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    • 2. 发明授权
    • Battery charger cradle
    • 电池充电器支架
    • US08305036B2
    • 2012-11-06
    • US12314743
    • 2008-12-16
    • Shoichi ToyaYasunari MizoguchiEiji SatsumaKyozo Terao
    • Shoichi ToyaYasunari MizoguchiEiji SatsumaKyozo Terao
    • H02J7/00
    • H02J7/0045H02J7/025H02J7/027H02J7/045H02J17/00H02J50/12H02J50/60H02J50/80H02J50/90
    • In a battery charger cradle, a battery incorporated in a battery built-in device is charged by electric power induced to an induction coil. The cradle includes a primary coil for inducing electromotive force to the induction coil, a casing having a top plate atop of which the battery built-in device is placed, a movement mechanism for moving the primary coil along an inner surface of the top plate, and a position detection controller for detecting a position of the battery built-in device placed on the top plate and controlling the movement mechanism to bring the primary coil closer to the induction coil in the battery built-in device. When the battery built-in device is placed on the top plate, the position detection controller detects the position of the battery built-in device, and the movement mechanism moves the primary coil closer to the induction coil in the battery built-in device.
    • 在电池充电器支架中,内置在电池内置装置中的电池通过感应线圈感应的电力来充电。 所述支架包括用于感应所述感应线圈的电动势的初级线圈,具有放置所述电池内置装置的顶板的壳体,用于沿着所述顶板的内表面移动所述初级线圈的移动机构, 以及位置检测控制器,用于检测放置在顶板上的电池内置装置的位置,并且控制移动机构以使初级线圈更靠近电池内置装置中的感应线圈。 当电池内置装置放置在顶板上时,位置检测控制器检测电池内置装置的位置,并且移动机构使初级线圈更靠近电池内置装置中的感应线圈。
    • 3. 发明申请
    • BATTERY-CONTAINING UNIT AND CHARGING BASE
    • 电池单元和充电基座
    • US20090278505A1
    • 2009-11-12
    • US12437761
    • 2009-05-08
    • Shoichi TOYAYasunari MizoguchiEiji SatsumaKyozo Terao
    • Shoichi TOYAYasunari MizoguchiEiji SatsumaKyozo Terao
    • H02J7/04
    • H02J7/025H01F38/14H01M10/052H01M10/46H02J50/10H02J50/40H02J50/60H02J50/70H02J50/80H02J50/90
    • A battery-containing unit and a charging base are a battery-containing unit includes a lithium ion battery, and a charging base to which the battery-containing unit to be charged is placed. The battery-containing unit includes a charging circuit that converts an alternating current produced in an energized coil into a direct current, and a transmitter that detects the voltage of the lithium ion battery and transmits a voltage signal to the charging base. The charging base includes a receiver that receives the signal from the transmitter and detects the voltage signal, and a high frequency power supply that provides AC power to the energizing coil The power supply of the charging base detects the voltage of the lithium ion battery through the receiver and the transmitter, and is controlled to charge the lithium ion battery so that the voltage of lithium ion battery does not exceed a predetermined voltage.
    • 含电池单元和充电基座是包括锂离子电池的电池容纳单元和被充电的电池单元所在的充电基座。 含电池单元包括将在通电线圈中产生的交流电转换成直流电的充电电路,以及检测锂离子电池的电压并将电压信号发送到充电基座的发送器。 充电座包括接收来自发射机的信号并检测电压信号的接收机以及向激励线圈提供AC电力的高频电源。充电座的电源通过该充电座检测锂离子电池的电压 接收器和发射器,并且被控制为锂离子电池充电,使得锂离子电池的电压不超过预定电压。
    • 4. 发明申请
    • Battery charger cradle
    • 电池充电器支架
    • US20090153098A1
    • 2009-06-18
    • US12314743
    • 2008-12-16
    • Shoichi ToyaYasunari MizoguchiEiji SatsumaKyozo Terao
    • Shoichi ToyaYasunari MizoguchiEiji SatsumaKyozo Terao
    • H02J7/00
    • H02J7/0045H02J7/025H02J7/027H02J7/045H02J17/00H02J50/12H02J50/60H02J50/80H02J50/90
    • In a battery charger cradle, a battery incorporated in a battery built-in device is charged by electric power induced to an induction coil. The cradle includes a primary coil inducing electromotive force to the induction coil, a casing having a top plate atop of which the battery built-in device is placed, a movement mechanism moving the primary coil along an inner surface of the top plate, and a position detection controller detecting a position of the battery built-in device placed on the top plate and controlling the movement mechanism to bring the primary coil closer to the induction coil in the battery built-in device. When the battery built-in device is placed on the top plate, the position detection controller detects the position of the battery built-in device, and the movement mechanism moves the primary coil to be brought closer to the induction coil in the battery built-in device.
