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    • 1. 发明申请
    • Time Interval Measuring Apparatus and Jitter Measuring Apparatus Using the Same
    • 时间间隔测量装置及其使用的抖动测量装置
    • US20080172194A1
    • 2008-07-17
    • US11660116
    • 2006-06-16
    • Ken MochizukiOsamu SugiyamaTadanori Nishikobara
    • Ken MochizukiOsamu SugiyamaTadanori Nishikobara
    • G01R29/02
    • G01R29/0273G01R25/00G01R29/023G01R29/26G01R31/31709G04F10/06
    • In order to stably measure an input interval time of a pulse signal with high precision, a time interval measuring apparatus includes a reference signal generator, a phase shifter, first and second A/D converters, an error correction unit, an instantaneous phase calculation unit, and an interval time calculation unit. The phase shifter divides a reference signal of a sine wave having a predetermined frequency from the reference signal generator into a first analog signal and a second analog signal having phases shifted to each other. The first and second A/D converters perform sampling of the first analog signal and the second analog signal from the phase shifter, respectively, at an input timing of a pulse signal to be measured, and output a first and second digital sample values. The error correction unit corrects direct current offset errors generated in, respectively, the first and second digital sample values output from the first and second A/D converters, a phase error with respect to 90°, and an amplitude error. The instantaneous phase calculation unit calculates an instantaneous phase of the reference signal based on the corrected first and second digital sample values. The interval time calculation unit determines an input interval time of the pulse signal based on a variation of instantaneous phases.
    • 为了以高精度稳定地测量脉冲信号的输入间隔时间,时间间隔测量装置包括参考信号发生器,移相器,第一和第二A / D转换器,纠错单元,瞬时相位计算单元 ,以及间隔时间计算单元。 移相器将具有预定频率的正弦波的参考信号从参考信号发生器分成第一模拟信号和具有彼此偏移的相位的第二模拟信号。 第一和第二A / D转换器在待测量的脉冲信号的输入定时分别执行来自移相器的第一模拟信号和第二模拟信号的采样,并输出第一和第二数字采样值。 误差校正单元分别校正从第一和第二A / D转换器输出的第一和第二数字采样值,相对于90°的相位误差和幅度误差产生的直流偏移误差。 瞬时相位计算单元基于校正的第一和第二数字采样值来计算参考信号的瞬时相位。 间隔时间计算单元基于瞬时相位的变化来确定脉冲信号的输入间隔时间。
    • 2. 发明授权
    • Time interval measuring apparatus and jitter measuring apparatus using the same
    • 时间间隔测量装置和使用其的抖动测量装置
    • US07574311B2
    • 2009-08-11
    • US11660116
    • 2006-06-16
    • Ken MochizukiOsamu SugiyamaTadanori Nishikobara
    • Ken MochizukiOsamu SugiyamaTadanori Nishikobara
    • G06F19/00
    • G01R29/0273G01R25/00G01R29/023G01R29/26G01R31/31709G04F10/06
    • In order to stably measure an input interval time of a pulse signal with high precision, a time interval measuring apparatus includes a reference signal generator, a phase shifter, first and second A/D converters, an error correction unit, an instantaneous phase calculation unit, and an interval time calculation unit. The phase shifter divides a reference signal of a sine wave having a predetermined frequency from the reference signal generator into a first analog signal and a second analog signal having phases shifted to each other. The first and second A/D converters perform sampling of the first analog signal and the second analog signal from the phase shifter, respectively, at an input timing of a pulse signal to be measured, and output a first and second digital sample values. The error correction unit corrects direct current offset errors generated in, respectively, the first and second digital sample values output from the first and second A/D converters, a phase error with respect to 90°, and an amplitude error. The instantaneous phase calculation unit calculates an instantaneous phase of the reference signal based on the corrected first and second digital sample values. The interval time calculation unit determines an input interval time of the pulse signal based on a variation of instantaneous phases.
