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    • 21. 发明申请
    • SUPPLY APPARATUS, SEMICONDUCTOR MANUFACTURING APPARATUS AND SEMICONDUCTOR MANUFACTURING METHOD
    • 供应设备,半导体制造设备和半导体制造方法
    • US20100015791A1
    • 2010-01-21
    • US12405620
    • 2009-03-17
    • Takashi TanakaYusuke SaitoMitsuaki Iwashita
    • Takashi TanakaYusuke SaitoMitsuaki Iwashita
    • H01L21/3205B05C5/00B05B7/16
    • C25D17/001H01L21/288H01L21/76849
    • A film of uniform thickness can be formed on the entire surface of a substrate. A processing solution supply apparatus includes: a nozzle provided with a supply hole for discharging a plating solution toward a processing surface of a substrate held in a substantially horizontal direction; a temperature controller for accommodating therein the plating solution in an amount necessary for processing a preset number of substrates, for controlling a temperature of the accommodated plating solution up to a preset temperature; a heat insulator disposed between the nozzle and the temperature controller, for maintaining the plating solution, whose temperature has been controlled by the temperature controller, at the preset temperature; and a transporting mechanism for transporting the plating solution, whose temperature has been controlled up to the preset temperature by the temperature controller, toward the supply hole of the nozzle via the heat insulator.
    • 可以在基板的整个表面上形成均匀厚度的膜。 一种处理液供给装置,包括:喷嘴,具有用于向保持在大致水平方向的基板的处理面排出电镀液的供给孔; 温度控制器,用于在其中容纳处理预设数量的基板所需的量的电镀液,用于将所容纳的电镀液的温度控制到预设温度; 设置在喷嘴和温度控制器之间的隔热件,用于将温度由温度控制器控制的电镀液保持在预设温度; 以及传送机构,其通过温度控制器将温度被控制到预设温度的电镀液通过隔热件输送到喷嘴的供给孔。
    • 23. 发明授权
    • System and method for location recognition using IC tags
    • 使用IC标签进行位置识别的系统和方法
    • US07605699B2
    • 2009-10-20
    • US10597112
    • 2005-01-13
    • Takashi Tanaka
    • Takashi Tanaka
    • G08B13/14
    • G01S13/825G01S13/74G01V15/00
    • Locations of IC tags affixed to items are automatically recognized without requiring interrogators or antennas are allocated at respective inventory locations.To attain this object, interrogator 1 firstly transmits a unique ID readout command specifying read range, and corresponding IC tags 2a, 2b, 2c sequentially reply their unique IDs (Xa), (Xb), (Xc) respectively.At the same time, interrogator 1 transmits a probe signal send out command specifying ID, and corresponding IC tags 2a, 2b, 2c sequentially send out probe signals respectively.IC tag 2 that detects a probe signal with reception strength more than a predetermined level stores in its memory IDs (Xa), (Xb), (Xc) that interrogator 1 specified as adjacent ID.Then, interrogator 1 transmits an adjacent ID readout command specifying ID, and corresponding IC tags 2a, 2b, 2c sequentially reply adjacent IDs (Xb), (Xa.Xc), (Xb) stored in their memory respectively.Lastly, all possible combinations (Xa-Xb), (Xb-Xa), (Xb-Xc), (Xc-Xb) of unique IDs (Xa), (Xb), (Xc) and adjacent IDs (Xb), (Xa.Xc), (Xb) that controller 3 has collected via interrogator 1 are obtained and any identical combinations are excluded so that (Xa-Xb), (Xb-Xc) remain as final combinations, and the final combinations having one side in common are joined to produce a link pattern of ID information.Thus, it is understood that IC tags 2a, 2b, 2c exist in the same communication area B, and are arranged in order of 2a, 2b, 2c.
