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    • 2. 发明授权
    • Shock absorber and suspension apparatus
    • 减震器和悬挂装置
    • US08776961B2
    • 2014-07-15
    • US13479873
    • 2012-05-24
    • Shunsuke MoriKenichi Nakamura
    • Shunsuke MoriKenichi Nakamura
    • F16F9/34
    • B60G17/08B60G2400/10B60G2400/204B60G2400/252B60G2400/51B60G2500/10
    • A shock absorber includes: at least one cylinder apparatus including a cylinder sealingly containing operating fluid, a piston slidably fittedly inserted in the cylinder to divide an interior of the cylinder into two chambers, and a piston rod coupled to the piston and extending to an outside of the cylinder; and at least one damping force generation mechanism connected to the cylinder apparatus, and capable of generating a damping force to be applied to a flow of the operating fluid caused by a movement of the piston and adjusting the damping force from the outside. The damping force generation mechanism includes a damping valve for generating the damping force, a pilot chamber for applying a pilot pressure by the operating fluid to the damping valve, and a pump for at least supplying or discharging the operating fluid to or from the pilot chamber.
    • 减震器包括:至少一个气缸装置,其包括密封地容纳工作流体的气缸,可滑动地嵌合在气缸中以将气缸内部分成两个室的活塞,以及联接到活塞并延伸到外部的活塞杆 的气缸 以及连接到气缸装置的至少一个阻尼力产生机构,并且能够产生施加到由活塞的运动引起的工作流体的流动的阻尼力并且调节来自外部的阻尼力。 阻尼力产生机构包括用于产生阻尼力的阻尼阀,用于通过工作流体向阻尼阀施加先导压力的先导室,以及用于至少将工作流体供给或排出到先导室的泵 。
    • 3. 发明授权
    • Magnetic recording medium
    • 磁记录介质
    • US08603652B2
    • 2013-12-10
    • US13043692
    • 2011-03-09
    • Tadashi IshiguroKatsumi ArakiKenichi Nakamura
    • Tadashi IshiguroKatsumi ArakiKenichi Nakamura
    • G11B5/716
    • G11B5/7023G11B5/7022G11B5/7026G11B5/735G11B5/738
    • An aspect of the present invention relates to a magnetic recording medium comprising on one surface of a nonmagnetic support a nonmagnetic layer containing a nonmagnetic powder and a binder and a magnetic layer containing a ferromagnetic powder and a binder in this order, as well as comprising a backcoat layer on the other surface of the nonmagnetic support. The nonmagnetic layer is a radiation-cured layer formed by curing with radiation a given radiation-curable composition, and the backcoat layer comprises filler particles with an average primary particle diameter, D50, ranging from 0.05 to 1.0 μm, the filler particles being selected from the group consisting of organic polymer particles and inorganic colloidal particles.
    • 本发明的一个方面涉及一种在非磁性载体的一个表面上包含非磁性粉末和粘合剂的非磁性层和含有铁磁性粉末和粘合剂的磁性层的磁性记录介质,并且包括一个 背涂层在非磁性载体的另一个表面上。 非磁性层是通过用给定的可辐射固化组合物的辐射固化而形成的辐射固化层,背涂层包含平均初级粒径D50为0.05至1.0μm的填料颗粒,填料颗粒选自 由有机聚合物颗粒和无机胶体颗粒组成的组。
    • 4. 发明授权
    • Reversed-polarity pulse generating circuit for direct current plasma and direct current plasma power supply unit
    • 直流等离子体和直流等离子体电源单元的反转极性脉冲发生电路
    • US08471484B2
    • 2013-06-25
    • US13193862
    • 2011-07-29
    • Kiyomi WatanabeKazuo SakaiKenichi Nakamura
    • Kiyomi WatanabeKazuo SakaiKenichi Nakamura
    • H05B37/02
    • H05H1/46H01J37/32027H01J37/32045H05H2001/4682
    • A capacitor is connected between direct current voltage terminals, and inductance means is connected between one end of the capacitor and one of load terminals. In a case in which the direct current voltage exceeds a set value, voltage at both ends of the capacitor is shared by the first and second switching elements that are not electrically conductive; in a case in which the direct current voltage is below the set value, the first and second switching elements are electrically conductive on a periodic basis or as needed to output reversed-polarity voltage between load terminals; and in a case in which the first and second switching elements are turned off, voltage at both ends of the capacitor restricts voltage applied to both ends of the first and second switching elements, during a period in which the first and second feedback rectifier elements are electrically conductive.
