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    • 1. 发明授权
    • Capacitor charger system and digital control module and isolated acquisition module for such a capacitor charger system
    • 电容充电器系统和数字控制模块以及这种电容充电系统的隔离采集模块
    • US08797001B2
    • 2014-08-05
    • US13378795
    • 2009-06-30
    • Klas ElmqvistCarl HartmanMagnus GraasAndreas WickströmJonas GustafssonJan LundgrenWalter Frederick John Crewson
    • Klas ElmqvistCarl HartmanMagnus GraasAndreas WickströmJonas GustafssonJan LundgrenWalter Frederick John Crewson
    • H02J7/00
    • H02J7/0093H02J7/345H03K3/53
    • The invention relates to a capacitor charger system (100) comprising a capacitor charger module (110), an isolated acquisition module (120), and a digital control module (130). The isolated acquisition module (120) is configured for sampling an output voltage level of said capacitor charger module (110). The digital control module (130) is connected to the isolated acquisition module (120) via a bi-directional link and connected to the capacitor charger module (110) via a control signal interface. The digital control module (130) is configured for generating control signal information and synchronization signal information based on data representative of sampled output voltage levels received via the bi-directional link from the isolated acquisition module. The digital control module (130) is further configured for sending the control signal information to the capacitor charger module (110) via the control signal interface and for sending the synchronization signal information to the isolated acquisition module (120) via the bidirectional link. The capacitor charger module (110) is controlled based on the control signal information from the digital control module, and the isolated acquisition module (120) is configured for performing sampling based on the synchronization signal information.
    • 本发明涉及一种包括电容器充电器模块(110),隔离采集模块(120)和数字控制模块(130)的电容器充电器系统(100)。 隔离采集模块(120)被配置为对所述电容器充电器模块(110)的输出电压电平进行采样。 数字控制模块(130)经由双向链路连接到隔离采集模块(120),并通过控制信号接口连接到电容充电器模块(110)。 数字控制模块(130)被配置为基于表示经由来自隔离采集模块的双向链路接收的采样输出电压电平的数据来产生控制信号信息和同步信号信息。 数字控制模块(130)还被配置为经由控制信号接口将控制信号信息发送到电容器充电器模块(110),并且经由双向链路将同步信号信息发送到隔离采集模块(120)。 基于来自数字控制模块的控制信号信息来控制电容器充电器模块(110),并且隔离采集模块(120)被配置为基于同步信号信息进行采样。
    • 2. 发明申请
    • CAPACITOR CHARGER SYSTEM AND DIGITAL CONTROL MODULE AND ISOLATED ACQUISITION MODULE FOR SUCH A CAPACITOR CHARGER SYSTEM
    • 电容充电器系统和数字控制模块和这种电容充电器系统的隔离采集模块
    • US20120086410A1
    • 2012-04-12
    • US13378795
    • 2009-06-30
    • Klas ElmqvistCarl HartmanMagnus GraasAndreas WickströmJonas GustafssonJan LundgrenWalter Frederick John Crewson
    • Klas ElmqvistCarl HartmanMagnus GraasAndreas WickströmJonas GustafssonJan LundgrenWalter Frederick John Crewson
    • H02J7/00
    • H02J7/0093H02J7/345H03K3/53
    • The invention relates to a capacitor charger system (100) comprising a capacitor charger module (110), an isolated acquisition module (120), and a digital control module (130). The isolated acquisition module (120) is configured for sampling an output voltage level of said capacitor charger module (110). The digital control module (130) is connected to the isolated acquisition module (120) via a bi-directional link and connected to the capacitor charger module (110) via a control signal interface. The digital control module (130) is configured for generating control signal information and synchronization signal information based on data representative of sampled output voltage levels received via the bi-directional link from the isolated acquisition module. The digital control module (130) is further configured for sending the control signal information to the capacitor charger module (110) via the control signal interface and for sending the synchronization signal information to the isolated acquisition module (120) via the bidirectional link. The capacitor charger module (110) is controlled based on the control signal information from the digital control module, and the isolated acquisition module (120) is configured for performing sampling based on the synchronization.
    • 本发明涉及一种包括电容器充电器模块(110),隔离采集模块(120)和数字控制模块(130)的电容器充电器系统(100)。 隔离采集模块(120)被配置为对所述电容器充电器模块(110)的输出电压电平进行采样。 数字控制模块(130)经由双向链路连接到隔离采集模块(120),并通过控制信号接口连接到电容充电器模块(110)。 数字控制模块(130)被配置为基于表示经由来自隔离采集模块的双向链路接收的采样输出电压电平的数据来产生控制信号信息和同步信号信息。 数字控制模块(130)还被配置为经由控制信号接口将控制信号信息发送到电容器充电器模块(110),并且经由双向链路将同步信号信息发送到隔离采集模块(120)。 基于来自数字控制模块的控制信号信息来控制电容器充电器模块(110),并且隔离采集模块(120)被配置为基于同步进行采样。