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    • 1. 发明授权
    • Bit-line pull-up circuit or static random access memory (SRAM) devices
    • 位线上拉电路或静态随机存取存储器(SRAM)器件
    • US5777369A
    • 1998-07-07
    • US778264
    • 1997-01-02
    • Shi-Tron LinMing-Tsan YehChau-Neng WuChi-Hsi Wu
    • Shi-Tron LinMing-Tsan YehChau-Neng WuChi-Hsi Wu
    • G11C11/412G11C11/419H01L29/76H01L29/94H01L31/062H01L31/113
    • G11C11/4125G11C11/419Y10S257/903
    • A bit-line pull-up circuit for an SRAM device which utilizes an improved diffusion structure for enhanced immunity of the SRAM device against electrostatic discharge. The improved diffusion structure includes an undivided diffusion region that serves as a common drain for a plurality of MOS transistors. The undivided diffusion region has at least a pair of recessed diffusion edges formed on opposite sides thereof. The forming of the recessed diffusion edges prevents the so-called electrical field crowding effect and also enhances ESD immunity for the MOS transistor. Further, since the drain diffusion region is an undivided area, an increased number of metal contact windows are provided therein, and at least one of the metal contact windows is arranged substantially between the two recessed diffusion edges. In the event of an electrostatic discharge, this allows the discharge current flowing into the drain to be divided into a greater number of small-magnitude currents flowing to the source.
    • 一种用于SRAM器件的位线上拉电路,其利用改进的扩散结构来增强SRAM器件对静电放电的免疫力。 改进的扩散结构包括用作多个MOS晶体管的公共漏极的未分开的扩散区域。 未分开的扩散区域具有形成在其相对侧上的至少一对凹进的扩散边缘。 凹陷扩散边缘的形成防止了所谓的电场拥挤效应,并且还提高了MOS晶体管的ESD抗扰度。 此外,由于漏极扩散区域是不分割的区域,所以在其中设置了增加数量的金属接触窗口,并且金属接触窗口中的至少一个基本上被布置在两个凹进的扩散边缘之间。 在静电放电的情况下,这允许流入漏极的放电电流被分成更大数量的流向源极的小电流电流。
    • 2. 发明授权
    • SRAM bitline pull-up MOSFET structure for internal circuit
electro-static discharge immunity
    • SRAM位线上拉MOSFET结构,用于内部电路静电放电抗扰度
    • US5892261A
    • 1999-04-06
    • US780670
    • 1997-01-07
    • Shi-Tron LinTa-Lee YuChau Neng WuYu Chen LinYang Sen Yeh
    • Shi-Tron LinTa-Lee YuChau Neng WuYu Chen LinYang Sen Yeh
    • H01L21/8244H01L27/11
    • H01L27/11H01L27/1104Y10S257/903Y10S257/904
    • An apparatus and method for use in a semiconductor memory device to reduce internal circuit damage resulting from the effects of electro-static discharge (ESD) on a bitline pull-up or other type of circuit. Each of a plurality of bitlines in the memory device are coupled to a source terminal of a corresponding N-type MOSFET. Each source terminal is formed in a separate corner portion of at least one active region of the memory device, and is coupled to a given bitline via a bitline contact arranged in the corner portion. Each drain terminal of the N-type MOSFETS is formed from another portion of the active region and is coupled to a VDD supply of the memory device via a VDD contact. A gate terminal of a given MOSFET is formed from a polysilicon gate region overlying a channel in the active region. The gate region has an approximately 90.degree. bend therein such that a bitline contact in the corresponding corner portion of the active region is located between the bend and an outer peripheral edge of the corner portion. This layout allows the contact-to-diffusion-edge and contact-to-gate-edge spacings of the VDD contacts to be increased such that internal circuit ESD immunity of the memory device is improved without impacting device dimension and layout area constraints.
