公开(公告)号：US20110044794A1

公开(公告)日：2011-02-24

申请号：US12934015

申请日：2009-03-27

申请人： Hitoi Ono ,  Takashi Sonoda ,  Naoto Tochitani ,  Makoto Kato ,  Masahide Umaya ,  Fuminori Fujii

发明人： Hitoi Ono ,  Takashi Sonoda ,  Naoto Tochitani ,  Makoto Kato ,  Masahide Umaya ,  Fuminori Fujii

IPC分类号： F01D17/06

CPC分类号： F02C1/05 ,  F01K13/02 ,  F01K25/00 ,  F02C1/10 ,  F02C9/18 ,  F05D2260/85 ,  F05D2270/30 ,  G21D1/02 ,  G21D3/08 ,  Y02E30/40

摘要： To provide a method of controlling a turbine equipment and a turbine equipment capable of carrying out a starting operation of controlling a load applied to a speed reducing portion while complying with a restriction imposed on an apparatus provided at a turbine equipment. The invention is characterized in including a speed accelerating step (S1) of increasing a revolution number by driving to rotate a compressing portion and a turbine portion by a motor by way of a speed reducing portion, a load detecting step (S2) of detecting a load applied to the speed reducing portion by a load detecting portion, and a bypass flow rate controlling step (S3) of increasing a flow rate of a working fluid bypassed from a delivery side to a suction side of the compressing portion when an absolute value of the detected load is equal to or smaller than an absolute value of a predetermined value and reducing the flow rate of the bypassed working fluid when equal to or larger than the absolute value of the predetermined value.

摘要翻译： 提供一种控制涡轮机设备和涡轮机设备的方法，该方法能够执行启动操作，以控制施加在减速部分上的负载，同时符合施加在设置在涡轮机设备上的设备的限制。 本发明的特征在于，包括通过驱动以通过减速部由马达使压缩部和涡轮部旋转来增加转数的加速步骤（S1），检测步骤 负载检测部分施加到减速部分的负载;以及旁路流量控制步骤（S3），当所述压缩部分的绝对值为绝对值时，将从输送侧旁路的工作流体的流量增加到所述压缩部分的吸入侧 检测到的负载等于或小于预定值的绝对值，并且当等于或大于预定值的绝对值时，降低旁路工作流体的流量。

公开(公告)号：US20110027066A1

公开(公告)日：2011-02-03

申请号：US12934022

申请日：2009-03-27

申请人： Hitoi Ono ,  Takashi Sonoda ,  Naoto Tochitani ,  Makoto Kato ,  Masahide Umaya ,  Fuminori Fujii

发明人： Hitoi Ono ,  Takashi Sonoda ,  Naoto Tochitani ,  Makoto Kato ,  Masahide Umaya ,  Fuminori Fujii

IPC分类号： F04D27/02 ,  F04D15/00

CPC分类号： F02C9/18 ,  F01K13/02 ,  F02C1/05 ,  F02C1/10 ,  F02C3/34 ,  F02C7/26 ,  F05D2260/85

摘要： To provide a method of controlling a turbine equipment and a turbine equipment capable of carrying out a starting operation of controlling a load applied to a speed reducing portion while complying with a restriction imposed on an apparatus provided at a turbine equipment. The invention is characterized in including a temperature elevating step (S1) of elevating a temperature of a working fluid flowing to the turbine portion, a flow rate increasing step (S2) of increasing a flow rate of a working fluid bypassed from a delivery side to a suction side of the compressing portion when a temperature of the working fluid flowing to the turbine portion is elevated by a heat source portion, and a flow rate reducing step (S3) of reducing the flow rate of the bypassing working fluid after an elapse of a predetermined time period after increasing the flow rate of the bypassing working fluid.

