会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Storage system
    • 存储系统
    • US07747799B2
    • 2010-06-29
    • US12123148
    • 2008-05-19
    • Yutaka NakagawaMasahiro Arai
    • Yutaka NakagawaMasahiro Arai
    • G06F7/00
    • G06F3/064G06F3/0608G06F3/0623G06F3/0689G06F11/1435G06F2201/84
    • Data transfer is performed to and from a host computer using a first block as the minimum unit. Data transfer is performed to and from a storage area using a second block as the minimum unit. A second block set of the storage area stores data obtained from performing data conversion processes that change the size of the data itself, with a first block set as the unit. Here a correspondence relationship is generated between the first block set and the second block set. In response to a read request from the host computer, a second block set, which corresponds to the first block set that includes the first block that is requested, is read, a reverse-conversion process is performed, and the data is sent to the host computer.
    • 使用第一块作为最小单位,从主计算机执行数据传送。 使用第二块作为最小单位,从存储区域执行数据传送。 存储区域的第二块组存储以执行改变数据本身的大小的数据转换处理获得的数据,以第一块为单位。 这里,在第一块组和第二块组之间产生对应关系。 响应于来自主计算机的读取请求,读取对应于包括所请求的第一块的第一块集的第二块集合,执行反向转换处理,并且将数据发送到 主机。
    • 5. 发明授权
    • Storage device and control method for the same
    • 存储设备和控制方法相同
    • US07380090B2
    • 2008-05-27
    • US11404633
    • 2006-04-14
    • Hideyuki KosekiJunji OgawaYutaka Nakagawa
    • Hideyuki KosekiJunji OgawaYutaka Nakagawa
    • G06F12/06
    • G06F3/0638G06F3/061G06F3/0683
    • A storage device according to the present invention has a first volume for storing discontinuous data transmitted from a host computer and a second volume for storing continuous data produced by address-converting discontinuous data, and includes: a data storing unit for converting the discontinuous data transmitted from the host computer into the continuous data and storing the continuous data in one of a plurality of third volumes formed by dividing up the second volume; a data management unit for managing transfer target data that has to be transferred from the third to the first volume, from among the discontinuous data stored in the third volume by the data storing unit; and a volume clearance unit for clearing the third volume having the smallest amount of transfer target data managed by the data management unit by transferring the transfer target data in the relevant third volume to the first volume.
    • 根据本发明的存储装置具有用于存储从主计算机发送的不连续数据的第一卷和用于存储通过地址转换不连续数据产生的连续数据的第二卷,包括:数据存储单元,用于将发送的不连续数据 从所述主计算机进入连续数据,并将所述连续数据存储在通过划分所述第二卷而形成的多个第三卷之一中; 数据管理单元,用于从数据存储单元从第三卷中存储的不连续数据中管理必须从第三卷到第一卷的传送目标数据; 以及体积清除单元,用于通过将有关的第三卷中的传送目标数据传送到第一卷来清除由数据管理单元管理的具有最小量的传送目标数据的第三卷。
    • 7. 发明授权
    • Display apparatus and a driving method for a display apparatus
    • 显示装置和显示装置的驱动方法
    • US5689280A
    • 1997-11-18
    • US714493
    • 1996-09-16
    • Goro AsariYutaka NakagawaTemkar N. RuckmongathanTakeshi Kuwata
    • Goro AsariYutaka NakagawaTemkar N. RuckmongathanTakeshi Kuwata
    • G09G3/36
    • G09G3/3625
    • A display apparatus in which the light transmittance of a pixel selected by a scanning electrode and a data electrode is changed in correspondence with a difference of voltages applied to the scanning electrode and the data electrode has a display panel having a plurality of scanning electrodes and a plurality of data electrodes, a signified video signal forming device for forming signified video signals by distributing digital video signals in a picture to subpictures having the same number as bits each having a bit significance; an orthogonal function generator for generating orthogonal function signals having substantial orthogonality; an orthogonal transformation signal generator for receiving the signified video signals and the orthogonal function signals to operate and output data signals; a scanning voltage generator for receiving scanning signals to apply scanning voltages to the scanning electrodes of the display panel; and a data voltage generator for receiving data signals to apply data voltages to the data electrodes of the display panel, wherein the scanning voltage generator and the data voltage generator are such ones that the peak value of a driving voltage, in each of the subpictures, applied to the display panel as a voltage difference between the scanning voltage and the data voltage corresponds to a significance value of a bit of the digital video signals.
