会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 64. 发明授权
    • Voltage equalizing apparatus for battery devices
    • 电池装置的均压装置
    • US06670789B2
    • 2003-12-30
    • US10357266
    • 2003-02-03
    • Seiichi AnzawaHiroshi NishizawaFujio Matsui
    • Seiichi AnzawaHiroshi NishizawaFujio Matsui
    • H02J700
    • H02J7/0018
    • A voltage equalizing apparatus for battery devices includes a core, a plurality of first battery devices interconnected in series with each other, each consisting of one or more cells, a plurality of secondary windings magnetically connected with each other through the core, a plurality of first switching devices, each connected to one of the plurality of secondary windings and one of the plurality of first battery devices to constitute a first closed circuit, one or more second battery devices provided separately from said plurality of first battery devices interconnected in series or a second battery device provided by rendering the whole of said plurality of first battery devices interconnected in series one battery device, a primary winding magnetically connected with the plurality of secondary windings through the core, and a second switching device connected in series with the second battery device and the primary winding to constitute a second closed circuit. The plurality of first switching devices and the plurality of second switching device are alternately turned ON and OFF to equalize the output voltages of the first battery devices. The plurality of first switching devices continue to be turned ON after exciting energy stored in the core is transported by the charging to the battery devices having lower voltages among said plurality of first battery devices, to effect the charging from the battery devices having higher voltages among said plurality of first battery devices to the battery devices having lower voltages among said plurality of first battery devices and/or to store energy in said core.
    • 电池装置的均压装置包括:芯,多个第一电池装置,它们彼此串联连接,每个第一电池装置由一个或多个电池组成,多个次级绕组通过芯彼此磁连接;多个第一 开关装置,各自连接到所述多个次级绕组中的一个和所述多个第一电池装置中的一个,以构成第一闭合电路;与所述多个串联连接的所述多个第一电池装置分开设置的一个或多个第二电池装置, 电池装置,其通过使整个所述多个第一电池装置串联连接而形成一个电池装置,通过芯与多个次级绕组磁连接的初级绕组,以及与第二电池装置串联连接的第二开关装置,以及 初级绕组构成第二个闭合回路。 多个第一开关装置和多个第二开关装置交替地接通和断开以均衡第一电池装置的输出电压。 多个第一开关装置在通过充电将存储在芯体中的能量传送到所述多个第一电池装置中具有较低电压的电池装置之后继续导通,以实现从具有较高电压的电池装置的充电 所述多个第一电池装置到所述多个第一电池装置中具有较低电压的电池装置和/或在所述芯中存储能量。
    • 67. 发明授权
    • Voltage equalizing apparatus and voltage equalizing method for battery devices
    • 电池均衡装置及电压均衡方法
    • US06373223B1
    • 2002-04-16
    • US09811061
    • 2001-03-16
    • Seiichi AnzawaHiroshi NishizawaFujio Matsui
    • Seiichi AnzawaHiroshi NishizawaFujio Matsui
    • H02J700
    • H02J7/0018
    • In a voltage equalizing apparatus for battery devices, wherein each of a plurality of closed circuits is constituted of each of a plurality of battery devices interconnected in series on a secondary side, each of a plurality of secondary windings magnetically coupled with each other, and each of a plurality of switching devices on the secondary side, wherein a closed circuit is constituted of a battery device on a primary side, a primary winding magnetically coupled with the secondary windings in common, and a switching device on the primary side, and wherein the plurality of switching devices on the secondary side and the switching device on the primary side are alternately switched ON and OFF, thereby equalizing the output voltages of the plurality of battery devices interconnected in series on the secondary side; the ON operation of the plurality of switching devices on the secondary side is continued until after the completion of release of exciting energy stored in a transformer.
    • 在电池装置的均压装置中,其中,多个闭合电路中的每一个由在次级侧串联连接的多个电池装置中的每一个构成,多个次级绕组中的每一个彼此磁耦合,并且每个 其中闭合电路由初级侧的电池装置,与次级绕组共同磁耦合的初级绕组和初级侧的开关装置构成,并且多个开关装置中的多个开关装置 二次侧的开关器件和初级侧的开关器件交替地接通和断开,从而均衡在次级侧串联连接的多个电池器件的输出电压; 在二次侧的多个开关装置的接通动作继续进行,直到释放存储在变压器中的激励能量的完成为止。
    • 68. 发明授权
    • Non-pealing anti-reflective film for a cathode ray tube and method of making the same
    • 一种用于阴极射线管的非聚光抗反射膜及其制造方法
    • US06268892B1
    • 2001-07-31
    • US09387739
    • 1999-09-01
    • Hiroshi NishizawaAkira Kondo
    • Hiroshi NishizawaAkira Kondo
    • H04N572
    • H01J29/896G06F1/1609H01J2229/87H04N5/72
    • An anti-reflective film laminated on the display surface of a cathode ray tube which is not prone to pealing with age includes an extension on each of the four sides of the main film surface. The extensions from the main anti-reflective film surface are preferably rectangular and can be wrapped around the sides of the cathode ray tube adjacent to the display surface. A heat shrink band is then constricted around the cathode ray tube to fix the anti-reflective film in place. Strips of conductive material on the extensions of the anti-reflective film can be electrically connected to grounding electrodes on the heat shrink band to allow for the dissipation of static electricity which tends to accumulate on the anti-reflective film. With the heat shrink band securing the anti-reflective film in place over the display surface over the cathode ray tube, the anti-reflective film is not prone to pealing or separation from the display surface of the cathode ray tube.
    • 叠层在不容易老化的阴极射线管的显示面上的防反射膜包括在主膜表面的四个侧面上的延伸部。 主抗反射膜表面的延伸部优选是矩形的,并且可以围绕与显示表面相邻的阴极射线管的侧面缠绕。 然后,热收缩带围绕阴极射线管收缩,以将抗反射膜固定就位。 抗反射膜的延伸部上的导电材料条可以电连接到热收缩带上的接地电极,以允许易于积聚在抗反射膜上的静电消散。 利用热收缩带将抗反射膜固定在阴极射线管的显示表面上的适当位置,抗反射膜不容易从阴极射线管的显示表面剥离或分离。