摘要翻译： 提供一种控制涡轮机设备和涡轮机设备的方法，该方法能够执行启动操作，以控制施加在减速部分上的负载，同时符合施加在设置在涡轮机设备上的设备的限制。 本发明的特征在于包括升高流向涡轮机部分的工作流体的温度的升温步骤（S1），增加从输送侧旁路的工作流体的流量的流量增加步骤（S2） 当通过热源部分流动到涡轮机部分的工作流体的温度升高时，压缩部分的吸入侧;以及减小流过工作流体的流量的流量降低步骤（S3） 在增加旁路工作流体的流量之后的预定时间段。

公开(公告)号：US07711962B2

公开(公告)日：2010-05-04

申请号：US10542009

申请日：2004-01-19

申请人： Makoto Kato

发明人： Makoto Kato

IPC分类号： G06F11/30 ,  G06F12/14

CPC分类号： H04L9/00 ,  H04L9/32 ,  H04L2209/80

摘要： An apparatus (1) on a sending side sends a first signal (S1) containing encrypted data that was encrypted using conversion constants (Y, Zy′), and a conversion constant (X) to an apparatus (1) on the receiving side; the apparatus (1) on the sending side sends a second signal (S2) containing encrypted data that was encrypted using conversion constants (X, Zy′), and a conversion constant (Y), and pattern-conversion constants (Zy) that correspond to conversion constant (Zy′) to a relay apparatus (2). The relay apparatus (2) transfers a second′ signal (S2′) in which a pattern-conversion constant (Zy) in the second signal (S2) has been converted to a conversion constant (Zy′) to the apparatus (1) on the receiving side. The apparatus (1) on the receiving side reads the encrypted data and conversion constants (X, Y, Zy′) from the first signal (S1) and second′ signal (S2′), then decodes and authenticates the encrypted data.

摘要翻译： 发送侧的装置（1）将包含使用转换常数（Y，Zy'）加密的加密数据和转换常数（X）的第一信号（S1）发送到接收侧的装置（1） 发送侧的装置（1）发送包含使用转换常数（X，Zy'）和转换常数（Y）加密的加密数据的第二信号（S2），以及对应于图形转换常数（Zy） 到转换常数（Zy'）到中继装置（2）。 中继装置（2）将其中第二信号（S2）中的模式转换常数（Zy）已经被转换为设备（1）的转换常数（Zy'）的第二信号（S2'）传送到 接收方。 接收侧的装置（1）从第一信号（S1）和第二信号（S2'）读取加密数据和转换常数（X，Y，Zy'），然后对加密数据进行解码和认证。

公开(公告)号：US07550127B2

公开(公告)日：2009-06-23

申请号：US11712258

申请日：2007-02-28

申请人： Tatsuhito Takahashi ,  Tsuneo Isoo ,  Makoto Kato ,  Haruyoshi Tanabe

发明人： Tatsuhito Takahashi ,  Tsuneo Isoo ,  Makoto Kato ,  Haruyoshi Tanabe

IPC分类号： C01F11/18

CPC分类号： A01G33/00 ,  B01D53/62 ,  B01D2251/404 ,  B01D2251/604 ,  B01D2257/504 ,  C01F11/18 ,  Y02C10/04 ,  Y02P20/152 ,  Y02P60/247

摘要： A method for effectively absorbing and removing CO2 in an exhaust gas generated during an industrial process for reducing the amount of CO2 that is exhausted into the atmosphere. The exhaust gas containing CO2 is blown into an agglomerate of solid particles containing CaO and/or Ca(OH)2 so that the CO2 is in contact with the agglomerate for fixing the CO2 in the exhaust gas as CaCO3, thereby reducing the CO2 concentration in the exhaust gas. Preferably, the solid particles contain water, and more preferably, the solid particles contain surface adhesive water.

摘要翻译： 一种用于在工业过程中产生的用于有效地吸收和去除排放气体中的CO 2的方法，用于减少排入大气中的CO 2的量。 将含有CO 2的废气吹入含有CaO和/或Ca（OH）2的固体颗粒的附聚物中，使得CO 2与附聚物接触，以将CO 2固定在废气中作为CaCO 3，从而降低CO 2浓度 废气。 优选地，固体颗粒含有水，更优选地，固体颗粒含有表面粘合剂水。

公开(公告)号：US20090030324A1

公开(公告)日：2009-01-29

申请号：US11577065

申请日：2005-10-18

申请人： Makoto Kato ,  Hisashi Hagawara ,  Yoshinao Tannaka

发明人： Makoto Kato ,  Hisashi Hagawara ,  Yoshinao Tannaka

IPC分类号： A61B8/14

CPC分类号： G01S15/899 ,  A61B5/02007 ,  A61B5/021 ,  A61B8/08 ,  A61B8/485 ,  A61B8/543 ,  G01S7/52036 ,  G01S7/52042 ,  G01S7/52087