    • 一种显示装置,其中由扫描电极和数据电极选择的像素的透光率与施加到扫描电极和数据电极的电压差对应地改变,具有具有多个扫描电极和 多个数据电极,用于通过将图像中的数字视频信号分配给具有与具有位有意义的位相同数目的子图来形成表示视频信号的表示视频信号形成装置; 正交函数发生器,用于产生具有实质正交性的正交函数信号; 正交变换信号发生器,用于接收所表示的视频信号和正交函数信号,以操作和输出数据信号; 扫描电压发生器,用于接收扫描信号以向显示面板的扫描电极施加扫描电压; 以及数据电压发生器,用于接收数据信号以向显示面板的数据电极施加数据电压,其中扫描电压发生器和数据电压发生器是这样的,即每个子图像中的驱动电压的峰值, 作为扫描电压和数据电压之间的电压差对应于数字视频信号的位的显着值,施加到显示面板。
    • 8. 发明申请
    • Disk array system and interface converter
    • 磁盘阵列系统和接口转换器
    • US20060095813A1
    • 2006-05-04
    • US11298715
    • 2005-12-12
    • Ikuya YagisawaYutaka NakagawaAzuma Kano
    • Ikuya YagisawaYutaka NakagawaAzuma Kano
    • G06F11/00
    • G06F11/3485G06F3/0614G06F3/0653G06F3/0661G06F3/0664G06F3/0689G06F11/0727G06F11/0757G06F11/3419G06F2201/865
    • The present invention aims to provide a high-reliability, low-cost disk array by emulating an ATA drive so that it can be used in the same way as an FC drive. To achieve this object, a disk array system of the present invention includes: a storage device having a logical unit logically set therein; the storage device includes: a plurality of disk devices having a first interface; and an interface converter converting between signals of the first interface adapted for the disk device and signals of a second interface adapted for the control device. The interface converter includes: a response time monitor portion for monitoring a time until a response is received from the disk device according to the data input/output request; and a notification issue portion for issuing to the control device a notification about an operative state of the disk device according to the monitored response time.
    • 本发明旨在通过仿真ATA驱动器来提供高可靠性,低成本的磁盘阵列,使得其可以以与FC驱动器相同的方式使用。 为了实现该目的,本发明的磁盘阵列系统包括:具有在其中逻辑设置的逻辑单元的存储装置; 所述存储装置包括:具有第一接口的多个盘装置; 以及在适于盘装置的第一接口的信号和适于控制装置的第二接口的信号之间转换的接口转换器。 接口转换器包括:响应时间监视器部分,用于根据数据输入/输出请求监视直到从盘装置接收到响应的时间; 以及通知发布部分,用于根据所监视的响应时间向控制设备发出关于盘设备的操作状态的通知。
    • 9. 发明申请
    • Storage system
    • 存储系统
    • US20050240854A1
    • 2005-10-27
    • US10857112
    • 2004-05-28
    • Yutaka NakagawaAkira NishimotoNaoto Matsunami
    • Yutaka NakagawaAkira NishimotoNaoto Matsunami
    • G06F12/08G06F3/06G06F11/10H03M13/00G11C29/00
    • G06F11/1084G06F11/1088
    • A storage system includes a group of storage devices which include back-up devices configured to assure appropriate response time. When a data request from a host computer arrives, and the number of failed devices has changed as shown by a device state management table, a determination is made regarding the number of devices from which to read data. This determination is made based on an indication of redundancy which indicates how many of the disk devices are allowed to be in a failed state at the time of data reading. Typically, the indication of redundancy is determined by the sum of the number of failed devices and a predetermined number. The determined number of devices are selected in accordance with a selection factor, and a selection result is written into a disk management table. Then, the reading process is executed with respect to the target disk devices.
    • 存储系统包括一组存储设备,其包括被配置为确保适当的响应时间的备份设备。 当来自主计算机的数据请求到达并且设备状态管理表所示的故障设备的数量已经改变时,确定从其读取数据的设备的数量。 该确定是基于指示冗余的指示进行的,其指示在数据读取时允许多少磁盘设备处于故障状态。 通常,冗余的指示由故障设备的数量和预定数量的总和确定。 根据选择因素选择确定的设备数量,并将选择结果写入盘管理表。 然后,相对于目标盘装置执行读取处理。
    • 10. 发明授权
    • Finely divided pigments and coloring compositions
    • 细分颜料和着色组合物
    • US06726762B2
    • 2004-04-27
    • US10180020
    • 2002-06-27
    • Hisao OkamotoYutaka NakagawaYoshiyuki ZamaKoji TsuchiyaShotoku TakamiYoshio AbeMichiei Nakamura
    • Hisao OkamotoYutaka NakagawaYoshiyuki ZamaKoji TsuchiyaShotoku TakamiYoshio AbeMichiei Nakamura
    • C09D500
    • C09D11/322C09B67/0022
    • A finely divided pigment is formed of an aggregate of primary particles. A number of primary particles of not greater than 0.1 &mgr;m in particle size is at least 95% of an entire number of the primary particles, and a number of primary particles of greater than 0.1 &mgr;m in particle size is at most 5% of the entire number of the primary particles. The finely divided pigment can be produced by grinding a parent pigment (pre-division pigment) together with a water-soluble inorganic salt and a water-soluble organic solvent in a grinding machine at a temperature of from 30 to 90° C. for 2 to 6 hours under a load, and then removing the water-soluble inorganic salt and the water-soluble organic solvent. A coloring composition comprises a dispersing medium and the finely divided pigment dispersed in the dispersing medium. The coloring composition is, for example, an image recording agent for the ink-jet recording system, an image recording agent for the electronic printing or electrostatic recording system, or a coloring agent for forming color filter pixels.
    • 精细分散的颜料由一次粒子的聚集体形成。 粒径不大于0.1μm的多个初级粒子为整个初级粒子的至少95%,粒径大于0.1μm的初级粒子的数量为整体的至多5% 初级粒子的数量。 精细分散的颜料可以通过在研磨机中在30至90℃的温度下研磨母体颜料(预分散颜料)和水溶性无机盐和水溶性有机溶剂一起制备2 在负载下6小时,然后除去水溶性无机盐和水溶性有机溶剂。 着色组合物包含分散介质和分散在分散介质中的细分散颜料。 着色组合物例如是用于喷墨记录系统的图像记录剂,用于电子印刷或静电记录系统的图像记录剂或用于形成滤色器像素的着色剂。