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    • 1. 发明申请
    • INFORMATION PROCESSING SYSTEM FOR CALCULATING THE NUMBER OF REDUNDANT LINES OPTIMAL FOR MEMORY DEVICE
    • 用于计算存储器件最佳冗余线数量的信息处理系统
    • US20070247937A1
    • 2007-10-25
    • US11736435
    • 2007-04-17
    • Ichiro MoriyamaSeiji Ishikawa
    • Ichiro MoriyamaSeiji Ishikawa
    • G11C29/00
    • G11C29/56G11C29/56008G11C29/72
    • An information processing system of the invention has a database in which test results for a plurality of memory devices mounted on a wafer are stored and a computer for analyzing the test results. The computer includes a data retrieval section for retrieving a test result from the database; and a required redundant line quantity calculation section for determining the total number of redundant lines which is required for recovering failed bits of the memory device based on the test results, deciding how the required total number of redundant lines should be assigned in each of the row and column directions, and calculating the total number of redundant lines required for recovery and the number of redundant lines assigned in each of the row and columns directions on the memory device, and the computer displays a result of calculation by the required redundant line quantity calculation section.
    • 本发明的信息处理系统具有数据库,其中存储安装在晶片上的多个存储器件的测试结果和用于分析测试结果的计算机。 计算机包括用于从数据库检索测试结果的数据检索部分; 以及所需的冗余线路量计算部分,用于基于测试结果来确定用于恢复存储器件的故障比特所需的冗余线路的总数,决定如何在每行中分配所需的冗余线路总数 和列方向,以及计算恢复所需的冗余线路总数和在存储设备上的行和列方向中的每一个方向上分配的冗余线路数量,并且计算机根据所需的冗余线路数量计算显示计算结果 部分。
    • 2. 发明授权
    • Support member of vibrator
    • 支持振动器的成员
    • US08434363B2
    • 2013-05-07
    • US12840619
    • 2010-07-21
    • Seiji IshikawaTakayuki KikuchiShigeki Hayashi
    • Seiji IshikawaTakayuki KikuchiShigeki Hayashi
    • G01C19/56H01L41/00
    • G01C19/5621G01C19/5628G01C19/5783
    • The present invention provides, in a physical quantity measuring system using a vibrator, a supporting structure of a vibrator for reducing the zero-point temperature drift of detection signal. It is provided a supporting member for supporting a vibrator with bonding wires. The supporting member has a supporting plate with an opening formed therein to be positioned direct under a vibrator, and a bonding wire comprising a bonding end to be bonded with the vibrator, a fixed portion fixed on the supporting plate and a bent portion direct under the opening. A distance “L1” between the bent portion and a position where the bonding wire starts to protrude from the supporting plate is 10 percent or more of a distance “L2” of the bent portion and the bonding end.
    • 本发明在使用振动器的物理量测量系统中提供一种用于减小检测信号的零点温度漂移的振动器的支撑结构。 设置有用于用键合线支撑振动器的支撑构件。 支撑构件具有形成在其中的开口的支撑板,直接位于振动器的下方,并且接合线包括与振动器接合的接合端,固定在支撑板上的固定部分和直接在振动器下方的弯曲部分 开放 弯曲部和接合线从支撑板开始突出的位置之间的距离“L1”为弯曲部和接合端的距离“L2”的10%以上。
    • 3. 发明申请
    • MASKLESS EXPOSURE METHOD
    • MASKLESS曝光方法
    • US20090262319A1
    • 2009-10-22
    • US12390687
    • 2009-02-23
    • Hiroyasu MatsuuraSeiji IshikawaTadamichi WachiToshimasa Ishigaki
    • Hiroyasu MatsuuraSeiji IshikawaTadamichi WachiToshimasa Ishigaki
    • G03B27/42
    • G03F7/70791G03F7/70433
    • A maskless exposure method of drawing a circuit pattern includes: moving a substrate with respect to a projection optical system; scanning, by the projection optical system, the substrate in a first direction; shifting a scanning region in a second direction; scanning the substrate in the first direction so that an overlapping part is formed. A plurality of marks different from the circuit pattern are exposed in a vicinity of the overlapping part. The plurality of marks are a set of marks at least including two marks disposed on one side of the overlapping part and two marks disposed on another side of the overlapping part. Deviations between the pair of the scanning regions, an inclination of exposing light, and a yawing angle of a stage are analyzed by measuring deviations of distances among the plurality of marks. Calibration data are obtained from a result of the analyzing.
