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    • 3. 发明授权
    • Image forming method
    • 图像形成方法
    • US08733918B2
    • 2014-05-27
    • US13072796
    • 2011-03-28
    • Misato SasadaMinoru SakaiKiyoshi IritaJun Matsumoto
    • Misato SasadaMinoru SakaiKiyoshi IritaJun Matsumoto
    • B41J2/00
    • B41M5/506B41M5/0023B41M5/52B41M5/5218B41M5/5227B41M7/0072B41M7/0081C09D11/101C09D11/30
    • The present invention provides an image forming method including ejecting an ink composition, using an ink jet apparatus, onto a recording medium thereby forming an image, the ink composition comprising a pigment, a water-soluble polymerizable monomer which is polymerized by actinic energy rays, and water, and the recording medium being composed of a base paper, a first layer including a binder, and a second layer including a white pigment and an acidic substance, which are disposed in this order, wherein a surface of the first layer is disposed on the base paper and has a Cobb water absorption capacity of 2.0 g/m2 or less at a contact time of 120 seconds as measured by a water-absorbing capacity test according to JIS P8140, a surface of the second layer has a water absorption of from 2 ml/m2 to 8 ml/m2 at a contact time of 0.5 seconds as measured by the Bristow's method, and the surface of the second layer has a pH of 5.5 or less.
    • 本发明提供了一种图像形成方法,包括使用喷墨装置将油墨组合物喷射到记录介质上,从而形成图像,该油墨组合物包含颜料,通过光化能射线聚合的水溶性可聚合单体, 和水,并且所述记录介质由原纸,包括粘合剂的第一层和包括白色颜料和酸性物质的第二层构成,其中所述第一层的表面被设置 在原纸上通过根据JIS P8140的吸水能力试验测定的接触时间为120秒时的Cobb吸水量为2.0g / m 2以下,第二层的表面具有 通过Bristow法测定的接触时间为0.5秒时,从2ml / m 2至8ml / m 2,第二层的表面的pH为5.5以下。
    • 4. 发明授权
    • Oscillation circuit
    • 振荡电路
    • US08710933B2
    • 2014-04-29
    • US13478840
    • 2012-05-23
    • Takayuki NakamuraMinoru Sakai
    • Takayuki NakamuraMinoru Sakai
    • H03B1/00H03L5/00
    • H03B5/04H03B5/368H03L1/023
    • A disclosed oscillation circuit includes a constant-voltage generation circuit, an oscillation generation circuit configured to generate an oscillation output, an output circuit including a plurality of parallelly arranged MOSFET circuits, to which a constant voltage generated by the constant-voltage generation circuit is supplied as a supply voltage, output points of the plurality of MOSFET circuits being mutually connected, and a drive circuit configured to drive a selected MOSFET circuit selected in response to a selection input among the plurality of MOSFET circuits by the oscillation output, wherein an output from an unselected MOSFET circuit among the plurality of MOSFET circuits other than the selected MOSFET circuits has a high impedance.
    • 所公开的振荡电路包括恒压发生电路,被配置为产生振荡输出的振荡产生电路,包括多个并联布置的MOSFET电路的输出电路,由恒压产生电路产生的恒定电压 作为电源电压,多个MOSFET电路的输出点相互连接,以及驱动电路,其被配置为通过振荡输出来驱动响应于多个MOSFET电路中的选择输入而选择的所选择的MOSFET电路,其中, 除选择的MOSFET电路之外的多个MOSFET电路中的未选择的MOSFET电路具有高阻抗。
    • 5. 发明授权
    • Function generator circuit
    • 函数发生器电路
    • US08659361B2
    • 2014-02-25
    • US13302043
    • 2011-11-22
    • Ryosuke MatsuwakeMinoru Sakai
    • Ryosuke MatsuwakeMinoru Sakai
    • H03B5/32H03L1/02
    • H03L1/022H03L1/023
    • A function generator circuit includes a temperature detecting circuit outputting a detection voltage corresponding to an ambient temperature and having a linear temperature characteristic. Zeroth-order, first-order and second-order component generating circuits generate a zeroth-order component, a first-order component and a second-order component, respectively, of the control signal. A third-order component generating circuit generates a third-order component of the control signal based on the detection voltage. An adder-subtractor generates the control signal by obtaining a sum of the zeroth-order component, the first-order component, and the third-order component and adding or subtracting the second-order component to or from the sum. The second-order component generating circuit corrects a temperature at an inflection point of the control signal.
