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    • 1. 发明申请
    • RADIO-CONTROLLED TIMEPIECE AND METHOD OF ASSEMBLING THE SAME
    • 无线电控制时序及其组装方法
    • US20100097895A1
    • 2010-04-22
    • US12449544
    • 2008-03-05
    • Tatsuo SumidaKazuo SakamotoTadashi Yasuoka
    • Tatsuo SumidaKazuo SakamotoTadashi Yasuoka
    • G04C11/02G04B19/24G04D3/00H01Q7/08
    • H01Q7/06G04R60/12H01Q1/273H01Q7/08Y10T29/49018Y10T29/49579
    • A radio-controlled timepiece in which its reception sensitivity is further enhanced. The radio-controlled timepiece includes: an antenna core 11 made of a magnetic material and formed as a single integrated body including a coiled portion (11a) wound with a coil 19 and extension portions 11b and 11c which are located respectively on the end-portion sides; additional cores 15 and 16 made of a magnetic material; magnetism-collection members 17 and 18 made of a magnetic material; a main plate 31 (timepiece substrate) made of a non-magnetic material; a guide member 33 made of a non-magnetic material; and a liquid-crystal-panel supporting frame 32 (magnetism-collection-member supporting members, pressing member) made of a non-magnetic material and having protrusions 32a and 32b (pressing members) formed thereon. When the main plate 31, the guide member 33, and the liquid-crystal-panel supporting frame 32 are assembled together, the protrusions 32a and 32b press the magnetism-collection members, respectively. Thus, the magnetism-collection members 17 and 18 come into contact respectively with the additional cores 15 and 16, and, at the same time, the additional cores 15 and 16 come into contact respectively with the extension portions 11b and 11c of the antenna core 11. Accordingly an antenna-core body with a large single body is formed, which enhances the reception performance.
    • 其接收灵敏度进一步提高的无线电控制式钟表。 无线电遥控钟表包括:由磁性材料制成并形成为单个集成体的天线芯11,其包括卷绕有线圈19的线圈部分(11a)和分别位于端部部分上的延伸部分11b和11c 侧面 由磁性材料制成的附加芯15和16; 由磁性材料制成的磁集合件17和18; 由非磁性材料制成的主板31(钟表基板) 由非磁性材料制成的引导构件33; 以及由非磁性材料制成的具有形成在其上的突起32a和32b(按压构件)的液晶面板支撑框架32(集磁构件支撑构件,按压构件)。 当主板31,引导构件33和液晶面板支撑框架32组装在一起时,突起32a和32b分别按压磁性收集构件。 因此,磁性收集构件17和18分别与附加芯15和16接触,并且同时,附加芯15和16分别与天线芯的延伸部分11b和11c接触 因此,形成具有大的单体的天线芯体,这增强了接收性能。
    • 2. 发明授权
    • Radio-controlled timepiece and method of assembling the same
    • 无线电遥控表及其组装方法
    • US08345514B2
    • 2013-01-01
    • US12449544
    • 2008-03-05
    • Tatsuo SumidaKazuo SakamotoTadashi Yasuoka
    • Tatsuo SumidaKazuo SakamotoTadashi Yasuoka
    • G04C11/02
    • H01Q7/06G04R60/12H01Q1/273H01Q7/08Y10T29/49018Y10T29/49579
    • A radio-controlled timepiece in which its reception sensitivity is further enhanced. The radio-controlled timepiece includes: an antenna core 11 made of a magnetic material and formed as a single integrated body including a coiled portion (11a) wound with a coil 19 and extension portions 11b and 11c which are located respectively on the end-portion sides; additional cores 15 and 16 made of a magnetic material; magnetism-collection members 17 and 18 made of a magnetic material; a main plate 31 (timepiece substrate) made of a non-magnetic material; a guide member 33 made of a non-magnetic material; and a liquid-crystal-panel supporting frame 32 (magnetism-collection-member supporting members, pressing member) made of a non-magnetic material and having protrusions 32a and 32b (pressing members) formed thereon. When the main plate 31, the guide member 33, and the liquid-crystal-panel supporting frame 32 are assembled together, the protrusions 32a and 32b press the magnetism-collection members, respectively. Thus, the magnetism-collection members 17 and 18 come into contact respectively with the additional cores 15 and 16, and, at the same time, the additional cores 15 and 16 come into contact respectively with the extension portions 11b and 11c of the antenna core 11. Accordingly an antenna-core body with a large single body is formed, which enhances the reception performance.