    • 为了以高精度稳定地测量脉冲信号的输入间隔时间,时间间隔测量装置包括参考信号发生器,移相器,第一和第二A / D转换器,纠错单元,瞬时相位计算单元 ,以及间隔时间计算单元。 移相器将具有预定频率的正弦波的参考信号从参考信号发生器分成第一模拟信号和具有彼此偏移的相位的第二模拟信号。 第一和第二A / D转换器在待测量的脉冲信号的输入定时分别执行来自移相器的第一模拟信号和第二模拟信号的采样,并输出第一和第二数字采样值。 误差校正单元分别校正从第一和第二A / D转换器输出的第一和第二数字采样值,相对于90°的相位误差和幅度误差产生的直流偏移误差。 瞬时相位计算单元基于校正的第一和第二数字采样值来计算参考信号的瞬时相位。 间隔时间计算单元基于瞬时相位的变化来确定脉冲信号的输入间隔时间。
    • 3. 发明授权
    • Maximum time interval error test signal generating apparatus not affected by low-pass measuring filter
    • 最小时间间隔误差测试信号发生装置不受低通测量滤波器的影响
    • US06972603B2
    • 2005-12-06
    • US10680975
    • 2003-10-07
    • Ken MochizukiOsamu Sugiyama
    • Ken MochizukiOsamu Sugiyama
    • H04L27/18H04B7/26H04J3/06H04J3/14H04L1/20H04L1/24H04L25/02H03L7/00
    • H04L1/24H04J3/14H04L1/205
    • An MTIE test signal generating apparatus generates a predetermined MTIE test signal. An MTIE measuring unit includes a low-pass measuring filter having a predetermined high-cut characteristic. A cycle-amplitude setting portion sets a cycle corresponding to an observation time of each of desired plural specific points for a predetermined MTIE characteristic and an amplitude corresponding to a difference in the MTIE value between adjacent specific points. Plural signal generating portions generate plural signals each having the cycle and the amplitude having repetitive waveforms and then outputting to each of the desired plural specific points. A holding time setting portion sets a holding time for holding the upper and lower limit values of the repetitive waveforms over the predetermined time so that a signal cycle having at least the shortest cycle of the plural signals is longer than a predetermined time corresponding to the predetermined high-cut characteristic of the low-pass measuring filter.
    • MTIE测试信号产生装置产生预定的MTIE测试信号。 MTIE测量单元包括具有预定高切特性的低通测量滤波器。 周期幅度设定部分对于预定的MTIE特性和对应于相邻特定点之间的MTIE值的差的幅度,设置与期望的多个特定点中的每一个的观察时间相对应的周期。 多个信号产生部分产生具有周期和振幅具有重复波形的多个信号,然后输出到期望的多个特定点中的每一个。 保持时间设定部设定保持重复波形的上限值和下限值的保持时间,使得具有多个信号的至少最短周期的信号周期比对应于预定时间的规定时间长 低通测量滤波器的高切特性。
    • 5. 发明申请
    • CARBON/ALUMINUM COMPLEX COMPOUND AND CARBON/ALUMINUM COMPLEX COMPOUND-COATED INORGANIC COMPOUND
    • 碳/铝复合化合物和碳/铝复合化合物无机化合物
    • US20100270520A1
    • 2010-10-28
    • US12599977
    • 2008-01-17
    • Osamu Sugiyama
    • Osamu Sugiyama
    • C09K21/02B05D5/12
    • C09K21/02B09B3/0066C03C25/465C04B35/524C04B35/56C04B35/62204C04B35/62209C04B35/62213C04B35/62675C04B35/62831C04B35/62839C04B35/6286C04B35/62873C04B35/62886C04B35/636C04B35/82C04B2235/3409C04B2235/349C04B2235/428C04B2235/442C04B2235/444C04B2235/447C04B2235/5232C04B2235/5276
    • The present invention provides a method capable of inexpensively obtaining a novel complex compound excellent in heat resistance, light-weight property, flame resistance, chemical resistance, and electroconductivity, and of converting a chemically harmful or morphologically hazardous substance into a detoxified/safened substance by a safe operation. Further, it is possible to simultaneously obtain a structural body where the detoxified/safened inorganic compounds have surfaces coated with the complex compound, so that application of the above method to a treatment of wastes allows for contribution to resource recycling.The present invention also resides in: a carbon/aluminum complex compound produced by distillingly removing a water content from an aqueous dispersion containing a polyaluminum chloride and a water-soluble organic substance, and firing the remainder at a temperature of 300° C. or higher; a carbon/aluminum complex compound-coated inorganic compound structural body produced by impregnating a water solution containing a polyaluminum chloride and a water-soluble organic substance, through inorganic compound particles, and by firing the impregnated matter; and a treating method of waste, comprising the steps of peeling off a waste containing needle-like inorganic compounds while spraying a water solution of polyaluminum chloride onto and through the waste, infiltrating a water-soluble organic substance into the sprayedly peeled matter, and subsequently firing the resultant matter.