摘要： The ultrasonic diagnostic apparatus of the present invention includes: a transmitting section 14 for driving an ultrasonic probe 13 to send an ultrasonic transmitted wave to an organism's tissue; a receiving section 15 for amplifying an ultrasonic reflected wave, produced by getting the transmitted wave reflected by the tissue and received by the ultrasonic probe 13, to generate a received signal; a frame calculating section 19 for calculating shape measured values of the tissue based on the received signal and figuring out a spatial distribution frame, representing the spatial distribution of the shape measured values and/or property measured values of the organism every cardiac cycle, based on the shape measured values of the tissue; a difference calculating section 19 for calculating a difference between the shape measured values or property measured values of two of the spatial distribution frames calculated every cardiac cycle; a storage section for storing the shape measured values, property measured values and/or difference; and a display section 21 for presenting the frames thereon.

摘要翻译： 本发明的超声波诊断装置包括：发送部14，用于驱动超声波探头13向生物体的组织发送超声波发送波; 接收部分15，用于放大由超声波探头13接收的由组织反射的透射波产生的超声波反射波，以产生接收信号; 一个帧计算部分19，用于基于接收的信号计算组织的形状测量值，并基于每个心动周期计算出代表每个心动周期的生物体的形状测量值和/或属性测量值的空间分布的空间分布帧，基于 组织的形状测量值; 差分计算部分19，用于计算每个心动周期计算的两个空间分布帧的形状测量值或特性测量值之间的差; 用于存储形状测量值，特性测量值和/或差值的存储部分; 以及用于在其上呈现框架的显示部分21。

公开(公告)号：US20090012399A1

公开(公告)日：2009-01-08

申请号：US11815581

申请日：2006-02-06

申请人： Kazuhiro Sunagawa ,  Yoshinao Tannaka ,  Makoto Kato

发明人： Kazuhiro Sunagawa ,  Yoshinao Tannaka ,  Makoto Kato

IPC分类号： A61B8/00

CPC分类号： A61B8/0858 ,  A61B5/02007 ,  G01S7/52036 ,  G01S7/52042 ,  G01S15/8918 ,  G01S15/8925 ,  G01S15/8984

摘要： The ultrasonic diagnostic apparatus of the invention evaluates a shape or qualitative property of an organism's arterial wall tissue and includes: a delay control section 3 for controlling delays for ultrasonic vibrators 1 in an ultrasonic probe 2; a transmitting section 5 for driving the probe under the control of the control section 3 such that the probe 2 transmits a first ultrasonic beam toward different locations within a scan region, defined along the axis of the artery, every predetermined frame period; a receiving section 6 for receiving ultrasonic echoes, generated by getting the first beam reflected by the wall, at the probe every set of frame periods, thereby outputting a first group of ultrasonic echo signals; and a signal processing section 13 for calculating a thickness variation, or elasticity, of the tissue between measuring points on the tissue in response to the first group of echo signals. The section 13 selects one of the echo signals of the first group every frame period according to an axial velocity of the tissue to make calculations at each measuring point.

摘要翻译： 本发明的超声波诊断装置对生物体的动脉壁组织的形状或质量特性进行评价，包括：延迟控制部3，用于控制超声波探头2中的超声波振动体1的延迟; 发射部分5，用于在控制部分3的控制下驱动探针，使得探针2以预定的帧周期沿着动脉轴限定的扫描区域内的不同位置发射第一超声波束; 接收部分6，用于接收通过在每个帧周期中的探测器处获取由壁反射的第一光束而产生的超声回波，从而输出第一组超声波回波信号; 以及信号处理部分13，用于响应于第一组回波信号计算组织上的测量点之间的组织的厚度变化或弹性。 部分13根据组织的轴向速度在每个帧周期中选择第一组的回波信号之一，以在每个测量点进行计算。

公开(公告)号：US20080203400A1

公开(公告)日：2008-08-28

申请号：US12025445

申请日：2008-02-04

申请人： Kenji Fukuda ,  Junji Senzaki ,  Shinsuke Harada ,  Makoto Kato ,  Tsutomu Yatsuo ,  Mitsuo Okamoto