    • 在电池充电器支架中,内置在电池内置装置中的电池通过感应线圈感应的电力来充电。 支架包括感应电感线圈的初级线圈,具有放置电池内置装置的顶板的壳体,沿着顶板的内表面移动初级线圈的移动机构,以及 位置检测控制器检测放置在顶板上的电池内置装置的位置,并控制移动机构使初级线圈靠近电池内置装置中的感应线圈。 当电池内置装置放置在顶板上时,位置检测控制器检测电池内置装置的位置,并且移动机构移动初级线圈使其更靠近电池内置装置中的感应线圈, 在设备中。
    • 5. 发明授权
    • Mobile electronic equipment and battery charger cradle
    • 移动电子设备和电池充电座
    • US07830116B2
    • 2010-11-09
    • US12385831
    • 2009-04-21
    • Shoichi ToyaYasunari MizoguchiToshiki NakashoKyozo Terao
    • Shoichi ToyaYasunari MizoguchiToshiki NakashoKyozo Terao
    • H02J7/00
    • H02J7/025H02J7/0044H02J50/10H02J50/40H02J50/70H02J50/90
    • Mobile electronic equipment incorporating an induction coil and a battery; and a battery charger cradle for recharging the battery in the mobile electronic equipment. Regarding the charger cradle, a bottom surface of a mounting portion is curved in a U-grooved shape, and a primary coil is incorporated inside the U-grooved bottom surface, with the primary coil being connected to a power source. Regarding the mobile equipment, its rear surface placed on the mounting portion of the charger cradle is curved to match with the U-grooved bottom surface, and the induction coil is incorporated inside the curved rear surface. When the mobile equipment is placed on the mounting portion of the charger cradle, the electric power is carried from the primary coil to the induction coil which are electromagnetically coupled with each other, and the battery in the mobile equipment is recharged by the electric power induced to the induction coil.
    • 装有感应线圈和电池的移动电子设备; 以及用于为移动电子设备中的电池充电的电池充电器支架。 关于充电器支架,安装部的底面以U形槽的形状弯曲,并且在U槽的底面内并入有初级线圈,初级线圈与电源连接。 关于移动设备,其放置在充电器支架的安装部分上的后表面弯曲以与U形槽底面匹配,并且感应线圈被并入弯曲的后表面内。 当移动设备被放置在充电器支架的安装部分上时,电力从初级线圈传递到感应线圈,它们彼此电磁耦合,并且移动设备中的电池被电力引起的充电 到感应线圈。
    • 6. 发明申请
    • Mobile electronic equipment and battery charger cradle
    • 移动电子设备和电池充电座
    • US20090267559A1
    • 2009-10-29
    • US12385831
    • 2009-04-21
    • Shoichi ToyaYasunari MizoguchiToshiki NakashoKyozo Terao
    • Shoichi ToyaYasunari MizoguchiToshiki NakashoKyozo Terao
    • H02J7/00
    • H02J7/025H02J7/0044H02J50/10H02J50/40H02J50/70H02J50/90
    • Mobile electronic equipment incorporating an induction coil and a battery; and a battery charger cradle for recharging the battery in the mobile electronic equipment. Regarding the charger cradle, a bottom surface of a mounting portion is curved in a U-grooved shape, and a primary coil is incorporated inside the U-grooved bottom surface, with the primary coil being connected to a power source. Regarding the mobile equipment, its rear surface placed on the mounting portion of the charger cradle is curved to match with the U-grooved bottom surface, and the induction coil is incorporated inside the curved rear surface. When the mobile equipment is placed on the mounting portion of the charger cradle, the electric power is carried from the primary coil to the induction coil which are electromagnetically coupled with each other, and the battery in the mobile equipment is recharged by the electric power induced to the induction coil.
