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    • 1. 发明申请
    • TRENCH ANTI-FUSE STRUCTURES FOR A PROGRAMMABLE INTEGRATED CIRCUIT
    • 用于可编程集成电路的抗融合结构
    • US20100230781A1
    • 2010-09-16
    • US12537473
    • 2009-08-07
    • Roger A. Booth, JR.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, JR.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • H01L23/525H01L21/768
    • H01L23/5252H01L2924/0002H01L2924/00
    • Trench anti-fuse structures, design structures embodied in a machine readable medium for designing, manufacturing, or testing a programmable integrated circuit. The anti-fuse structure includes a trench having a plurality of sidewalls that extend into a substrate, a doped region in the semiconductor material of the substrate proximate to the sidewalls of the trench, a conductive plug in the trench, and a dielectric layer on the sidewalls of the trench. The dielectric layer is disposed between the conductive plug and the doped region. The dielectric layer is configured so that a programming voltage applied between the doped region and the conductive plug causes a breakdown of the dielectric layer within a region of the trench. The trench sidewalls are arranged with a cross-sectional geometrical shape that is independent of position between a bottom wall of the deep trench and a top surface of the substrate.
    • 沟槽反熔丝结构,设计结构体现在用于设计,制造或测试可编程集成电路的机器可读介质中。 反熔丝结构包括具有延伸到衬底中的多个侧壁的沟槽,靠近沟槽侧壁的衬底的半导体材料中的掺杂区域,沟槽中的导电插塞以及沟槽中的介电层 沟槽的侧壁。 电介质层设置在导电插塞和掺杂区域之间。 电介质层被配置为使得施加在掺杂区域和导电插塞之间的编程电压导致沟槽区域内的电介质层的击穿。 沟槽侧壁布置成具有与深沟槽的底壁和基板的顶表面之间的位置无关的横截面几何形状。
    • 2. 发明授权
    • Electrically programmable π-shaped fuse structures and methods of fabrication thereof
    • 电气可编程的pi形熔丝结构及其制造方法
    • US07656005B2
    • 2010-02-02
    • US11768254
    • 2007-06-26
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • H01L29/00
    • H01L23/5256H01L2924/0002H01L2924/00
    • Electrically programmable fuse structures for an integrated circuit and methods of fabrication thereof are presented, wherein the electrically programmable fuse has a first terminal portion and a second terminal portion interconnected by a fuse element. The first terminal portion and the second terminal portion reside over a first support and a second support, respectively, with the first support and the second support being spaced apart, and the fuse element bridging the distance between the first terminal portion over the first support and the second terminal portion over the second support. The fuse, first support and second support define a π-shaped structure in elevational cross-section through the fuse element. The first terminal portion, second terminal portion and fuse element are coplanar, with the fuse element residing above a void, which in one embodiment is filed by a thermally insulating dielectric material that surrounds the fuse element.
    • 提出了用于集成电路的电可编程熔丝结构及其制造方法,其中电可编程熔丝具有由熔丝元件互连的第一端子部分和第二端子部分。 第一端子部分和第二端子部分分别驻留在第一支撑件和第二支撑件上,第一支撑件和第二支撑件间隔开,并且熔丝元件将第一端子部分之间的距离跨越第一支撑件和 在第二支撑件上方的第二端子部分。 保险丝,第一支撑件和第二支撑件通过保险丝元件在垂直截面中限定了一个pi形结构。 第一端子部分,第二端子部分和熔丝元件是共面的,其中熔丝元件位于空隙上方,在一个实施例中,熔断元件由围绕熔丝元件的绝热介电材料覆盖。
    • 3. 发明授权
    • Electrically programmable fuse structures with narrowed width regions configured to enhance current crowding and methods of fabricating thereof
    • 具有窄宽度区域的电可编程熔丝结构被配置为增强电流拥挤及其制造方法
    • US07531388B2
    • 2009-05-12
    • US11876942
    • 2007-10-23
    • Roger A. Booth, Jr.William R. TontiJack A. Mandelman
    • Roger A. Booth, Jr.William R. TontiJack A. Mandelman
    • H01L21/82H01L21/44
    • H01L23/5256H01L2924/0002H01L2924/00
    • Electrically programmable fuse structures and methods of fabrication thereof are presented, wherein a fuse includes first and second terminal portions interconnected by an elongate fuse element. The first terminal portion has a maximum width greater than a maximum width of the fuse element, and the fuse includes a narrowed width region where the first terminal portion and fuse element interface. The narrowed width region extends at least partially into and includes part of the first terminal portion. The width of the first terminal portion in the narrowed region is less than the maximum width of the first terminal portion to enhance current crowding therein. In another implementation, the fuse element includes a restricted width region wherein width of the fuse element is less than the maximum width thereof to enhance current crowding therein, and length of the restricted width region is less than a total length of the fuse element.
