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    • 5. 发明授权
    • Thin oxide dummy tiling as charge protection
    • 薄氧化虚拟平铺作为电荷保护
    • US07977218B2
    • 2011-07-12
    • US11645475
    • 2006-12-26
    • Cinti ChenYi HeWenmei LiZhizheng LiuMing-Sang KwanYu SunJean Yee-Mei Yang
    • Cinti ChenYi HeWenmei LiZhizheng LiuMing-Sang KwanYu SunJean Yee-Mei Yang
    • H01L21/00
    • H01L27/115H01L27/0207H01L27/11568
    • Novel fabrication methods implement the use of dummy tiles to avoid the effects of in-line charging, ESD events, and such charge effects in the formation of a memory device region region. One method involves forming at least a portion of a memory core array upon a semiconductor substrate that involves forming STI structures in the substrate substantially surrounding a memory device region region within the array. An oxide layer is formed over the substrate in the memory device region region and over the STI's, wherein an inner section of the oxide layer formed over the memory device region region is thicker than an outer section of the oxide layer formed over the STI's. A first polysilicon layer is then formed over the inner and outer sections comprising one or more dummy tiles formed over one or more outer sections and electrically connected to at least one inner section.
    • 新颖的制造方法实现使用虚拟瓦片以避免在形成存储器件区域区域中的在线充电,ESD事件和这种电荷效应的影响。 一种方法包括在半导体衬底上形成至少一部分存储器芯阵列,该半导体衬底涉及在衬底中形成基本上围绕阵列内的存储器件区域区域的STI结构。 在存储器件区域和STI之上的衬底上形成氧化物层,其中形成在存储器件区域上的氧化物层的内部部分比在STI上形成的氧化物层的外部部分更厚。 然后在内部和外部部分上形成第一多晶硅层,包括形成在一个或多个外部部分上并且电连接到至少一个内部部分的一个或多个虚拟瓦片。
    • 7. 发明授权
    • Memory circuit for suppressing bit line current leakage
    • 用于抑制位线电流泄漏的存储电路
    • US06628545B1
    • 2003-09-30
    • US10306080
    • 2002-11-26
    • Jiang LiYider WuZhizheng Liu
    • Jiang LiYider WuZhizheng Liu
    • G11C1604
    • G11C16/3404
    • A memory circuit employed in a memory device is disclosed. According to one embodiment, the memory circuit comprises a first memory cell and a second memory cell. The first memory cell has a drain terminal connected to a bit line, which is connected to a sensing circuit. The first memory cell also has a control gate connected to a word line. The second memory cell also has a drain terminal connected to the bit line. The second memory cell has its control gate coupled to ground. The memory circuit supplies a source voltage greater than a ground voltage to a source terminal of the first memory cell and to a source terminal of the second memory cell such that the gate-to-source voltage of the second memory cell is less than the threshold voltage of the second memory cell.
    • 公开了一种在存储器件中使用的存储器电路。 根据一个实施例,存储器电路包括第一存储单元和第二存储单元。 第一存储单元具有连接到位线的漏极端子,该位线连接到感测电路。 第一存储单元还具有连接到字线的控制栅极。 第二存储单元还具有连接到位线的漏极端子。 第二存储单元的控制栅极接地。 存储器电路将大于接地电压的源极电压提供给第一存储单元的源极端子和第二存储器单元的源极端子,使得第二存储器单元的栅极 - 源极电压小于阈值 第二存储单元的电压。
    • 8. 发明授权
    • Back-to-back NPN/PNP protection diodes
    • 背对背NPN / PNP保护二极管
    • US07573103B1
    • 2009-08-11
    • US11855704
    • 2007-09-14
    • Yi HeZhizheng LiuMeng DingWei Zheng
    • Yi HeZhizheng LiuMeng DingWei Zheng
    • H01L27/06
    • H01L27/0266H01L27/0255
    • A device includes a memory device and an NPN or PNP diode coupled to a word-line of the memory device. The NPN diode includes a p-type substrate connected to ground, a well of n-type material formed in the p-type substrate in direct physical contact with the p-type substrate and electrically connected to the p-type substrate via a first metal line, a well of p-type material formed in the first well of n-type material, a first n-type region formed in the well of p-type material in direct physical contact with the well of p-type material and connected to the word line of the memory device, and a first p-type region formed in the well of n-type material in direct physical contact with the well of n-type material and electrically connected to the well of p-type material via a second metal line. The PNP diode includes a n-type substrate connected to ground, a well of p-type material formed in the n-type substrate in direct physical contact with the n-type substrate and electrically connected to the n-type substrate via a first metal line, a well of n-type material formed in the first well of p-type material, a first p-type region formed in the well of n-type material in direct physical contact with the well of n-type material and connected to the word line of the memory device, and a first n-type region formed in the well of p-type material in direct physical contact with the well of p-type material and electrically connected to the well of n-type material via a second metal line.
