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    • 1. 发明申请
    • Manufacturing method of semiconductor device
    • 半导体器件的制造方法
    • US20070105288A1
    • 2007-05-10
    • US11588331
    • 2006-10-27
    • Hidekazu MiyairiChiho KokuboKoki Inoue
    • Hidekazu MiyairiChiho KokuboKoki Inoue
    • H01L21/84
    • H01L21/02672H01L21/02675H01L21/2022H01L21/2026H01L27/1277
    • A manufacturing method of a semiconductor device with improved operating characteristics and reliability is provided. An amorphous semiconductor film is formed over a substrate, doped with a metal element promoting crystallization, and crystallized by first heat treatment to form a crystalline semiconductor film; a first oxide film formed over the crystalline semiconductor film is removed and a second oxide film is formed; the crystalline semiconductor film having the second oxide film formed thereover is irradiated with first laser light; a semiconductor film containing a rare gas element is formed over the second oxide film; the metal element contained in the crystalline semiconductor film is gettered to the semiconductor film containing a rare gas element by second heat treatment; the semiconductor film containing a rare gas element and the second oxide film are removed; and the crystalline semiconductor film is irradiated with second laser light in an atmosphere containing oxygen.
    • 提供了具有改进的操作特性和可靠性的半导体器件的制造方法。 在衬底上形成非晶半导体膜,掺杂有促进结晶的金属元素,并通过第一热处理结晶以形成晶体半导体膜; 去除在结晶半导体膜上形成的第一氧化膜,形成第二氧化膜; 用第一激光照射其上形成有第二氧化膜的结晶半导体膜; 在第二氧化物膜上形成含有稀有气体元素的半导体膜; 包含在结晶半导体膜中的金属元素通过第二热处理被吸收到含有稀有气体元素的半导体膜上; 去除含有稀有气体元素和第二氧化物膜的半导体膜; 在含氧气氛中用第二激光照射结晶半导体膜。
    • 2. 发明授权
    • Manufacturing method of semiconductor device
    • 半导体器件的制造方法
    • US07524713B2
    • 2009-04-28
    • US11588331
    • 2006-10-27
    • Hidekazu MiyairiChiho KokuboKoki Inoue
    • Hidekazu MiyairiChiho KokuboKoki Inoue
    • H01L21/00
    • H01L21/02672H01L21/02675H01L21/2022H01L21/2026H01L27/1277
    • A manufacturing method of a semiconductor device with improved operating characteristics and reliability is provided. An amorphous semiconductor film is formed over a substrate, doped with a metal element promoting crystallization, and crystallized by first heat treatment to form a crystalline semiconductor film; a first oxide film formed over the crystalline semiconductor film is removed and a second oxide film is formed; the crystalline semiconductor film having the second oxide film formed thereover is irradiated with first laser light; a semiconductor film containing a rare gas element is formed over the second oxide film; the metal element contained in the crystalline semiconductor film is gettered to the semiconductor film containing a rare gas element by second heat treatment; the semiconductor film containing a rare gas element and the second oxide film are removed; and the crystalline semiconductor film is irradiated with second laser light in an atmosphere containing oxygen.
    • 提供了具有改进的操作特性和可靠性的半导体器件的制造方法。 在衬底上形成非晶半导体膜,掺杂有促进结晶的金属元素,并通过第一热处理结晶以形成晶体半导体膜; 去除在结晶半导体膜上形成的第一氧化膜,形成第二氧化膜; 用第一激光照射其上形成有第二氧化膜的结晶半导体膜; 在第二氧化物膜上形成含有稀有气体元素的半导体膜; 包含在结晶半导体膜中的金属元素通过第二热处理被吸收到含有稀有气体元素的半导体膜上; 去除含有稀有气体元素和第二氧化物膜的半导体膜; 在含氧气氛中用第二激光照射结晶半导体膜。
    • 4. 发明授权
    • Calorie control apparatus with voice recognition
    • 带语音识别的热量控制装置
    • US06745214B2
    • 2004-06-01
    • US09770297
    • 2001-01-29
    • Koki InoueJunko Sekiguchi
    • Koki InoueJunko Sekiguchi
    • G06F300
    • G01G19/4146
    • Disclosed is a calorie control apparatus for calculating and controlling calorie intake by entering names of food ingested. The apparatus includes a voice input unit, a memory unit, a voice recognition unit, and a control unit. The voice input unit enters a voice signal, and the memory unit stores the calorie value per a unit amount of each of a plurality of foods. The voice recognition unit identifies a food name on the basis of the voice signal entered, and the control unit calculates the calorie intake on the basis of the calorie value per a unit amount of the food stored in the memory unit corresponding to the identified food name.