发明人： Kenji Fukuda ,  Junji Senzaki ,  Shinsuke Harada ,  Makoto Kato ,  Tsutomu Yatsuo ,  Mitsuo Okamoto

IPC分类号： H01L29/161

CPC分类号： H01L29/7802 ,  H01L21/049 ,  H01L21/8213 ,  H01L21/823807 ,  H01L21/823857 ,  H01L21/823885 ,  H01L27/092 ,  H01L29/045 ,  H01L29/1608 ,  H01L29/66068 ,  H01L29/7395 ,  H01L29/7835

摘要： A semiconductor device and a method of manufacturing the device using a (000-1)-faced silicon carbide substrate are provided. A SiC semiconductor device having a high blocking voltage and high channel mobility is manufactured by optimizing the heat-treatment method used following the gate oxidation. The method of manufacturing a semiconductor device includes the steps of forming a gate insulation layer on a semiconductor region formed of silicon carbide having a (000-1) face orientation, forming a gate electrode on the gate insulation layer, forming an electrode on the semiconductor region, cleaning the semiconductor region surface. The gate insulation layer is formed in an atmosphere containing 1% or more H2O (water) vapor at a temperature of from 800° C. to 1150° C. to reduce the interface trap density of the interface between the gate insulation layer and the semiconductor region.

摘要翻译： 提供半导体器件和使用（000-1）面的碳化硅衬底的器件的制造方法。 通过优化栅极氧化后使用的热处理方法来制造具有高阻断电压和高沟道迁移率的SiC半导体器件。 制造半导体器件的方法包括以下步骤：在由具有（000-1）面取向的碳化硅形成的半导体区上形成栅极绝缘层，在栅极绝缘层上形成栅电极，在半导体上形成电极 区域，清洁半导体区域表面。 在800℃至1150℃的温度下，在含有1％或更多的H 2 O（水）蒸气的气氛中形成栅极绝缘层，以降低界面陷阱密度 栅极绝缘层和半导体区域之间的界面。

公开(公告)号：US07404798B2

公开(公告)日：2008-07-29

申请号：US10519885

申请日：2004-03-03

申请人： Makoto Kato ,  Masahiko Hashimoto

发明人： Makoto Kato ,  Masahiko Hashimoto

IPC分类号： A61B8/00

CPC分类号： A61B5/02007 ,  A61B5/0456 ,  A61B8/06 ,  A61B8/0858 ,  A61B8/13 ,  A61B8/463 ,  A61B8/485 ,  A61B8/488 ,  G01S7/52042 ,  G01S7/52073 ,  G01S7/52074 ,  G01S15/8979

摘要： An ultrasonic diagnostic apparatus is provided with an ultrasonic probe driving section 2, a receiving section 5 for amplifying an ultrasonic reflected wave, a phase detecting section 6 for phase-detecting the ultrasonic reflected wave, a velocity computing section 10 for obtaining the velocity of an object to be measured at a plurality of measuring positions on the object to be measured from a phase-detected signal, a computing section 10 for obtaining the deformation amount and/or elastic module between measuring positions of the object to be measured from the velocity, a fluid determining section 9 for determining a fluid portion in the object to be measured in accordance with the phase-detected signal, and an image data generating section 72 for two-dimensionally image-displaying the deformation amount and/or elastic module of the object to be measured in a region other than the fluid portion by using the information determined by the fluid determining section.

摘要翻译： 超声波诊断装置设置有超声波探头驱动部2，用于放大超声波反射波的接收部5，用于相位检测超声波反射波的相位检测部6，用于获取超声波反射波的速度的速度计算部10 从相位检测信号在被测量物体上的多个测量位置测量的物体;计算部分10，用于根据速度获得被测量物体的测量位置之间的变形量和/或弹性模块; 用于根据相位检测信号确定待测量物体中的流体部分的流体确定部分9和用于二维图像显示物体的变形量和/或弹性模块的图像数据产生部分72 通过使用由流体确定部确定的信息在除了流体部分之外的区域中测量。