    • 装有感应线圈和电池的移动电子设备; 以及用于为移动电子设备中的电池充电的电池充电器支架。 关于充电器支架,安装部的底面以U形槽的形状弯曲,并且在U槽的底面内并入有初级线圈,初级线圈与电源连接。 关于移动设备,其放置在充电器支架的安装部分上的后表面弯曲以与U形槽底面匹配,并且感应线圈被并入弯曲的后表面内。 当移动设备被放置在充电器支架的安装部分上时,电力从初级线圈传送到感应线圈,它们彼此电磁耦合,并且移动设备中的电池被电力引起的充电 到感应线圈。
    • 7. 发明申请
    • DEVICE HOUSING A BATTERY AND CHARGING PAD
    • 设备外壳电池和充电垫
    • US20100270970A1
    • 2010-10-28
    • US12765235
    • 2010-04-22
    • Shoichi TOYAKyozo Terao
    • Shoichi TOYAKyozo Terao
    • H02J7/00
    • H02J7/0027H02J7/0042H02J7/025H02J50/12H02J50/40H02J50/60H02J50/80H02J50/90
    • The charging pad 10 is provided with a position detection controller 14 that supplies position detection signals to position detection coils 30, and detects induction coil 51 position from echo signals output from the induction coil 51. The device housing a battery 50 is provided with a series capacitor 55 connected in series with the induction coil 51, a parallel capacitor 56 connected in parallel with the induction coil 51, and a switching circuit 57. When the position detection controller 14 is issuing position detection signals, the parallel capacitor 56 is connected to the induction coil 51. When power is transmitted from the power supply coil 11 to the induction coil 51, the parallel capacitor 56 is not connected to the induction coil 51 and induction coil 51 AC is output to a rectifying circuit 53 through the series capacitor 55.
    • 充电垫10设置有位置检测控制器14,其将位置检测信号提供给位置检测线圈30,并且从感应线圈51输出的回波信号中检测感应线圈51的位置。容纳电池50的装置设置有串联 与感应线圈51串联连接的电容器55,与感应线圈51并联连接的并联电容器56以及开关电路57.当位置检测控制器14正在发出位置检测信号时,并联电容器56与 感应线圈51.当从电源线圈11向感应线圈51发送电力时,并联电容器56不连接到感应线圈51,感应线圈51AC通过串联电容器55输出到整流电路53。
    • 8. 发明授权
    • Charging system including a device housing a battery and charging pad
    • 充电系统包括一个容纳电池和充电垫的设备
    • US08519666B2
    • 2013-08-27
    • US12954713
    • 2010-11-26
    • Kyozo TeraoShoichi Toya
    • Kyozo TeraoShoichi Toya
    • H02J7/00
    • H02J50/12H02J7/025H02J50/90
    • A charging pad is provided with a power supply coil, and a device housing a battery containing an induction coil. The device housing a battery is provided with a rectifying circuit that rectifies AC power induced in the induction coil, a charging circuit that charges the internal battery with output from the rectifying circuit, a shorting circuit that short circuits the terminals of the induction coil, and a control circuit that controls the shorting circuit ON when a charging abnormality is detected. If the control circuit detects a charging abnormality during power transmission from the charging pad power supply coil to the device housing a battery induction coil, it controls the shorting circuit ON to cut-off the supply of power from the induction coil to the rectifying circuit.