    • 自动识别固定在项目上的IC标签的位置,而不需要在相应的库存位置分配询问器或天线。 为了达到该目的,询问器1首先发送指定读取范围的唯一ID读出命令,并且相应的IC标签2a,2b,2c分别顺序地回复它们的唯一ID(Xa),(Xb),(Xc)。 同时,询问器1发送探测信号发出命令指定ID,相应的IC标签2a,2b,2c分别依次发送探测信号。 检测接收强度大于预定水平的探测信号的IC标签2存储在其被指定为相邻ID的询问器1的存储器ID(Xa),(Xb),(Xc)中。 然后,询问器1发送相邻的ID读出命令指定ID,对应的IC标签2a,2b,2c分别依次回复存储在其存储器中的相邻ID(Xb),(Xa.Xc),(Xb)。 最后,唯一ID(Xa),(Xb),(Xc)和相邻ID(Xb)(Xb),(Xb),(Xb-Xb),(Xb-Xa) 获得控制器3已经通过询问器1收集的Xa.Xc),(Xb),并且排除任何相同的组合,使得(Xa-Xb),(Xb-Xc)保持为最终组合,并且具有一侧的最终组合 通用连接产生ID信息的链接模式。 因此,可以理解,IC标签2a,2b,2c存在于相同的通信区域B中,按照2a,2b,2c的顺序排列。
    • 24. 发明申请
    • MOTOR DRIVE DEVICE
    • 电机驱动装置
    • US20090251831A1
    • 2009-10-08
    • US12306180
    • 2007-06-28
    • Kenjiro ShibaTakashi TanakaNobutaka Tanaka
    • Kenjiro ShibaTakashi TanakaNobutaka Tanaka
    • H02H9/02
    • H02M1/32B60L3/003B60L9/18H02M7/53871H02P27/06H02P29/032
    • When an upper arm of U-phase has failed because of short-circuit, lower arms of V-phase phase and W-phase as the opposite arms are switching-operated. When only the lower arm of V-phase is turned on, a route of motor current passing through an IGBT element from a V-phase coil is formed, and therefore, the motor current returning to the short-circuited phase decreases. Further, by the switching operation of the arm opposite to the short-circuited arm, an AC current is induced in a motor generator. Therefore, it is possible to continuously drive the motor generator while preventing increase in the current passing through the short-circuited phase, without adding a new device structure. This ensures running of the vehicle in the limp mode.
    • 当U相的上臂由于短路而发生故障时,V相的下臂和作为相对臂的W相都是开关操作的。 当V相的下臂仅导通时,形成从V相线圈通过IGBT元件的电动机电流的路径,因此返回到短路相的电动机电流减小。 此外,通过与短路臂相对的臂的开关动作,在电动发电机中产生交流电流。 因此,可以在不增加新的装置结构的同时,防止通过短路相的电流的增加而连续地驱动电动发电机。 这确保车辆在跛行模式下的行驶。
    • 25. 发明申请
    • COIN DEPOSITING AND DISPENSING MACHINE
    • 硬币沉淀和分配机
    • US20090227193A1
    • 2009-09-10
    • US12294167
    • 2007-03-30
    • Takashi TanakaShinichi ChibaKeita ToyamaMasao HayashiAtsushi Nagase
    • Takashi TanakaShinichi ChibaKeita ToyamaMasao HayashiAtsushi Nagase
    • G07D3/00
    • G07F11/58G07D1/02G07D3/14G07D9/008
    • A coin depositing and dispensing machine that enables reduction of the space required to be provided above the coin passage in order to transport coins, thereby enabling the machine body to be made more compact, or increasing the coin accommodating capacity of the accommodating and ejecting units by the amount equivalent to the volume of the reduction of the space. An endless transporting belt is provided above an identifying passage and a sorting passage. The transporting belt is stretched across a plurality of pulleys rotatably supported in a horizontal position by vertically extending shafts. As the space required to be provided above the coin passage to install the transporting belt can be reduced, it is possible to make the machine body more compact, or increase the coin accommodating capacity of the accommodating and ejecting units by the amount equivalent to the volume of the reduction of the space.