    • 公开了一种卡路里控制装置,用于通过输入食物的名称来计算和控制卡路里摄入量。 该装置包括语音输入单元,存储单元,语音识别单元和控制单元。 语音输入单元输入语音信号,并且存储单元存储多个食物中每个单位量的卡路里值。 语音识别单元基于输入的语音信号识别食物名称,并且控制单元基于存储在与所识别的食物名称对应的存储单元中的单位量的食物的卡路里值来计算卡路里摄入量 。
    • 5. 发明申请
    • STATE-OF-EXERCISE MEASURING APPARATUS AND BIOMETRIC APPARATUS
    • 运动状态测量装置和生物测定装置
    • US20100004096A1
    • 2010-01-07
    • US12494863
    • 2009-06-30
    • Koki Inoue
    • Koki Inoue
    • A63B71/00
    • A61B5/053A61B5/1116A61B5/4872A61B2560/0412A61B2560/0468A61B2562/043A63B2220/51A63B2220/52A63B2220/58A63B2230/01A63B2230/30A63B2230/70A63B2230/75G01G19/4146Y10S482/901
    • The invention provides a state-of-exercise measuring apparatus and a biometric apparatus configured to measure a state of exercise of a user accurately and easily in real time by calculating biometric impedances of the user doing an exercise and utilizing a change of the biometric impedances. A state-of-exercise measuring apparatus according to an aspect of the invention includes: a conducting electrode configured to come into contact with the user to supply an electric current; a measuring electrode configured to acquire a voltage of the electric current being supplied from the conducting electrode and flowing in the user's body; a biometric impedance calculating unit configured to calculate a biometric impedance of the user from a current value supplied from the conducting electrode and a voltage value measured by the measuring electrode; and a state determining unit configured to determine a state of exercise on the basis of a first biometric impedance value of the user in a predetermined state and a second biometric impedance value of the user in a state of exercise different from the predetermined state.
    • 本发明提供了一种运动状态测量装置和生物测定装置,其被配置为通过计算用户进行锻炼并利用生物测定阻抗的变化的生物体阻抗来实时地测量用户的运动状态。 根据本发明的一个方面的运动状态测量装置包括:导电电极,被配置为与用户接触以提供电流; 测量电极,被配置为获取从所述导电电极提供并在所述使用者身体中流动的电流的电压; 生物体阻抗计算单元,被配置为从由所述导电电极提供的电流值和由所述测量电极测量的电压值计算所述用户的生物测定阻抗; 以及状态确定单元,被配置为基于在预定状态下的用户的第一生物体阻抗值和与所述预定状态不同的运动状态下的所述用户的第二生物测定阻抗值来确定运动状态。
    • 6. 发明授权
    • State-of-exercise measuring apparatus and biometric apparatus
    • 运动状态测量装置和生物测定装置
    • US08016727B2
    • 2011-09-13
    • US12494863
    • 2009-06-30
    • Koki Inoue
    • Koki Inoue
    • A63B71/00
    • A61B5/053A61B5/1116A61B5/4872A61B2560/0412A61B2560/0468A61B2562/043A63B2220/51A63B2220/52A63B2220/58A63B2230/01A63B2230/30A63B2230/70A63B2230/75G01G19/4146Y10S482/901
    • The invention provides a state-of-exercise measuring apparatus and a biometric apparatus configured to measure a state of exercise of a user accurately and easily in real time by calculating biometric impedances of the user doing an exercise and utilizing a change of the biometric impedances. A state-of-exercise measuring apparatus according to an aspect of the invention includes: a conducting electrode configured to come into contact with the user to supply an electric current; a measuring electrode configured to acquire a voltage of the electric current being supplied from the conducting electrode and flowing in the user's body; a biometric impedance calculating unit configured to calculate a biometric impedance of the user from a current value supplied from the conducting electrode and a voltage value measured by the measuring electrode; and a state determining unit configured to determine a state of exercise on the basis of a first biometric impedance value of the user in a predetermined state and a second biometric impedance value of the user in a state of exercise different from the predetermined state.