公开(公告)号：US20080021318A1

公开(公告)日：2008-01-24

申请号：US11572726

申请日：2005-07-27

申请人： Makoto Kato ,  Hisashi Hagiwara ,  Kazuhiro Sunagawa ,  Yoshinao Tannaka

发明人： Makoto Kato ,  Hisashi Hagiwara ,  Kazuhiro Sunagawa ,  Yoshinao Tannaka

IPC分类号： A61B8/00

CPC分类号： A61B8/08 ,  A61B5/02007 ,  A61B5/1075 ,  A61B8/0858 ,  A61B8/0891 ,  A61B8/485 ,  A61B8/543 ,  G01S7/52042 ,  G01S15/8906

摘要： An ultrasonic diagnostic apparatus according to the present invention includes: a transmitting section 14 for driving an ultrasonic probe 13 sending out an ultrasonic transmitted wave toward a tissue of an organism; a receiving section 15 for receiving an ultrasonic reflected wave, produced by getting the ultrasonic transmitted wave reflected by the tissue of the organism, through the ultrasonic probe to generate a received signal; a phase detecting section 17 for detecting the phase of the received signal to generate a phase detected signal; a positional displacement calculating section 31a for calculating the magnitudes of positional displacements at multiple measuring points, set on the tissue of the organism, based on the phase detected signal; a thickness variation calculating section 31b for calculating thicknesses or thickness variations, each measured between two arbitrary points set with respect to the measuring points, based on the magnitudes of positional displacements; and a maximum/minimum value calculating section 31c for finding the maximum and minimum thicknesses or thickness variations during a maximum value finding period and a minimum value finding period, which are defined as respective partial periods of one cardiac cycle of the organism. At least one of the greatest thickness difference, strain and elastic property is calculated based on a difference between the maximum and minimum thicknesses or thickness variations.

摘要翻译： 根据本发明的超声波诊断装置包括：发送部分14，用于驱动向生物体的组织发送超声波发射波的超声波探头13; 接收部15，其通过超声波探头接收由生物体的组织反射的超声波发送波而产生的超声波反射波，生成接收信号; 相位检测部分17，用于检测接收信号的相位以产生相位检测信号; 基于所述相位检测信号计算在所述生物体的组织上设定的多个测量点的位置位移的大小的位置位移计算部31a; 厚度变化计算部分31b，用于基于位移位移的大小来计算在相对于测量点设置的两个任意点之间测量的厚度或厚度变化; 以及最大/最小值计算部分31c，用于在最大值发现周期和最小值发现周期中找到最大和最小厚度或厚度变化，其被定义为生物体的一个心动周期的相应部分周期。 基于最大厚度和最小厚度或厚度变化之间的差异计算最大厚度差，应变和弹性的至少一个。

公开(公告)号：US20060239455A1

公开(公告)日：2006-10-26

申请号：US10542009

申请日：2004-01-19

申请人： Makoto Kato

发明人： Makoto Kato

IPC分类号： H04N7/167

CPC分类号： H04L9/00 ,  H04L9/32 ,  H04L2209/80

摘要： An apparatus 1 on the sending side sends a first signal S1 containing encrypted data that was encrypted using conversion constants Y, Zy′, and a conversion constant X to an apparatus 1 on the receiving side; the apparatus 1 on the sending side sends a second signal S2 containing encrypted data that was encrypted using conversion constants X, Zy′, and a conversion constant Y and pattern-conversion constants Zy that correspond to conversion constant Zy′ to a relay apparatus 2; the relay apparatus 2 transfers a second′ signal S2′ in which a pattern-conversion constant Zy in the second signal S2 has been converted to a conversion constant Zy′ to the apparatus 1 on the receiving side; the apparatus 1 on the receiving side reads the encrypted data and conversion constants X, Y, Zy′ from the first signal S1 and second′ signal S2′, then decodes and authenticates the encrypted data.

摘要翻译： 发送侧的装置1将包含使用转换常数Y，Zy'和转换常数X加密的加密数据的第一信号S1发送到接收侧的装置1; 发送侧的装置1向中继装置2发送包含使用转换常数X，Zy'和转换常数Y加密的加密数据的第二信号S2以及与转换常数Zy'对应的模式转换常数Zy ; 中继装置2将第二信号S 2中的图案转换常数Zy已转换为接收侧的装置1的转换常数Zy'的第二“信号S 2” 接收侧的装置1从第一信号S 1和第二信号S 2读取加密数据和转换常数X，Y，Zy'，然后对加密数据进行解码和认证。