    • 一种设备包括存储器件和耦合到存储器件的字线的NPN或PNP二极管。 NPN二极管包括连接到地的p型衬底,在p型衬底中形成的与p型衬底直接物理接触的n型材料的阱,并通过第一金属电连接到p型衬底 线,在n型材料的第一阱中形成的p型材料的阱,形成在p型材料的阱中的第一n型区,与p型材料的阱直接物理接触并连接到 存储器件的字线和形成在n型材料的阱中的与n型材料的阱直接物理接触并且经由第二p型材料电连接到p型材料的阱的第一p型区域 金属线。 PNP二极管包括连接到地的n型衬底,形成在n型衬底中的p型材料的阱与n型衬底直接物理接触并且经由第一金属电连接到n型衬底 线,在p型材料的第一阱中形成的n型材料的阱,形成在n型材料的阱中的与n型材料的阱直接物理接触的第一p型区,并连接到 存储器件的字线和形成在p型材料的阱中的第一n型区域,其与p型材料的阱直接物理接触并且经由第二类型的n型材料电连接到n型材料的阱 金属线。
    • 9. 发明授权
    • Soft-transition controller of a synchronous converter
    • 同步转换器的软转换控制器
    • US07432688B2
    • 2008-10-07
    • US11356701
    • 2006-02-17
    • Zhizheng LiuLam D. Vu
    • Zhizheng LiuLam D. Vu
    • G05F1/613
    • H02M7/217H02M3/1588H02M2001/0045Y02B70/1466
    • The present invention provides a soft-transition controller for use with a synchronous converter having primary and secondary rectifiers. In one embodiment, the soft-transition controller includes a primary driver configured to provide a primary drive signal to the primary rectifier operating in a synchronous mode, while the secondary rectifier is operating in a diode mode, to provide an output voltage of the synchronous rectifier. Additionally, the soft-transition controller also includes a complementary driver coupled to the primary driver and configured to provide a soft-transition drive signal during a transition period, which transfers the secondary rectifier from the diode mode to a synchronous mode while maintaining the output voltage within a predetermined voltage range.
    • 本发明提供了一种用于具有初级和次级整流器的同步转换器的软转换控制器。 在一个实施例中,软转换控制器包括主驱动器,该主驱动器被配置为向次级整流器以同步模式操作提供初级驱动信号,而次级整流器以二极管模式工作,以提供同步整流器的输出电压 。 此外,软转换控制器还包括耦合到主驱动器并且被配置为在过渡期间提供软转换驱动信号的互补驱动器,其将次级整流器从二极管模式传输到同步模式,同时保持输出电压 在预定电压范围内。
    • 10. 发明申请
    • Deep bitline implant to avoid program disturb
    • 深位线植入,以避免程序干扰
    • US20080153274A1
    • 2008-06-26
    • US11646157
    • 2006-12-26
    • Timothy ThurgateYi HeMing-Sang KwanZhizheng LiuXuguang Wang
    • Timothy ThurgateYi HeMing-Sang KwanZhizheng LiuXuguang Wang
    • H01L21/425G11C11/34
    • H01L27/11568G11C5/02G11C5/06H01L27/115
    • A method of forming at least a portion of a dual bit memory core array upon a semiconductor substrate, the method comprising performing front end processing, performing a first bitline implant, or pocket implants, or both into the first bitline spacings to establish buried first bitlines within the substrate, depositing a layer of the spacer material over the charge trapping dielectric and the polysilicon layer features, forming a sidewall spacer adjacent to the charge trapping dielectric and the polysilicon layer features to define second bitline spacings between adjacent memory cells, performing a deep arsenic implant into the second bitline spacings to establish a second bitline within the structure that is deeper than the first bit line, removing the sidewall spacers and performing back end processing.
    • 一种在半导体衬底上形成双位存储器核心阵列的至少一部分的方法,所述方法包括执行前端处理,执行第一位线注入或袋式注入或二者进入第一位线间隔以建立掩埋的第一位线 在衬底内,在电荷俘获电介质和多晶硅层特征之上沉积间隔物材料层,形成与电荷俘获电介质相邻的侧壁隔离层和多晶硅层特征以限定相邻存储器单元之间的第二位线间隔,执行深度 砷注入到第二位线间隔中,以在结构内建立比第一位线更深的第二位线,去除侧壁间隔件并执行后端处理。