    • 充电垫设置有电源线圈,以及容纳包含感应线圈的电池的装置。 容纳电池的装置设置有整流电路,其对感应线圈中感应的交流电力进行整流;充电电路,其由整流电路的输出对内部电池充电;短路电路,其使感应线圈的端子短路;以及 当检测到充电异常时控制短路电路的控制电路。 如果控制电路在从充电焊盘电源线圈到容纳电池感应线圈的设备的电力传输期间检测到充电异常,则控制短路电路接通以切断从感应线圈到整流电路的电力供应。
    • 9. 发明授权
    • Battery charging pad employing magnetic induction
    • 使用磁感​​应的电池充电垫
    • US08362744B2
    • 2013-01-29
    • US12814704
    • 2010-06-14
    • Kyozo TeraoShoichi Toya
    • Kyozo TeraoShoichi Toya
    • H02J7/00H01F27/42
    • H02J50/12H01F38/14H02J7/0027H02J7/025H02J50/60H02J50/90
    • A battery charging pad includes a moving mechanism that moves the transmitting coil, and a position detection controller that detects the position of a device housing a battery and controls the moving mechanism to move the transmitting coil in close proximity to a receiving coil. Pulse signals are supplied to a plurality of position detection coils from a pulse generator, and the echo signals are a result of coil excitation by the pulse signals. The battery charging pad position detection controller detects the position of the receiving coil and moves the transmitting coil in close proximity to the receiving coil, and the position detection controller detects the position of the transmitting coil and moves the transmitting coil to the reference position, or it moves the transmitting coil in close proximity to the receiving coil.
    • 电池充电垫包括使发送线圈移动的移动机构和位置检测控制器,其检测容纳电池的装置的位置,并控制移动机构使发送线圈靠近接收线圈移动。 脉冲信号从脉冲发生器提供给多个位置检测线圈,回波信号是脉冲信号的线圈激励的结果。 电池充电垫位置检测控制器检测接收线圈的位置,并使发送线圈靠近接收线圈,并且位置检测控制器检测发送线圈的位置并将发送线圈移动到参考位置,或者 它使发射线圈靠近接收线圈移动。
    • 10. 发明授权
    • Device housing a battery and charging pad
    • 设备容纳电池和充电垫
    • US08410751B2
    • 2013-04-02
    • US12814723
    • 2010-06-14
    • Kyozo TeraoShoichi Toya
    • Kyozo TeraoShoichi Toya
    • H02J7/00H01F27/28H04M1/00
    • H02J50/80H01F38/14H02J7/025H02J50/12H02J50/40H02J50/90
    • A device housing a battery (50) includes a receiving coil (51), and a charging pad (10) includes a transmitting coil (11) that magnetically couples with, and supplies charging power to the receiving coil. The device further includes a modulator circuit (61) that changes the impedance of the receiving coil according to internal battery data. The charging pad further includes a detection circuit (17) that detects receiving coil impedance changes to detect the battery data. The modulator circuit has a load circuit (62) connected in parallel with the receiving coil and has a series-connected switching device (64) and impedance modulating capacitor (63), and a control circuit (65) that switches the load circuit switching device ON and OFF according to the battery data. The modulator circuit switches the switching device 64 ON and OFF to transmit battery data to the charging pad.
    • 容纳电池(50)的装置包括接收线圈(51),并且充电垫(10)包括与接收线圈磁耦合并向接收线圈提供充电电力的发射线圈(11)。 该装置还包括根据内部电池数据改变接收线圈的阻抗的调制器电路(61)。 充电垫还包括检测接收线圈阻抗变化以检测电池数据的检测电路(17)。 调制器电路具有与接收线圈并联连接的负载电路(62),并具有串联开关器件(64)和阻抗调制电容器(63),以及控制电路(65),其将负载电路开关器件 根据电池数据打开和关闭。 调制器电路将开关器件64接通和断开,以将电池数据传送到充电垫。