    • 一种硬币出入币机,其能够减少设置在硬币通道上方以便运送硬币的空间,从而能够使机体更加紧凑,或者通过以下方式提高容纳和排出单元的硬币容纳能力 相当于减少空间量的量。 在识别通道和分类通道上方设置有循环输送带。 传送带被横向延伸穿过多个带轮,通过垂直延伸的轴可旋转地支撑在水平位置。 由于可以减少设置在硬币通道上方以安装传送带的空间,所以可以使机体更紧凑,或者增加容纳和排出单元的硬币容纳能力等于容积的量 减少空间。
    • 29. 发明申请
    • Refrigerant cycle device and control system for vehicle
    • 车辆制冷循环装置及控制系统
    • US20070101736A1
    • 2007-05-10
    • US11581441
    • 2006-10-17
    • Yoshikatsu SawadaYasutane HijikataHiromasa TanakaTakashi Tanaka
    • Yoshikatsu SawadaYasutane HijikataHiromasa TanakaTakashi Tanaka
    • F25B49/00F25B27/00B63B25/26B60H1/32
    • B60H1/3208B60H2001/3261B60H2001/3266B60H2001/3275
    • A refrigerant cycle device includes a compressor driven by a vehicle engine for drawing and compressing gas refrigerant from an evaporator, a variable displacement mechanism which varies a discharge capacity of the compressor based on a control value from an exterior to approach a suction pressure of the compressor to a predetermined suction pressure, and a control unit for controlling the discharge capacity of the compressor. The control unit includes a determining part for determining an accelerating state of the vehicle engine, a detecting member which detects a thermal load of the evaporator, a setting part for setting a minimum control value in accordance with the thermal load, and a controlling part. The controlling part reduces the control value to the minimum control value and returns the reduced control value to a control value before the reducing, when the determining means determines an accelerating state of the vehicle engine.
    • 一种制冷剂循环装置,包括:由车辆用发动机驱动的压缩机,用于从蒸发器抽取和压缩气体制冷剂;可变排量机构,其根据外部的控制值改变压缩机的排出容量,以接近压缩机的吸入压力 到预定的吸入压力,以及用于控制压缩机的排放能力的控制单元。 控制单元包括用于确定车辆发动机的加速状态的确定部件,检测蒸发器的热负荷的检测部件,用于根据热负荷设定最小控制值的设定部件和控制部件。 当确定装置确定车辆发动机的加速状态时,控制部分将控制值减小到最小控制值,并将减小的控制值返回到减小之前的控制值。
    • 30. 发明申请
    • Nuclear medicine imaging apparatus and a method for generating image data
    • 核医学成像装置和用于生成图像数据的方法
    • US20070096028A1
    • 2007-05-03
    • US11549509
    • 2006-10-13
    • Takashi Tanaka
    • Takashi Tanaka
    • G01T1/164G01T1/161
    • G01T1/2985G01T1/1642G01T1/1648
    • The present invention provides a nuclear medicine imaging apparatus and image data generation method that achieves restarting of the generation of projection data and at an early stage while monitoring a variation of count values for detecting an occurrence of non-permissible body movement of a patient. The image processing apparatus consistent with the present invention detects a pair of gamma-rays successively emitted from an object with a radioactive isotope through a pair of detector modules in a data detecting unit. A data processing unit and an incident direction calculating unit in the image processing apparatus respectively calculate a gamma-ray detection position and a gamma-ray incident direction based on the acquired detection signals. A projection data generating unit in the apparatus generates monitoring projection data based on each count value of the detection signals in correspondence to the gamma-ray detection position and the gamma-ray incident direction. A projection data monitoring unit calculates a body movement index of the object by comparing count values of the monitoring projection data that are generated in each of two preferably adjoining monitoring periods. A system control unit generates an alarm signal for performing repetition of the monitoring projection data when the body movement index exceeds a threshold value and displays the alarm signal on a display unit.
    • 本发明提供了一种核医学成像装置和图像数据生成方法,其能够监视投影数据的生成的重新启动,并且在监视用于检测患者的不允许身体动作的发生的计数值的变化的早期阶段。 根据本发明的图像处理装置通过数据检测单元中的一对检测器模块检测从具有放射性同位素的物体连续发射的一对伽马射线。 图像处理装置中的数据处理单元和入射方向计算单元基于获取的检测信号分别计算伽马射线检测位置和伽马射线入射方向。 该装置中的投影数据生成单元根据与伽马射线检测位置和伽马射线入射方向对应的检测信号的各个计数值生成监视投影数据。 投影数据监视单元通过比较在两个优选相邻的监视周期中的每一个中生成的监视投影数据的计数值来计算对象的身体移动指数。 当身体运动指数超过阈值时,系统控制单元生成用于执行监视投影数据的重复的报警信号,并且将报警信号显示在显示单元上。