    • 本发明提供了一种能够廉价地获得耐热性,轻质性,阻燃性,耐化学性和导电性优异的新型复合化合物的方法,以及将化学有害或形态有害物质转化为解毒/安全物质的方法 一个安全的操作。 此外,可以同时获得解毒/安全的无机化合物具有表面被复合化合物涂覆的结构体,从而将上述方法应用于废物的处理允许对资源回收的贡献。 本发明还在于:通过从含有聚氯化铝和水溶性有机物质的水性分散体中蒸馏除去水分而制得的碳/铝配合物,并在300℃或更高的温度下焙烧剩余物 ; 通过无机化合物颗粒浸渍含有聚氯化铝和水溶性有机物质的水溶液并通过焙烧所述浸渍物而制造的碳/铝复合化合物涂覆的无机化合物结构体; 以及废弃物的处理方法,其特征在于,包括以下步骤:在将聚合氯化铝水溶液喷洒到废物上并通过废物,将水溶性有机物质浸入喷雾剥离的物质中,然后剥离含有针状无机化合物的废物,随后 发射结果。
    • 6. 发明申请
    • Connector seal
    • 连接器密封
    • US20090250885A1
    • 2009-10-08
    • US12382102
    • 2009-03-09
    • Yasuhiro SasakiShigeru TanakaOsamu SugiyamaTohru KurosawaHiroaki YamagishiGenki Murakoshi
    • Yasuhiro SasakiShigeru TanakaOsamu SugiyamaTohru KurosawaHiroaki YamagishiGenki Murakoshi
    • H02G15/013
    • H01R13/521
    • The present invention is to provide a connector seal allowing an accurate inspection of presence of an incorrectly formed bore in a terminal insertion bore of the connector seal. A connector seal includes a seal main body and a plurality of terminal insertion bores. Each terminal insertion bore has an upper membrane potion and a lower membrane portion, which are spaced one another and interconnected together with a lamella. Preferably, the terminal insertion bore has a membrane, which includes a substantially curved groove and a substantially curved lamella. Preferably, the terminal insertion bore has a membrane which includes a lamella, the lamella being oriented in a direction coincident with a diagonal line of a rectangular cross-section of a terminal so that corners of the terminal hit opposite ends of the lamella.
