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    • 84. 发明授权
    • Charge-discharge control circuit, semiconductor integrated circuit, method of controlling charging and discharging
    • 充放电控制电路,半导体集成电路,充放电控制方法
    • US08947052B2
    • 2015-02-03
    • US13502152
    • 2010-10-26
    • Akihiro NishizawaTakashi Takeda
    • Akihiro NishizawaTakashi Takeda
    • H02J7/00H01M10/44H01M10/48
    • H02J7/0016H01M10/441H01M10/482
    • A charge-discharge control circuit includes a cell balance detection circuit that detects that a voltage of a cell reaches a predetermined voltage; a memory circuit that stores the cell that reaches the predetermined voltage first among plural of the cells; bypass circuits respectively connected to the plural cells in parallel, each of the bypass circuits including a switch unit for bypassing the current that flows through the corresponding cell when charging; and a control circuit that controls the switch units, wherein the control circuit controls the switch unit based on the cell stored in the memory circuit so that an ON/OFF status of the switch unit is maintained from a start to an end of a next charging operation subsequent to a charging operation during which the cell is stored in the memory circuit.
    • 充放电控制电路包括:电池平衡检测电路,其检测电池电压达到预定电压; 存储电路,其存储在多个单元中首先达到预定电压的单元; 分别并联连接到多个单元的旁路电路,每个旁路电路包括用于在充电时绕过流过相应单元的电流的开关单元; 以及控制电路,其控制所述开关单元,其中所述控制电路基于存储在所述存储器电路中的单元来控制所述开关单元,使得从下一次充电的开始到结束来保持所述开关单元的接通/断开状态 在该单元被存储在存储器电路中的充电操作之后的操作。
    • 85. 发明授权
    • Battery voltage monitoring circuit
    • 电池电压监控电路
    • US08878541B2
    • 2014-11-04
    • US13278325
    • 2011-10-21
    • Akihiro NishizawaTakashi Takeda
    • Akihiro NishizawaTakashi Takeda
    • G01N27/416H01M10/42G01R31/36
    • H01M10/425G01R31/362G01R31/3658
    • A battery voltage monitoring circuit includes a first power supply terminal to be connected to the positive terminal of a battery pack having rechargeable cells connected in series; a first supply voltage sensing terminal to be connected to the positive terminal of the battery pack; a first resistor connected between the first power supply terminal and the first supply voltage sensing terminal; a second supply voltage sensing terminal to be connected to the negative terminal of a first rechargeable cell of the rechargeable cells, the first rechargeable cell being on the positive terminal side of the battery pack and connected to the positive terminal of the battery pack; a second resistor connected between the second supply voltage sensing terminal and the first power supply terminal; and a first comparator configured to compare a voltage at the first power supply terminal and a voltage at the first supply voltage sensing terminal.
    • 电池电压监视电路包括:第一电源端子,其连接到具有可串联连接的可充电电池的电池组的正极端子; 要连接到电池组的正端子的第一电源电压感测端子; 连接在第一电源端子和第一电源电压检测端子之间的第一电阻器; 第二电源电压检测端子,连接到可再充电电池的第一可再充电电池的负极端子,第一可再充电电池位于电池组的正极侧,并连接到电池组的正极端子; 连接在第二电源电压检测端子和第一电源端子之间的第二电阻器; 以及第一比较器,被配置为比较第一电源端子处的电压和第一电源电压感测端子处的电压。
    • 88. 发明授权
    • Virtual image display device and method of manufacturing the same
    • 虚像显示装置及其制造方法
    • US08780447B2
    • 2014-07-15
    • US13601528
    • 2012-08-31
    • Masayuki TakagiTakahiro TotaniToshiaki MiyaoAkira KomatsuTakashi Takeda
    • Masayuki TakagiTakahiro TotaniToshiaki MiyaoAkira KomatsuTakashi Takeda
    • G02B27/14G02B27/01
    • G02B27/0172G02B17/008Y10T29/49
    • In a virtual image display device, a mirror layer has a thickness of 50 nm or more to perform non-transparent reflection in a second ridge line vicinity area on a third reflection face side in a ridge line portion extending between the third reflection face and a second reflection face. Accordingly, reflectance of image light can be prevented from being decreased by the second ridge line vicinity area (that is, a peripheral portion on a light guide unit in the third reflection face), and thus stripe-shaped brightness unevenness extending in a longitudinal direction can be prevented from occurring on the viewed image. That is, in the image display device, it is possible to secure sufficient reflection even in the peripheral portion close to a boundary with the second reflection face with respect to the third reflection face, and also to display a bright image with little brightness unevenness.
    • 在虚像显示装置中,镜层的厚度为50nm以上,在第3反射面和第3反射面之间延伸的棱线部分的第3反射面侧的第2脊线附近区域进行非透明反射 第二反射面。 因此,可以防止图像光的反射率被第二脊线附近区域(即,第三反射面中的导光单元的周边部分)减小,并且因此在纵向方向上延伸的条形亮度不均匀 可以防止在观看图像上发生。 也就是说,在图像显示装置中,即使在靠近与第二反射面相对于第三反射面的边界的周边部分中也可以确保足够的反射,并且还可以显示亮度不均匀的亮度图像。