    • 其接收灵敏度进一步提高的无线电控制式钟表。 无线电遥控钟表包括:由磁性材料制成并形成为单个集成体的天线芯11,其包括卷绕有线圈19的线圈部分(11a)和分别位于端部部分上的延伸部分11b和11c 侧面 由磁性材料制成的附加芯15和16; 由磁性材料制成的磁集合件17和18; 由非磁性材料制成的主板31(钟表基板) 由非磁性材料制成的引导构件33; 以及由非磁性材料制成的具有形成在其上的突起32a和32b(按压构件)的液晶面板支撑框架32(集磁构件支撑构件,按压构件)。 当主板31,引导构件33和液晶面板支撑框架32组装在一起时,突起32a和32b分别按压磁性收集构件。 因此,磁性收集构件17和18分别与附加芯15和16接触,并且同时,附加芯15和16分别与天线芯的延伸部分11b和11c接触 因此,形成具有大的单体的天线芯体,这增强了接收性能。
    • 4. 发明授权
    • Data processing device and mobile device
    • 数据处理设备和移动设备
    • US07490258B2
    • 2009-02-10
    • US10827288
    • 2004-04-20
    • Kazuo SakamotoNaozumi MorinoIkuo Kudo
    • Kazuo SakamotoNaozumi MorinoIkuo Kudo
    • G06F1/04G06F1/06G06F1/10
    • G06F5/06G06F1/10
    • A microcomputer is provided having a memory card interface capable of correctly latching data even when a card such as an MMC card is connected thereto. In the microcomputer having an interface with an external device such as a memory card, the interface unit is provided with an output driver connected to an external terminal for outputting a clock signal to output the clock signal and with an equivalent load circuit capable of imparting, to the clock signal extracted from an arbitrary position in a stage previous to the output driver in a clock signal path, delay equivalent to delay resulting from an external load connected to the external terminal in order to generate a clock signal for latching data inputted from the memory card.
    • 即使当诸如MMC卡的卡连接到其上时,也提供具有能够正确地锁存数据的存储卡接口的微型计算机。 在具有与诸如存储卡的外部设备的接口的微型计算机中,接口单元设置有连接到外部端子的输出驱动器,用于输出时钟信号以输出时钟信号,并且具有能够传递时钟信号的等效负载电路, 与从时钟信号路径中的输出驱动器之前的级中的任意位置提取的时钟信号相当于连接到外部端子的外部负载引起的延迟的延迟,以便产生用于锁存从外部端子输入的数据的时钟信号 存储卡。
    • 6. 发明授权
    • Timer of electric timepiece
    • 电子计时器
    • US06894952B2
    • 2005-05-17
    • US10416300
    • 2001-09-28
    • Shigeru MorokawaRyoji IwakuraTakaaki NozakiTakakazu YanoMasami FukudaKazuo Sakamoto
    • Shigeru MorokawaRyoji IwakuraTakaaki NozakiTakakazu YanoMasami FukudaKazuo Sakamoto
    • G04B11/02G04B13/00G04C3/00G04B19/04G04B19/06
    • G04B11/024G04B13/00G04C3/008
    • A time keeping device of an electric timepiece comprising one motor that can rotate in the forward direction and the reverse direction, a branch mechanism, and a plurality of wheel trains that are branched by the branch mechanism, wherein the motor is rotated in the forward direction to drive one wheel train thereby to carry out a mechanical display, and is rotated in the reverse direction to drive the other wheel train thereby to carry out another mechanical display. The time keeping device further comprises a merge mechanism in addition to the branch mechanism, and a plurality of wheel trains that are branched by the branch mechanism and are merged by the merge mechanism. The motor is rotated in the forward direction to drive one wheel train thereby to carry out a mechanical display, and is rotated in the reverse direction to drive the other wheel train thereby to carry out another mechanical display.