    • 本发明提供一种连接器密封件,其允许精确检查在连接器密封件的端子插入孔中存在不正确形成的孔。 连接器密封件包括密封主体和多个端子插入孔。 每个端子插入孔具有上隔膜部分和下膜部分,其彼此间隔开并且与薄片互连在一起。 优选地,端子插入孔具有膜,其包括基本上弯曲的凹槽和基本上弯曲的薄片。 优选地,端子插入孔具有包括薄片的薄膜,薄片沿着与端子的矩形横截面的对角线重合的方向定向,使得端子的拐角撞击薄片的相对端。
    • 7. 发明授权
    • Waterproof plug for waterproof connector
    • 防水插头防水接头
    • US06894224B2
    • 2005-05-17
    • US10308013
    • 2002-12-03
    • Haruyo KobayashiOsamu Sugiyama
    • Haruyo KobayashiOsamu Sugiyama
    • H01R4/18H01R13/52H02G15/02
    • H01R13/5205H01R4/185
    • A waterproof plug (10) for a waterproof connector includes a body (11) of a generally cylindrical shape. A wire (28) can be inserted into the body to be projected therefrom, and an outer peripheral surface (12) of the body can be press-contacted with an inner peripheral surface (23) of a cavity (22), while an inner peripheral surface (13) of the body can be press-contacted with the wire (28), and an insulation barrel (26) of a terminal (25) can compressively clamp the wire (28) through the body. An insertion hole (16) in the body is tapering such that a thickness t of a clamping portion (18) of the body is uniform along an axis thereof.
    • 用于防水连接器的防水插头(10)包括大致圆筒形的主体(11)。 导线(28)可以插入到主体中以从其突出,并且主体的外周表面(12)可以与空腔(22)的内周表面(23)压接,而内部 主体的外周表面(13)可以与导线(28)压接,并且端子(25)的绝缘筒(26)可以通过主体压缩地夹紧线(28)。 主体中的插入孔(16)变细,使得主体的夹紧部分(18)的厚度t沿其轴线是均匀的。
    • 8. 发明授权
    • Apparatus and method for mounting electronic parts
    • 用于安装电子部件的装置和方法
    • US06331225B1
    • 2001-12-18
    • US09147508
    • 1999-04-19
    • Osamu Sugiyama
    • Osamu Sugiyama
    • H05K1302
    • H05K13/0478H05K13/021Y10T29/4913Y10T29/49137Y10T29/53178Y10T156/1092Y10T156/1749Y10T156/1751Y10T156/1756Y10T156/1759Y10T156/1761Y10T156/1766
    • An apparatus for mounting electronic parts on a printed circuit board is disclosed. Plural electronic parts to be mounted on a printed circuit board are arranged as a set and loaded in a loading member for electronic parts. A set of such loading members for electronic parts, each carrying a set of electronic parts of the same type, are arrayed in a loading member furnishing casing. This set of the loading members for electronic parts, arrayed and held in the loading member furnishing casing is inserted and held by a loading member holder by which the set of the loading members for electronic parts can be held in register with an electronic part mounting portion of the printed circuit board. The loading member holder holding the set of the loading members for electronic parts is loaded on a electronic part loading device. The set of the electronic parts held by the loading member holder is loaded at a time on the sole printed circuit board by the electronic part loading device.