    • 功能发生器电路包括输出对应于环境温度并具有线性温度特性的检测电压的温度检测电路。 零级一阶和二阶分量产生电路分别产生控制信号的零级分量,一阶分量和二阶分量。 三阶分量产生电路基于检测电压产生控制信号的三阶分量。 加法器 - 减法器通过获得零级分量,一阶分量和三阶分量的和,并且从或从和加起或减去二阶分量来产生控制信号。 二次分量产生电路校正控制信号的拐点处的温度。
    • 7. 发明申请
    • OSCILLATION CIRCUIT
    • 振荡电路
    • US20120313718A1
    • 2012-12-13
    • US13478840
    • 2012-05-23
    • Takayuki NakamuraMinoru Sakai
    • Takayuki NakamuraMinoru Sakai
    • H03K3/36
    • H03B5/04H03B5/368H03L1/023
    • A disclosed oscillation circuit includes a constant-voltage generation circuit, an oscillation generation circuit configured to generate an oscillation output, an output circuit including a plurality of parallelly arranged MOSFET circuits, to which a constant voltage generated by the constant-voltage generation circuit is supplied as a supply voltage, output points of the plurality of MOSFET circuits being mutually connected, and a drive circuit configured to drive a selected MOSFET circuit selected in response to a selection input among the plurality of MOSFET circuits by the oscillation output, wherein an output from an unselected MOSFET circuit among the plurality of MOSFET circuits other than the selected MOSFET circuits has a high impedance.
    • 所公开的振荡电路包括恒压发生电路,被配置为产生振荡输出的振荡产生电路,包括多个并联布置的MOSFET电路的输出电路,由恒压产生电路产生的恒定电压 作为电源电压,多个MOSFET电路的输出点相互连接,以及驱动电路,其被配置为通过振荡输出来驱动响应于多个MOSFET电路中的选择输入而选择的所选择的MOSFET电路,其中, 除选择的MOSFET电路之外的多个MOSFET电路中的未选择的MOSFET电路具有高阻抗。
    • 8. 发明授权
    • Ink set for inkjet recording
    • 墨水设置用于喷墨记录
    • US08236096B2
    • 2012-08-07
    • US12723910
    • 2010-03-15
    • Minoru Sakai
    • Minoru Sakai
    • C09D11/02
    • C09D11/40B41M5/0017C09D11/322C09D11/54
    • The ink set for inkjet recording of the invention has at least: an aqueous ink composition containing at least a pigment; and a reaction liquid containing at least a reactant that produces an aggregate when contacted with the aqueous ink composition. The static surface tension of the reaction liquid is 40 mN/m or higher. The dynamic surface tension γ0.1 is from 40 mN/m to 50 mN/m and the ratio γ0.1/γ10, that is a ratio of the dynamic surface tension and is sometimes referred to as γ, is from 1.01 to 1.10, in which the dynamic surface tension of the reaction liquid at a surface lifetime of 100 ms and 10000 ms is γ0.1 and γ10, respectively, according to the maximum bubble pressure technique. The aqueous ink composition aggregates by contacting the reaction liquid to form an image.
    • 本发明的喷墨记录用油墨组中至少含有:至少含有颜料的水性油墨组合物, 以及至少含有与水性油墨组合物接触时产生聚集体的反应物的反应液。 反应液的静态表面张力为40mN / m以上。 动态表面张力γ0.1为40mN / m〜50mN / m,作为动态表面张力的比例γ0.1/γ10为有时称为γ,为1.01〜1.10, 其中根据最大气泡压力技术,反应液在100ms和10000ms的表面寿命时的动态表面张力分别为γ0.1和γ10。 水性油墨组合物通过使反应液接触而形成图像而聚集。
    • 10. 发明申请
    • METHOD FOR PRODUCING LITHIUM IRON PHOSPHATE
    • 生产磷酸铁锂的方法
    • US20120032119A1
    • 2012-02-09
    • US13203326
    • 2010-03-10
    • Tomoyuki TaharaMinoru Sakai
    • Tomoyuki TaharaMinoru Sakai
    • H01B1/04H01M4/58C01B25/45
    • H01M4/5825C01B25/45H01M4/136H01M10/0525
    • A method for producing lithium iron phosphate includes: an aqueous solution preparing step of preparing an aqueous solution containing a phosphoric acid and a carboxylic acid; a first forming step of adding iron particles containing 0.5 mass % or more of oxygen to the aqueous solution, and making the phosphoric acid and the carboxylic acid and the iron particles react with each other in the aqueous solution under an oxidizing atmosphere, to form a first reaction liquid is formed by; the second forming step of adding a lithium source to the first reaction liquid obtained in the synthesizing step to form a second reaction liquid; the precursor forming step of drying the second reaction liquid to form a lithium iron phosphate precursor; and the primary baking step of baking the lithium iron phosphate precursor under a non-oxidizing atmosphere thus obtaining lithium iron phosphate.
    • 制造磷酸铁锂的方法包括:制备含有磷酸和羧酸的水溶液的水溶液制备步骤; 在水溶液中添加含有0.5质量%以上的铁的铁粒子的第一形成工序,在氧化气氛下使磷酸,羧酸和铁粒子在水溶液中相互反应,形成 第一反应液体由...形成; 第二形成步骤,在合成步骤中获得的第一反应液中加入锂源以形成第二反应液; 前体形成步骤,干燥第二反应液体以形成磷酸铁锂前体; 以及在非氧化性气氛下焙烧磷酸铁锂前体的一次烘烤工序,得到磷酸铁锂。