    • 一种电子计时器的计时装置,其特征在于,包括能够沿前后方向旋转的一个电动机,分支机构,以及由所述分支机构分支的多个轮列,其中,所述电动机向前方旋转 以驱动一个轮系从而进行机械显示,并且沿相反方向旋转以驱动另一个轮系,从而进行另一机械显示。 除了分支机构之外,计时装置还包括合并机构,以及由分支机构分支并由合并机构合并的多个轮列。 电动机沿向前方向旋转以驱动一个轮系,从而执行机械显示,并且沿相反方向旋转以驱动另一个轮系,从而执行另一机械显示。
    • 7. 发明授权
    • Developing apparatus and method thereof
    • 显影装置及其制造方法
    • US06241402B1
    • 2001-06-05
    • US09626889
    • 2000-07-27
    • Kazuo SakamotoShuichi Nagamine
    • Kazuo SakamotoShuichi Nagamine
    • G03D500
    • G03F7/3021B05C11/08
    • A wafer is held by a wafer holding section, and while a developing solution is supplied onto a top surface of the wafer, the wafer is rotated 180 degrees, whereby performing the heaping of the developing solution on the top surface of the wafer. Thereafter, the rotation of the wafer is stopped, then holding pins are raised to receive the wafer from the wafer holding section, whereby holding the wafer with the wafer being raised above the wafer holding section by the holding pins, and the wafer is left standing for a predetermined time to thereby perform development. In doing as above, the temperature influence exerted on the wafer from the wafer holding section with large heat capacity is prevented, and the temperature distribution of the developing solution within the wafer plane can be prevented from occurring, thus preventing the occurrence of unevenness in the development caused by the temperature difference from occurring and making it possible to perform development processing with uniformity. As a result, when development processing is performed for a substrate, for example, a wafer, uniformity of the processing can be increased.
    • 晶片由晶片保持部保持,并且当显影液被提供到晶片的顶表面时,晶片旋转180度,由此在晶片的顶表面上进行堆积显影液。 此后,晶片的旋转停止,然后保持引脚被升高以从晶片保持部分接收晶片,由此通过保持引脚将晶片保持在晶片保持部分上方的晶片,并且晶片保持静止 达到预定时间,从而进行开发。 如上所述,防止了从具有大的热容量的晶片保持部分对晶片施加的温度影响,并且可以防止显影液在晶片平面内的温度分布发生,从而防止在 由于发生温度差引起的发展,并且能够均匀地进行显影处理。 结果,当对基板,例如晶片进行显影处理时,可以提高处理的均匀性。
    • 8. 发明授权
    • Waveform sampling apparatus
    • 波形采样仪
    • US6087825A
    • 2000-07-11
    • US923388
    • 1997-09-03
    • Hiroshi EguchiKazuo SakamotoEiichi Yada
    • Hiroshi EguchiKazuo SakamotoEiichi Yada
    • G01R19/25G01R13/02H03M1/50G01R13/20
    • G01R13/0272
    • Disclosed is a waveform measuring apparatus in which an integration period T can be discretionally set to a value in accordance with the analog voltage cycle of the device being measured with a simple circuit configuration. The waveform measuring apparatus has an integrator circuit for integrating a fixed repeat-cycle analog input voltage during a period when a gate is ON and the waveform measuring apparatus converts the analog input voltage based on the integrated output of the integrator circuit. By use of a control portion consisting of a gate controller and a phase shifter, the first cycle of a period covering 2 cycles of the analog input voltage is deemed to be a first integration period and the second cycle thereof is deemed to be a second integration period; during the first integration period the gate ON/OFF is controlled using a control signal which alternates repeatedly between ON/OFF at each unit cycle corresponding to a unit integration time and during the second integration period the gate ON/OFF is controlled with a signal which is the inversion of the control signal.
    • 公开了一种波形测量装置,其中积分周期T可以根据用简单的电路配置测量的装置的模拟电压周期被任意设定为一个值。 波形测量装置具有积分电路,用于在栅极导通期间积分固定的重复周期模拟输入电压,并且波形测量装置基于积分器电路的积分输出转换模拟输入电压。 通过使用由门控制器和移相器组成的控制部分,覆盖模拟输入电压的2个周期的周期的第一周期被认为是第一积分周期,其第二周期被认为是第二积分 期; 在第一积分期间,通过在与单位积分时间对应的各单位周期的ON / OFF之间反复交替的控制信号来控制门ON / OFF,在第二积分期间,通过以下信号来控制门ON / OFF 是控制信号的反转。