    • 绘制电路图案的无掩模曝光方法包括:相对于投影光学系统移动基板; 通过投影光学系统沿第一方向扫描基板; 沿第二方向移动扫描区域; 在第一方向扫描基板,从而形成重叠部分。 与电路图案不同的多个标记在重叠部分附近露出。 多个标记是至少包括设置在重叠部分的一侧上的两个标记和设置在重叠部分的另一侧上的两个标记的一组标记。 通过测量多个标记之间的距离的偏差来分析一对扫描区域之间的偏差,曝光的倾斜度和舞台的偏航角度。 校准数据是从分析结果中获得的。
    • 4. 发明申请
    • PNEUMATIC TIRE
    • 气动轮胎
    • US20090165909A1
    • 2009-07-02
    • US12295425
    • 2007-03-30
    • Fumio TakahashiSeiji Ishikawa
    • Fumio TakahashiSeiji Ishikawa
    • B60C11/13
    • B60C11/0306B60C11/0318B60C11/0332B60C11/04
    • In a pneumatic tire provided on a groove surface with at least one main groove continuously extending in the circumferential direction of the tire, the air column resonance noise is effectively reduced without reducing the volume of the main groove, and the design flexibility is enhanced in consideration of the entire property of the tire. A pneumatic tire of the present invention is provided on a tread surface 1 with a main groove 2 continuously extending in the circumferential direction of the tire and a sub groove 4 having two ends open to the common main groove 2 and a portion between the ends deviously extending in a common land portion, and characterized in that the sub groove 4 is configured to extend to be entirely included in a ground contact area of the tread when the tire mounted to an applicable rim is inflated with the maximum air pressure and is postured to be applied by a load corresponding to 80% of a defined mass.
    • 在具有沿轮胎周向连续延伸的至少一个主槽的槽面上设置的充气轮胎中,在不减小主槽体积的情况下,有效地降低了气柱谐振噪声,考虑到设计灵活性的提高 的轮胎的整个财产。 本发明的充气轮胎设置在胎面1上,主槽2在轮胎的周向上连续延伸,而副槽4具有向公共主槽2敞开的两个端部和两端之间的一部分, 在公共陆地部分延伸,其特征在于,当安装在适用的轮辋上的轮胎以最大的空气压力膨胀时,副槽4被构造成完全包括在胎面的接地区域中,并被贴合到 通过对应于定义质量的80%的负载施加。
    • 5. 发明授权
    • Support member of vibrator
    • 支持振动器的成员
    • US07456554B2
    • 2008-11-25
    • US11430531
    • 2006-05-09
    • Seiji IshikawaTakayuki KikuchiShigeki Hayashi
    • Seiji IshikawaTakayuki KikuchiShigeki Hayashi
    • H01L41/00
    • G01C19/5621G01C19/5628G01C19/5783
    • The present invention provides, in a physical quantity measuring system using a vibrator, a supporting structure of a vibrator for reducing the zero-point temperature drift of detection signal. It is provided a supporting member 22 for supporting a vibrator 1A with bonding wires 26. The supporting member 22 has a supporting plate 40 with an opening 25 formed therein to be positioned direct under a vibrator 1A, and a bonding wire 26 comprising a bonding end 29 to be bonded with the vibrator 1A, a fixed portion 26a fixed on the supporting plate 40 and a bent portion 28 direct under the opening 25. A distance “L1” between the bent portion 28 and a position 39 where the bonding wire 26 starts to protrude from the supporting plate 40 is 10 percent or more of a distance “L2” of the bent portion 28 and the bonding end 29.
    • 本发明在使用振动器的物理量测量系统中提供一种用于减小检测信号的零点温度漂移的振动器的支撑结构。 设置有用于用接合线26支撑振动器1A的支撑构件22。 支撑构件22具有形成在其中的开口25的支撑板40,其直接位于振动器1A的下方,以及接合线26,其包括与振动器1A接合的接合端29,固定部26a固定 在支撑板40上,弯曲部28直接位于开口25的下方。 弯曲部28与接合线26从支撑板40开始突出的位置39之间的距离“L 1”为弯曲部28和接合端29的距离“L 2”的10%以上 。
    • 6. 发明申请
    • Support member of vibrator
    • 支持振动器的成员
    • US20060267458A1
    • 2006-11-30
    • US11430531
    • 2006-05-09
    • Seiji IshikawaTakayuki KikuchiShigeki Hayashi
    • Seiji IshikawaTakayuki KikuchiShigeki Hayashi
    • H01L41/00
    • G01C19/5621G01C19/5628G01C19/5783
    • The present invention provides, in a physical quantity measuring system using a vibrator, a supporting structure of a vibrator for reducing the zero-point temperature drift of detection signal. It is provided a supporting member 22 for supporting a vibrator 1A with bonding wires 26. The supporting member 22 has a supporting plate 40 with an opening 25 formed therein to be positioned direct under a vibrator 1A, and a bonding wire 26 comprising a bonding end 29 to be bonded with the vibrator 1A, a fixed portion 26a fixed on the supporting plate 40 and a bent portion 28 direct under the opening 25. A distance “L1” between the bent portion 28 and a position 39 where the bonding wire 26 starts to protrude from the supporting plate 40 is 10 percent or more of a distance “L2” of the bent portion 28 and the bonding end 29.
    • 本发明在使用振动器的物理量测量系统中提供一种用于减小检测信号的零点温度漂移的振动器的支撑结构。 设置有用于用接合线26支撑振动器1A的支撑构件22。 支撑构件22具有形成在其中的开口25的支撑板40,其直接位于振动器1A的下方,以及接合线26,其包括与振动器1A接合的接合端29,固定部26a固定 在支撑板40上,弯曲部28直接位于开口25的下方。 弯曲部28与接合线26从支撑板40开始突出的位置39之间的距离“L 1”为弯曲部28和接合端29的距离“L 2”的10%以上 。