    • 一种在半导体存储器件中使用的装置和方法,用于减少由于位线上拉电路或其它类型电路上的静电放电(ESD)的影响而产生的内部电路损坏。 存储器件中的多个位线中的每一个与相应的N型MOSFET的源极耦合。 每个源极端子形成在存储器件的至少一个有源区域的单独拐角部分中,并且经由布置在拐角部分中的位线接触件耦合到给定的位线。 N型MOSFET的每个漏极端子由有源区域的另一部分形成,并通过VDD触点耦合到存储器件的VDD电源。 给定MOSFET的栅极端子由覆盖有源区域中的沟道的多晶硅栅极区域形成。 栅极区域在其中具有大约90度的弯曲,使得有源区域的相应拐角部分中的位线接触位于弯曲部分和拐角部分的外周边缘之间。 该布局允许增加VDD触点的接触到扩散边缘和接触到栅极边缘间隔,使得存储器件的内部电路ESD抗扰度得到改善,而不会影响器件尺寸和布局面积限制。
    • 3. 发明授权
    • Output buffer with good ESD protection
    • 输出缓冲器具有良好的ESD保护
    • US07012307B2
    • 2006-03-14
    • US09779096
    • 2001-02-08
    • Shi-Tron LinWei-Fan Chen
    • Shi-Tron LinWei-Fan Chen
    • H01L23/62
    • H01L27/0251
    • An output buffer with a pull down circuit. The pull down circuit is coupled between a second power line and a pad, and has a resistor, a diode and an electrostatic discharge protection component. The resistor deposited on the substrate of a first conductivity type includes a well region of a second conductivity type. The resistor and the electrostatic discharge protection component are connected in series between the pad and the second power line. The diode is formed in the well region, construct by the PN junction formed between a first doped region of the first conductivity type and the well region. The first doped region is electrically floated in the well regions. During an electrostatic discharge event, the pad is instantaneously connected to the first doped region which will help to boost the turn-on of the electrostatic discharge circuit, and further enhance the electrostatic protection effect.
    • 具有下拉电路的输出缓冲器。 下拉电路耦合在第二电源线和焊盘之间,并且具有电阻器,二极管和静电放电保护部件。 沉积在第一导电类型的衬底上的电阻器包括第二导电类型的阱区域。 电阻器和静电放电保护元件串联在焊盘和第二电源线之间。 二极管形成在阱区中,由在第一导电类型的第一掺杂区和阱区之间形成的PN结构成。 第一掺杂区域电浮在阱区中。 在静电放电事件期间,焊盘瞬时连接到第一掺杂区域,这有助于提高静电放电电路的接通,并进一步增强静电保护效果。
    • 6. 发明授权
    • Input/output cell with robust electrostatic discharge protection
    • 具有强大静电放电保护功能的输入/输出单元
    • US06849902B1
    • 2005-02-01
    • US10796966
    • 2004-03-11
    • Shi-Tron Lin
    • Shi-Tron Lin
    • H01L23/60H01L23/62H01L27/02
    • H01L27/0266H01L2924/0002H01L2924/00
    • An electrostatic discharge (ESD) protection device with enhanced ESD robustness. The ESD protection device comprises a pad, a finger-type MOS, a well stripe and a doped segment. The pad is on a semiconductor substrate of a first-conductive type. The finger-type MOS is on the semiconductor substrate and comprises drain regions, source regions and channel regions. Each drain region is of a second-conductive type and is coupled to the pad. Each source region is of the second-conductive type and coupled to a power rail. Channel regions are formed on the semiconductor, substantially parallel to each other. Each channel region is located between one source region and one drain region. The well stripe is of the second-conductive type and formed on the semiconductor, in an angle to the channel regions. The doped segment is of the first-conductive type and in the well stripe. Furthermore, the doped segment is coupled to the pad.
