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
    • 2. 发明公开
    • Electronic device
    • Elektronische Vorrichtung
    • EP1962406A3
    • 2012-09-05
    • EP08250447.3
    • 2008-02-07
    • Sony Mobile Communications Japan, Inc.Seiko Epson Corporation
    • Kato, HiroshiSuzuki, KuniharuSuzuki, KatsuyaYamazaki, ManabuOnishi, KotaYoda, Kentaro
    • H02J7/02H01F38/14H02J7/00
    • H02J7/025H01F38/14H02J7/0031H02J7/345H02J50/10
    • An electronic device having at least a loop-shaped electric conductor (14) generating electric power by electromagnetic induction is provided. The electronic device includes a voltage-detecting unit (51), a voltage-comparing unit (50) and a separating unit (43). The voltage-detecting unit (51) is configured to detect a voltage generated in the electric conductor (14) by the electromagnetic induction. The voltage-comparing unit (50) is configured to make a comparison between the voltage detected by the voltage-detecting unit (51) and a predetermined reference voltage and determining whether the voltage detected by the voltage-detecting unit exceeds the predetermined reference voltage. The separating unit (43) is configured to break an electric connection between the electronic conductor (14) and an electronic circuit (44) connecting to the electric conductor (14) when the voltage-comparing unit (50) determines that the voltage detected by the voltage-detecting unit exceeds the predetermined reference voltage.
    • 提供一种具有至少一个通过电磁感应产生电力的环形导电体(14)的电子装置。 电子设备包括电压检测单元(51),电压比较单元(50)和分离单元(43)。 电压检测单元(51)被配置为通过电磁感应来检测在电导体(14)中产生的电压。 电压比较单元(50)被配置为对由电压检测单元(51)检测的电压与预定参考电压进行比较,并且确定由电压检测单元检测到的电压是否超过预定参考电压。 分离单元(43)被配置为当电压比较单元(50)确定由(...)电压检测到的电压确定了电压检测到的电压时,断开电子导体(14)和连接到电导体(14)的电子电路(44)之间的电连接 电压检测单元超过预定参考电压。
    • 7. 发明公开
    • Electronic device
    • 电子设备
    • EP1962406A2
    • 2008-08-27
    • EP08250447.3
    • 2008-02-07
    • Sony Ericsson Mobile Communications Japan, Inc.Seiko Epson Corporation
    • Kato, HiroshiSuzuki, KuniharuSuzuki, KatsuyaYamazaki, ManabuOnishi, KotaYoda, Kentaro
    • H02J7/02
    • H02J7/025H01F38/14H02J7/0031H02J7/345H02J50/10
    • An electronic device having at least a loop-shaped electric conductor (14) generating electric power by electromagnetic induction is provided. The electronic device includes a voltage-detecting unit (51), a voltage-comparing unit (50) and a separating unit (43). The voltage-detecting unit (51) is configured to detect a voltage generated in the electric conductor (14) by the electromagnetic induction. The voltage-comparing unit (50) is configured to make a comparison between the voltage detected by the voltage-detecting unit (51) and a predetermined reference voltage and determining whether the voltage detected by the voltage-detecting unit exceeds the predetermined reference voltage. The separating unit (43) is configured to break an electric connection between the electronic conductor (14) and an electronic circuit (44) connecting to the electric conductor (14) when the voltage-comparing unit (50) determines that the voltage detected by the voltage-detecting unit exceeds the predetermined reference voltage.
    • 提供至少具有通过电磁感应产生电力的环形导体(14)的电子装置。 该电子设备包括电压检测单元(51),电压比较单元(50)和分离单元(43)。 电压检测单元(51)被配置为检测通过电磁感应在电导体(14)中产生的电压。 电压比较单元(50)被配置为比较由电压检测单元(51)检测到的电压和预定参考电压,并且确定由电压检测单元检测到的电压是否超过预定参考电压。 所述分离单元(43)被配置为当所述电压比较单元(50)确定由所述电导体(14)检测到的电压由所述电导体(14)检测到时,断开所述电导体 电压检测单元超过预定的参考电压。
    • 10. 发明公开
    • Power transmission control device, power transmitting device, non-contact power transmitting system, and electronic instrument
    • 用于电力传输控制,动力传动装置,无触点电力传输系统及电子设备的设备
    • EP2079146A2
    • 2009-07-15
    • EP09000208.0
    • 2009-01-09
    • Seiko Epson Corporation
    • Onishi, KotaKamiyama, MasayukiShiozaki, NobutakaKamijo, TakahiroHasegawa, MinoruSogabe, Haruhiko
    • H02J7/02
    • H02J50/12H02J7/025H02J50/60H02J50/80H02J2007/0001
    • A power transmission control device used for a non-contact power transmission system includes an operation mode switching terminal that receives an operation mode switch control signal that switches a mode between an automatic mode and a switch mode, a power transmitting device (10) starting normal power transmission in the automatic mode after installation of a power-receiving-side instrument (510) that includes a power receiving device (40) in an area in which power transmitted via non-contact power transmission can be received has been automatically detected, the normal power transmission supplying power to a load of the power-receiving-side instrument, and the power transmitting device starting the normal power transmission in the switch mode after an operation trigger switch (SW1) has been turned ON, an operation trigger terminal that receives an operation trigger signal that occurs due to an operation of the operation trigger switch, and a power-transmitting-side control circuit that controls power transmission to the power receiving device and changes an operation mode of the power transmitting device based on the operation mode switch control signal.
    • 用于非接触电力传输系统中的送电控制装置包括:在操作模式切换端子做了动作模式切换控制信号来接收并接通自动模式和开关模式中,动力传递装置(10)之间的模式开始正常 电力传输在自动模式下安装一个受电侧设备(510)那样的后包括功率中哪一个电力接收区的装置(40)反式经由可接收的非接触电力传输mitted已被自动检测到,则 正常输电电力供应到受电侧设备的负载,并在操作触发开关(SW1)之后开始在开关模式中的正常输电的电力传输装置已经在操作触发终端被接通做接收 向业务触发信号所做的发生是由于手术对操作触发开关,以及送电侧控制电路 确实控制电力传输到电力接收装置和改变基于所述动作模式切换控制信号送电装置的操作模式。