    • 本发明提供了一种运动状态测量装置和生物测定装置,其被配置为通过计算用户进行锻炼并利用生物测定阻抗的变化的生物体阻抗来实时地测量用户的运动状态。 根据本发明的一个方面的运动状态测量装置包括:导电电极,被配置为与用户接触以提供电流; 测量电极,被配置为获取从所述导电电极提供并在所述使用者身体中流动的电流的电压; 生物体阻抗计算单元,被配置为从由所述导电电极提供的电流值和由所述测量电极测量的电压值计算所述用户的生物测定阻抗; 以及状态确定单元,被配置为基于在预定状态下的用户的第一生物体阻抗值和与所述预定状态不同的运动状态下的所述用户的第二生物测定阻抗值来确定运动状态。
    • 7. 发明申请
    • WEIGHT MEASURING APPARATUS
    • 重量测量装置
    • US20090076756A1
    • 2009-03-19
    • US12205159
    • 2008-09-05
    • Koki Inoue
    • Koki Inoue
    • G01G23/01
    • G01G23/16A61B5/0537G01G19/4146
    • The invention provides a weight measuring apparatus which carries out zero-point reset as an output value of a load signal in an unloaded state when the weight measuring apparatus is not in use, including a weight measuring unit that measures a load applied to a machine body and outputs the load signals; and a control device that receives the load signals from the weight measuring unit at reset time intervals for carrying out the zero-point reset of the weight measuring unit in the unloaded state, in which the control device changes the reset time interval to next zero-point reset according to the difference between the output value of the load signal at the time of previous zero-point reset and the output value of the load signal at zero-point reset of this time.
    • 本发明提供了一种重量测量装置,其在不使用重量测量装置的情况下,将零点复位作为负载信号的输出值,在重量测量装置中使用,该重量测量装置包括测量施加到机体的负载的重量测量单元 并输出负载信号; 以及控制装置,其以复位时间间隔从重量测量单元接收负载信号,以在卸载状态下进行重量测量单元的零点复位,其中控制装置将复位时间间隔改变为下一个零点, 根据上次零点复位时的负载信号的输出值与此时零点复位时的负载信号的输出值之间的差值进行点复位。
    • 10. 发明申请
    • LOCK MECHANISM AND COMBINATION CASE
    • 锁定机构和组合案例
    • US20110013979A1
    • 2011-01-20
    • US12846529
    • 2010-07-29
    • Takashi SasakiKoki Inoue
    • Takashi SasakiKoki Inoue
    • F16B1/00
    • B65D43/22B65D45/20Y10T403/58Y10T403/589
    • A locking technique that can lock and unlock a case by one action and in addition can hang the case at the time of, for example, display.A lock mechanism 40 for locking an upper case 20 and a lower case 30 together is mounted pivotally on the lower case 30. The lock mechanism 40 comprises: a lock portion 70 that is engaged with a lock engaging portion 24 provided in the upper case 20; and a hook portion 50 that is operated to engage and disengage the lock portion 70. The hook portion 50 is provided with lock pieces that act on lock-in pressing portions of the lock portion 70 at the time of engaging the lock portion 70. In addition, the hook portion 50 is provided with lock releasing pieces 53 for releasing engagement.
    • 可以通过一个动作来锁定和解锁壳体的锁定技术,并且可以在例如显示时挂起壳体。 用于将上壳体20和下壳体30锁定在一起的锁定机构40可枢转地安装在下壳体30上。锁定机构40包括:锁定部分70,其与设置在上壳体20中的锁定接合部分24接合 ; 以及钩部50,其被操作以接合和解除锁定部70.钩部50设置有锁定片,其在与锁定部70接合时作用于锁定部70的锁定按压部。 此外,钩部50设置有用于释放接合的锁定释放片53。