    • 具有增强ESD稳健性的静电放电(ESD)保护装置。 ESD保护器件包括焊盘,指状MOS,阱条和掺杂段。 焊盘位于第一导电类型的半导体衬底上。 指状MOS位于半导体衬底上并且包括漏区,源极区和沟道区。 每个漏极区域是第二导电类型并且耦合到该焊盘。 每个源极区域是第二导电类型并且耦合到电力轨道。 通道区域形成在半导体上,基本上彼此平行。 每个沟道区域位于一个源极区域和一个漏极区域之间。 阱条是第二导电类型并且形成在半导体上,与沟道区成一定角度。 掺杂区段是第一导电类型并且在阱条中。 此外,掺杂段耦合到焊盘。
    • 7. 发明授权
    • Electrostatic discharge protection devices and methods for the formation thereof
    • 静电放电保护装置及其形成方法
    • US06730967B2
    • 2004-05-04
    • US09863977
    • 2001-05-24
    • Shi-Tron Lin
    • Shi-Tron Lin
    • H01L2362
    • H01L29/0847H01L27/0266
    • The present invention provides an ESD protection device with isolated islands and an n well. At least one of the isolated islands has an end apart from the boundary of a drain diffusion region of the ESD protection device, to form a gap between. The n well overlaps with the isolated islands and is kept at least a designated distance away from a channel region of the ESD protection device. An interlocked structure of isolated islands is also provided in this invention to direct ESD current flowing forward and backward to the channel region of the ESD protection device, thereby increasing the distributed resistance of the drain diffusion region. Several benefits, such as lower drain capacitance, lower standby power consumption and a wider range of adjustable resistance, are achieved.
    • 本发明提供一种具有隔离岛和n阱的ESD保护装置。 隔离岛中的至少一个具有远离ESD保护装置的漏极扩散区域的边界的一端,以在其间形成间隙。 n阱与隔离的岛重叠,并且保持至少距离ESD保护装置的沟道区的指定距离。 本发明还提供隔离岛的互锁结构,以将ESD电流引导到ESD保护器件的沟道区域的前后方向,从而增加漏极扩散区域的分布电阻。 实现了诸如漏极电容降低,待机功耗降低和可调电阻范围更广的好处。
    • 9. 发明授权
    • Latch-up protection circuit for integrated circuits biased with multiple power supplies and its method
    • 用于多电源偏置的集成电路的锁存保护电路及其方法
    • US06473282B1
    • 2002-10-29
    • US09547186
    • 2000-04-11
    • Shi-Tron LinTa-Lee YuYung-Chow Peng
    • Shi-Tron LinTa-Lee YuYung-Chow Peng
    • H02H320
    • H01L27/0251
    • A latch-up protection circuit for an integrated circuit powered through a first power rail and a second power rail is disclosed, the integrated circuit having at least one semiconductor bulk of a conductivity type. The latch-up protection circuit comprises a control circuit and a switch circuit. The control circuit is connected to the first power rail and the second power rail for detecting a relative voltage therebetween and generating a first control signal and a second control signal. The switch circuit connected to the first power rail and the control circuit. When the relative voltage is greater than a first predetermined value, the switch circuit in response to the first control signal electrically connects the first power rail with the at least one semiconductor bulk. When the relative voltage is smaller than the first predetermined value, the switch in response to the first control signal electrically disconnects the first power rail from the at least one semiconductor bulk.
    • 公开了一种用于通过第一电力轨道和第二电力轨道供电的集成电路的闩锁保护电路,该集成电路具有至少一个导电类型的半导体本体。 闩锁保护电路包括控制电路和开关电路。 控制电路连接到第一电源轨和第二电源轨,用于检测它们之间的相对电压,并产生第一控制信号和第二控制信号。 开关电路连接到第一电源轨和控制电路。 当相对电压大于第一预定值时,响应于第一控制信号的开关电路将第一电源轨与至少一个半导体块电连接。 当相对电压小于第一预定值时,响应于第一控制信号的开关将第一电力轨与至少一个半导体块电气断开。