconductor memory device includes a substrate, and a trench formed in the substrate. First and second floating gates, each associated with corresponding first and second memory cells, extend into the trench. Since the trench can be made relatively deep, the floating gates may be made relatively large while the lateral dimensions of the floating gates remains small. Moreover, the insulator thickness between the floating gate and a sidewall of the trench where a channel region is formed can be made relatively thick, even though the lateral extent of the memory cell is reduced. A programming gate extends into the trench between the first and second floating gates, and is shared, along with a source region, by the two memory cells.
    • 半导体存储器件包括衬底和形成在衬底中的沟槽。 每个与对应的第一和第二存储器单元相关联的第一和第二浮动栅极延伸到沟槽中。 由于可以使沟槽相对较深,所以可以使浮动栅极相对较大,同时浮动栅极的横向尺寸保持较小。 此外,尽管存储单元的横向范围减小,浮栅和形成沟道区的沟槽的侧壁之间的绝缘体厚度可以做得相对较厚。 编程门延伸到第一和第二浮栅之间的沟槽中,并且与源区域一起被两个存储单元共享。
    • 5. 发明申请
    • Memory cell having a shared programming gate
    • 具有共享编程门的存储单元
    • US20080258200A1
    • 2008-10-23
    • US11785608
    • 2007-04-19
    • Shih Wei WangTe-Hsun HsuHung-Cheng Sung
    • Shih Wei WangTe-Hsun HsuHung-Cheng Sung
    • H01L29/788
    • H01L29/7883H01L27/115H01L29/42336
    • A semiconductor memory device includes a substrate, and a trench formed in the substrate. First and second floating gates, each associated with corresponding first and second memory cells, extend into the trench. Since the trench can be made relatively deep, the floating gates may be made relatively large while the lateral dimensions of the floating gates remains small. Moreover, the insulator thickness between the floating gate and a sidewall of the trench where a channel region is formed can be made relatively thick, even though the lateral extent of the memory cell is reduced. A programming gate extends into the trench between the first and second floating gates, and is shared, along with a source region, by the two memory cells.
    • 半导体存储器件包括衬底和形成在衬底中的沟槽。 每个与对应的第一和第二存储器单元相关联的第一和第二浮动栅极延伸到沟槽中。 由于可以使沟槽相对较深,所以可以使浮动栅极相对较大,同时浮动栅极的横向尺寸保持较小。 此外,尽管存储单元的横向范围减小,浮栅和形成沟道区的沟槽的侧壁之间的绝缘体厚度可以做得相对较厚。 编程门延伸到第一和第二浮栅之间的沟槽中,并且与源区域一起被两个存储单元共享。
    • 7. 发明授权
    • Uniform channel programmable erasable flash EEPROM
    • 统一通道可编程可擦除闪存EEPROM
    • US07335941B2
    • 2008-02-26
    • US10890673
    • 2004-07-14
    • Te-Hsun HsuHung-Cheng Sung
    • Te-Hsun HsuHung-Cheng Sung
    • H01L29/792
    • H01L29/66833H01L21/28282H01L29/792
    • A new method to form a split gate for a flash device in the manufacture of an integrated circuit device is achieved. The method comprises providing a substrate. A film is deposited overlying the substrate. The film comprises a second dielectric layer overlying a first dielectric layer with an electronic-trapping layer therebetween. A masking layer is deposited overlying the film. The masking layer and the film are patterned to expose a part of the substrate and to form a floating gate electrode comprising the electronic-trapping layer. An oxide layer is grown overlying the exposed part of the substrate. The masking layer is removed. A conductive layer is deposited overlying the oxide layer and the second dielectric layer. The conductive layer and the oxide layer are patterned to complete a control gate electrode comprising the conductive layer. The control gate electrode has a first part overlying the floating gate electrode and a second part not overlying the floating gate electrode.