    • 公开了一种用于将电子部件安装在印刷电路板上的装置。 要安装在印刷电路板上的多个电子部件被布置为一组并且装载在电子部件的装载部件中。 一组用于电子部件的这种装载部件,每个都装载有相同类型的一组电子部件,被布置在装载构件的外壳中。 该组电子部件的装载部件被排列并保持在装载部件的外壳中,由装载部件保持架插入并保持,通过该装载部件保持器可以将该组电子部件的装载部件保持与电子部件安装部 的印刷电路板。 保持电子部件的装载部件的装载部件保持装载在电子部件装载装置上。 由装载构件保持器保持的电子部件的集合由电子部件装载装置一次装载在唯一印刷电路板上。
    • 9. 发明授权
    • Method of forming films over inner surface of cylindrical member
    • 在圆柱形部件的内表面上形成膜的方法
    • US06217952B1
    • 2001-04-17
    • US09456472
    • 1999-12-09
    • Osamu SugiyamaYukio MiyaRyota KoikeTakashi ToidaToshiichi Sekine
    • Osamu SugiyamaYukio MiyaRyota KoikeTakashi ToidaToshiichi Sekine
    • H05H124
    • C23C16/045C23C14/027C23C14/046C23C16/0281C23C16/26
    • The present invention relates to a method of forming an intermediate film and a hard carbon film over the inner surface of a cylindrical member having a bore, such as a bushing or a cylinder, with the hard carbon film being formed on the intermediate film with a uniform thickness, greatly enhancing of abrasion resistance of the inner surface. The cylindrical member is placed in a vacuum vessel, an auxiliary electrode of an intermediate film forming material, such as a titanium-silicon alloy or the like, is inserted in the bore of the cylindrical member, a sputtering gas is supplied into the vacuum vessel, a voltage is applied to the auxiliary electrode to produce a plasma around the auxiliary electrode in order that the intermediate film forming material is sputtered from the auxiliary electrode and an intermediate film is formed over the inner surface of the cylindrical member. Subsequently, a gas containing carbon, such as methane gas or the like, is supplied into the vacuum vessel, and a voltage is applied to the cylindrical member to produce a plasma in the vacuum vessel in order that a hard carbon film (DLC film) is formed on the previously formed intermediate film over the inner surface of the cylindrical member.
    • 本发明涉及一种在具有诸如衬套或圆筒的孔的圆柱形构件的内表面上形成中间膜和硬碳膜的方法,其中硬碳膜在中间膜上形成有 均匀的厚度,大大增强了内表面的耐磨性。 将圆柱形构件放置在真空容器中,将中间膜形成材料的辅助电极(例如钛 - 硅合金等)插入圆柱形构件的孔中,将溅射气体供应到真空容器 向辅助电极施加电压以在辅助电极周围产生等离子体,以使中间膜形成材料从辅助电极溅射,并且在圆柱形部件的内表面上形成中间膜。 随后,将含有碳的气体(例如甲烷气体等)供应到真空容器中,并向该圆柱形构件施加电压,以在真空容器中产生等离子体,以使硬碳膜(DLC膜) 形成在预先形成的中间膜上的圆柱形构件的内表面上。
    • 10. 发明授权
    • Method of forming films over insulating material
    • 绝缘材料成膜方法
    • US6080445A
    • 2000-06-27
    • US40243
    • 1998-02-19
    • Osamu SugiyamaYukio MiyaRyota KoikeTakashi Toida
    • Osamu SugiyamaYukio MiyaRyota KoikeTakashi Toida
    • C23C16/02C23C16/26
    • C23C16/0281C23C16/0272C23C16/26Y10S427/103
    • A method of forming films over an insulating material is provided whereby an underlayer film having electric conductivity is formed on the surface of the insulating material constituting a base member, and a hard carbon film is formed over the underlayer film so that the surface electrical resistance value of the hard carbon film can be controlled so as not to cause the surface thereof to be charged with static electricity by varying an electrical resistance value of the underlayer film. In the case where the underlayer film is formed of a metal film composed of titanium, chromium, tungsten, or the like, the resistance value thereof can be changed by varying the thickness of the metal film. In the case where the underlayer film is formed of a semiconductor film composed of silicon, germanium, or the like, the resistance value thereof can be changed by varying the thickness of the semiconductor film, or the concentration of an impurity added thereto.
    • 提供一种在绝缘材料上形成膜的方法,由此在构成基底构件的绝缘材料的表面上形成具有导电性的下层膜,并且在下层膜上形成硬碳膜,使得表面电阻值 可以通过改变下层膜的电阻值来控制硬质碳膜不致使其表面被静电带电。 在下层膜由钛,铬,钨等构成的金属膜的情况下,可以通过改变金属膜的厚度来改变其电阻值。 在下层膜由硅,锗等构成的半导体膜的情况下,可以通过改变半导体膜的厚度或添加其杂质的浓度来改变其电阻值。