    • 提出了电可编程熔丝结构及其制造方法,其中熔丝包括通过细长的熔丝元件互连的第一和第二端部。 第一端子部分具有大于熔丝元件的最大宽度的最大宽度,并且熔丝包括第一端子部分和熔丝元件接合的变窄的宽度区域。 狭窄宽度区域至少部分地延伸并包括第一端子部分的一部分。 变窄区域中的第一端子部分的宽度小于第一端子部分的最大宽度,以增强其中的电流拥挤。 在另一实施方式中,熔丝元件包括限制宽度区域,其中熔丝元件的宽度小于其最大宽度以增强其中的电流拥挤,并且受限宽度区域的长度小于熔丝元件的总长度。
    • 4. 发明授权
    • Electrically programmable fuse structures with narrowed width regions configured to enhance current crowding and methods of fabrication thereof
    • 具有变宽的宽度区域的电可编程熔丝结构被配置为增强电流拥挤及其制造方法
    • US07417300B2
    • 2008-08-26
    • US11372386
    • 2006-03-09
    • Roger A. Booth, Jr.Jack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, Jr.Jack A. MandelmanWilliam R. Tonti
    • H01L29/00
    • H01L23/5256H01L2924/0002H01L2924/00
    • Electrically programmable fuse structures and methods of fabrication thereof are presented, wherein a fuse includes first and second terminal portions interconnected by an elongate fuse element. The first terminal portion has a maximum width greater than a maximum width of the fuse element, and the fuse includes a narrowed width region where the first terminal portion and fuse element interface. The narrowed width region extends at least partially into and includes part of the first terminal portion. The width of the first terminal portion in the narrowed region is less than the maximum width of the first terminal portion to enhance current crowding therein. In another implementation, the fuse element includes a restricted width region wherein width of the fuse element is less than the maximum width thereof to enhance current crowding therein, and length of the restricted width region is less than a total length of the fuse element.
    • 提出了电可编程熔丝结构及其制造方法,其中熔丝包括通过细长的熔丝元件互连的第一和第二端部。 第一端子部分具有大于熔丝元件的最大宽度的最大宽度,并且熔丝包括第一端子部分和熔丝元件接合的变窄的宽度区域。 狭窄宽度区域至少部分地延伸并包括第一端子部分的一部分。 变窄区域中的第一端子部分的宽度小于第一端子部分的最大宽度,以增强其中的电流拥挤。 在另一实施方式中,熔丝元件包括限制宽度区域,其中熔丝元件的宽度小于其最大宽度以增强其中的电流拥挤,并且受限宽度区域的长度小于熔丝元件的总长度。
    • 5. 发明授权
    • Electrically programmable π-shaped fuse structures and design process therefore
    • 因此电气可编程和形状的熔断器结构和设计过程
    • US07784009B2
    • 2010-08-24
    • US11923833
    • 2007-10-25
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • G06F17/50
    • H01L23/5256H01L2924/0002H01L2924/00
    • Electrically programmable fuses for an integrated circuit and design structures thereof are presented, wherein the electrically programmable fuse has a first terminal portion and a second terminal portion interconnected by a fuse element. The first terminal portion and the second terminal portion reside over a first support and a second support, respectively, with the first support and the second support being spaced apart, and the fuse element bridging the distance between the first terminal portion over the first support and the second terminal portion over the second support. The fuse, first support and second support define a π-shaped structure in elevational cross-section through the fuse element. The first terminal portion, second terminal portion and fuse element are coplanar, with the fuse element residing above a void. The design structure for the fuse is embodied in a machine-readable medium for designing, manufacturing or testing a design of the fuse.