    • 电容器连接在直流电压端子之间,电感装置连接在电容器的一端和负载端子之间。 在直流电压超过设定值的情况下,电容器两端的电压由不导电的第一和第二开关元件共用, 在直流电压低于设定值的情况下,第一和第二开关元件周期性地导电,或者根据需要在负载端子之间输出反极性电压; 并且在第一和第二开关元件截止的情况下,在第一和第二反馈整流元件是第一和第二反馈整流元件的时段期间,电容器两端的电压限制施加到第一和第二开关元件的两端的电压 导电。
    • 5. 发明申请
    • TRANSMISSION DATA PROCESSING METHOD, INFORMATION PROCESSING METHOD, TRANSMISSION DEVICE, AND RECEPTION DEVICE
    • 传输数据处理方法,信息处理方法,传输设备和接收设备
    • US20130142045A1
    • 2013-06-06
    • US13813535
    • 2012-02-22
    • Kenichi NakamuraSeigo NakaoToyoki UeRyohei Kimura
    • Kenichi NakamuraSeigo NakaoToyoki UeRyohei Kimura
    • H04W28/02
    • H04W28/0289H04N21/2381H04N21/6112H04N21/8456
    • Disclosed is a technique for providing a transmission data processing method and the like capable of estimating a communicable band in a heterogeneous multi-radio network at a higher speed and minimizing the deterioration of the video quality even if an unavoidable fluctuation occurs in a band available for transmission. According to the technique, there is provided a transmission data processing method at a stage prior to data transmission by a transmission device 100 for providing the data transmission to a reception device 200 as a communication partner, including: a priority giving step of giving priority to each data of multiple pieces of data, to be transmitted to the reception device, based on a predetermined criterion; a feedback receiving step of receiving, from the reception device, feedback information on data transmitted from the transmission device to the reception device; and a distribution step of distributing, based on the priority and the feedback information received, the multiple pieces of data into a first interface and a second interface used for communication with the reception device.
    • 公开了一种用于提供能够以更高速度估计异构多无线电网络中的可通信频带并使视频质量恶化最小化的传输数据处理方法等的技术,即使在可用于 传输。 根据该技术,提供了一种传输数据处理方法,在传输设备100进行数据传输之前的阶段,用于向作为通信伙伴的接收设备200提供数据传输,包括:优先级给予步骤,优先级为 基于预定标准将要发送到接收装置的多条数据的每个数据; 反馈接收步骤,从接收装置接收关于从发送装置发送到接收装置的数据的反馈信息; 以及分配步骤,基于所接收的优先级和反馈信息将所述多条数据分配到用于与所述接收设备通信的第一接口和第二接口。
    • 7. 发明授权
    • Analog-to-digital converter circuit and solid-state imaging device
    • 模数转换电路和固态成像装置
    • US08334913B2
    • 2012-12-18
    • US12834270
    • 2010-07-12
    • Satoshi SakuraiKenichi Nakamura
    • Satoshi SakuraiKenichi Nakamura
    • H04N5/217
    • H04N5/37455H03M1/1019H03M1/123H03M1/56H04N5/3575
    • Certain embodiments provide an ADC includes a comparator, a binary counter and a control circuit. The comparator compares a first analog signal voltage with a first reference voltage, and compares a second analog signal voltage with a second reference voltage. The binary counter counts up the clock signal for a first period until the first reference voltage becomes equal to the first analog signal after the comparator starts to compare the first reference voltage with the first analog signal voltage, and inverts a logic level of the count output having a plurality of bits after the first period elapses. The binary counter counts up the clock signal for a second period until the second reference voltage becomes equal to a second analog signal after the comparator starts to compare the second reference voltage with the second analog signal voltage.
    • 某些实施例提供的ADC包括比较器,二进制计数器和控制电路。 比较器将第一模拟信号电压与第一参考电压进行比较,并将第二模拟信号电压与第二参考电压进行比较。 二进制计数器对第一周期的时钟信号进行计数,直到比较器开始比较第一参考电压和第一模拟信号电压之后,第一参考电压变为等于第一模拟信号,并且反转计数输出的逻辑电平 在经过第一时间段之后具有多个位。 在比较器开始比较第二参考电压和第二模拟信号电压之后,二进制计数器对时钟信号计数第二个周期,直到第二参考电压变为等于第二模拟信号。