    • 实现了在制造集成电路器件中形成用于闪存器件的分离栅极的新方法。 该方法包括提供基底。 覆盖在衬底上的膜被沉积。 膜包括覆盖在第一电介质层之间的电子捕获层的第二电介质层。 掩模层沉积在膜上。 图案化掩模层和膜以暴露基板的一部分并形成包括电子捕获层的浮栅电极。 生长在衬底的暴露部分上的氧化物层。 去除掩模层。 沉积覆盖氧化物层和第二介电层的导电层。 图案化导电层和氧化物层以完成包括导电层的控制栅电极。 控制栅电极具有覆盖浮置栅电极的第一部分和不覆盖浮置栅电极的第二部分。
    • 8. 发明授权
    • Scalable split-gate flash memory cell with high source-coupling ratio
    • 具有高源耦合比的可扩展分离式闪存单元
    • US07608884B2
    • 2009-10-27
    • US11088492
    • 2005-03-24
    • Te-Hsun HsuHung-Cheng Sung
    • Te-Hsun HsuHung-Cheng Sung
    • H01L29/788
    • H01L27/11521H01L21/28273H01L27/115H01L29/42324H01L29/66825H01L29/7883
    • A system and method provides an improved source-coupling ratio in flash memories. In one embodiment, a flash memory cell system with high source-coupling ratio includes at least a conventional floating gate device having a floating gate, a drain and a source. The floating gate is formed over a first junction for charging the floating gate by electron injection from the source to the floating gate and at least a first dielectric is layered on top of the floating gate to form a second junction. At least a first polycrystalline silicon is layered on top of the first dielectric, the first polycrystalline silicon electrically connected to the source. Electron tunneling provided through the second junction to the floating gate charges the floating gate, thereby increasing the source-coupling ratio of the floating gate and increasing the efficiency of storing electrical charge.
    • 系统和方法提供了闪存中改进的源耦合比。 在一个实施例中,具有高源耦合比率的快闪存储器单元系统至少包括具有浮置栅极,漏极和源极的常规浮动栅极器件。 浮置栅极形成在第一结上,用于通过从源极到浮置栅极的电子注入来对浮置栅极充电,并且至少第一电介质层叠在浮置栅极的顶部上以形成第二结。 至少第一多晶硅层叠在第一电介质的顶部上,第一多晶硅电连接到源极。 通过第二结提供到浮栅的电子隧穿对浮置栅极充电,从而增加浮栅的源极耦合比并提高存储电荷的效率。
    • 9. 发明申请
    • Scalable spilt-gate flash memory cell with high source-coupling ratio
    • 具有高源耦合比的可扩展溢出栅闪存单元
    • US20060214214A1
    • 2006-09-28
    • US11088492
    • 2005-03-24
    • Te-Hsun HsuHung-Cheng Sung
    • Te-Hsun HsuHung-Cheng Sung
    • H01L29/76
    • H01L27/11521H01L21/28273H01L27/115H01L29/42324H01L29/66825H01L29/7883
    • A system and method provides an improved source-coupling ratio in flash memories. In one embodiment, a flash memory cell system with high source-coupling ratio includes at least a conventional floating gate device having a floating gate, a drain and a source. The floating gate is formed over a first junction for charging the floating gate by electron injection from the source to the floating gate and at least a first dielectric is layered on top of the floating gate to form a second junction. At least a first polycrystalline silicon is layered on top of the first dielectric, the first polycrystalline silicon electrically connected to the source. Electron tunneling provided through the second junction to the floating gate charges the floating gate, thereby increasing the source-coupling ratio of the floating gate and increasing the efficiency of storing electrical charge.
    • 系统和方法提供了闪存中改进的源耦合比。 在一个实施例中,具有高源耦合比率的快闪存储器单元系统至少包括具有浮置栅极,漏极和源极的常规浮动栅极器件。 浮置栅极形成在第一结上,用于通过从源极到浮置栅极的电子注入来对浮置栅极充电,并且至少第一电介质层叠在浮置栅极的顶部上以形成第二结。 至少第一多晶硅层叠在第一电介质的顶部上,第一多晶硅电连接到源极。 通过第二结提供到浮栅的电子隧穿对浮置栅极充电,从而增加浮栅的源极耦合比并提高存储电荷的效率。