    • 提出了用于集成电路的电可编程保险丝及其设计结构,其中电可编程熔丝具有由熔丝元件互连的第一端子部分和第二端子部分。 第一端子部分和第二端子部分分别驻留在第一支撑件和第二支撑件上,第一支撑件和第二支撑件间隔开,并且熔丝元件将第一端子部分之间的距离跨越第一支撑件和 在第二支撑件上方的第二端子部分。 保险丝,第一支撑件和第二支撑件通过保险丝元件在垂直截面中限定了一个“形”结构。 第一端子部分,第二端子部分和熔丝元件是共面的,其中熔丝元件位于空隙之上。 保险丝的设计结构体现在用于设计,制造或测试保险丝设计的机器可读介质中。
    • 6. 发明授权
    • Electrically programmable π-shaped fuse structures and methods of fabrication thereof
    • 电气可编程的pi形熔丝结构及其制造方法
    • US07288804B2
    • 2007-10-30
    • US11372380
    • 2006-03-09
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • H01L27/10
    • H01L23/5256H01L2924/0002H01L2924/00
    • Electrically programmable fuse structures for an integrated circuit and methods of fabrication thereof are presented, wherein the electrically programmable fuse has a first terminal portion and a second terminal portion interconnected by a fuse element. The first terminal portion and the second terminal portion reside over a first support and a second support, respectively, with the first support and the second support being spaced apart, and the fuse element bridging the distance between the first terminal portion over the first support and the second terminal portion over the second support. The fuse, first support and second support define a α-shaped structure in elevational cross-section through the fuse element. The first terminal portion, second terminal portion and fuse element are coplanar, with the fuse element residing above a void, which in one embodiment is filed by a thermally insulating dielectric material that surrounds the fuse element.
    • 提出了用于集成电路的电可编程熔丝结构及其制造方法,其中电可编程熔丝具有由熔丝元件互连的第一端子部分和第二端子部分。 第一端子部分和第二端子部分分别驻留在第一支撑件和第二支撑件上,第一支撑件和第二支撑件间隔开,并且熔丝元件将第一端子部分之间的距离跨越第一支撑件和 在第二支撑件上方的第二端子部分。 保险丝,第一支撑件和第二支撑件在通过熔断元件的正面横截面中限定了α形结构。 第一端子部分,第二端子部分和熔丝元件是共面的,其中熔丝元件位于空隙上方,在一个实施例中,熔断元件由围绕熔丝元件的绝热介电材料覆盖。
    • 7. 发明授权
    • Trench anti-fuse structures for a programmable integrated circuit
    • 用于可编程集成电路的沟槽反熔丝结构
    • US07977766B2
    • 2011-07-12
    • US12537473
    • 2009-08-07
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • Roger A. Booth, Jr.Kangguo ChengJack A. MandelmanWilliam R. Tonti
    • H01L21/00H01L23/535
    • H01L23/5252H01L2924/0002H01L2924/00
    • Trench anti-fuse structures, design structures embodied in a machine readable medium for designing, manufacturing, or testing a programmable integrated circuit. The anti-fuse structure includes a trench having a plurality of sidewalls that extend into a substrate, a doped region in the semiconductor material of the substrate proximate to the sidewalls of the trench, a conductive plug in the trench, and a dielectric layer on the sidewalls of the trench. The dielectric layer is disposed between the conductive plug and the doped region. The dielectric layer is configured so that a programming voltage applied between the doped region and the conductive plug causes a breakdown of the dielectric layer within a region of the trench. The trench sidewalls are arranged with a cross-sectional geometrical shape that is independent of position between a bottom wall of the deep trench and a top surface of the substrate.
    • 沟槽反熔丝结构,设计结构体现在用于设计,制造或测试可编程集成电路的机器可读介质中。 反熔丝结构包括具有延伸到衬底中的多个侧壁的沟槽,靠近沟槽侧壁的衬底的半导体材料中的掺杂区域,沟槽中的导电插塞以及沟槽中的介电层 沟槽的侧壁。 电介质层设置在导电插塞和掺杂区域之间。 电介质层被配置为使得施加在掺杂区域和导电插塞之间的编程电压导致沟槽区域内的电介质层的击穿。 沟槽侧壁布置成具有与深沟槽的底壁和基板的顶表面之间的位置无关的横截面几何形状。