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    • 4. 发明申请
    • Method and Apparatus for Supervisory Circuit for Ground Fault Circuit Interrupt Device
    • 接地故障电路中断装置监控电路的方法与装置
    • US20110222194A1
    • 2011-09-15
    • US13041704
    • 2011-03-07
    • Hugh T. KinselJoselito Endozo
    • Hugh T. KinselJoselito Endozo
    • G01R31/14H02H3/00
    • H02H3/335
    • An apparatus and method for a supervisory circuit for a ground fault detection device or a ground fault circuit interrupt (GFCI) device is disclosed in which a low voltage DC power supply is used to generate a test stimulus signal for a self test of the GFCI device. The GFCI device includes line and neutral conductors configured to connect an AC power source and a load. A differential current transformer includes a toroid, through which the line and neutral conductors pass, and a secondary winding wound on the toroid. A differential ground fault detector is electrically connected to the secondary winding of the differential current transformer to compare current generated in the secondary winding from an imbalance of magnetic flux in the toroid to a trip threshold. A wire conductor is routed through the toroid of the differential current transformer. A controller is configured to control a low voltage DC test stimulus signal to be generated in the wire conductor.
    • 公开了用于接地故障检测装置或接地故障电路中断(GFCI)装置的监控电路的装置和方法,其中使用低压DC电源来产生用于GFCI装置的自检的测试激励信号 。 GFCI设备包括配置为连接交流电源和负载的线路和中性导线。 差动电流互感器包括线圈和中性线路通过的环形线圈和缠绕在环形线圈上的次级绕组。 差分接地故障检测器电气连接到差动电流互感器的次级绕组,以将次级绕组中产生的电流与环形线圈中的磁通不平衡相比达到跳闸阈值。 电线导体穿过差动电流互感器的环形线路。 控制器被配置为控制在导线中产生的低电压DC测试激励信号。
    • 5. 发明申请
    • Method and Apparatus for Supervisory Circuit for Ground Fault Circuit Interrupt Device
    • 接地故障电路中断装置监控电路的方法与装置
    • US20110221600A1
    • 2011-09-15
    • US13045611
    • 2011-03-11
    • Hugh T. KinselJoselito Endozo
    • Hugh T. KinselJoselito Endozo
    • G01R31/02G08B21/00
    • H02H3/335
    • An apparatus and method for a supervisory circuit for a ground fault detection device or ground fault circuit interrupt (GFCI) device is disclosed in which is a test stimulus signal for a self test of the GFCI device is generated on a second secondary winding on a toroid of a differential current transformer. The GFCI device includes line and neutral conductors configured to connect an AC power source and a load. A differential current transformer includes a toroid, through which the line and neutral conductors pass, a first secondary winding wound on the toroid to generate a current in response to an imbalance of magnetic flux in the toroid, and a second secondary winding wound on the toroid. A differential ground fault detector is electrically connected to the first secondary winding of the differential current transformer to compare current generated in the secondary winding to a trip threshold. A controller is configured to control a test stimulus signal to be generated in the second secondary winding wound on the toroid of the differential current transformer.
    • 公开了一种用于接地故障检测装置或接地故障电路中断(GFCI)装置的监控电路的装置和方法,其中,在环形线圈上的第二次级绕组上产生用于GFCI装置的自检的测试激励信号 的差分电流互感器。 GFCI设备包括配置为连接交流电源和负载的线路和中性导线。 差动电流互感器包括线圈和中性线路通过的环形线圈,缠绕在环形线圈上的第一次级绕组响应于环形线圈中的磁通量的不平衡而产生电流,以及缠绕在环形线圈上的第二次级绕组 。 差分接地故障检测器电连接到差动电流互感器的第一次级绕组,以将次级绕组中产生的电流与跳闸阈值进行比较。 控制器被配置为控制在受到差动电流互感器的环形线圈缠绕的第二次级绕组中产生的测试激励信号。
    • 7. 发明授权
    • Systems and methods for arc fault detection
    • 电弧故障检测的系统和方法
    • US07864492B2
    • 2011-01-04
    • US11978969
    • 2007-10-30
    • Carlos RestrepoPeter StaleyAmit NayakVaske MikaniHugh KinselSolomon R. TitusJoselito Endozo
    • Carlos RestrepoPeter StaleyAmit NayakVaske MikaniHugh KinselSolomon R. TitusJoselito Endozo
    • H02H3/00
    • H02H1/0015H02H1/0092H02H3/33
    • In accordance with one aspect the present disclosure is directed toward a method for detecting arc faults on a power line. The method may include monitoring power signals associated with a power line and filtering the power signals to produce a high frequency signal and a low frequency signal. A mask signal may generated based on the low frequency signal, and the high frequency signal may be analyzed to extract a broadband portion of the high frequency signal. A fault counter may be incremented if the magnitude of the broadband portion is approximately greater than a first threshold level. A fault counter may be decremented if the magnitude of the broadband portion is approximately less than the first threshold level. A trip signal is provided to a switching device associated with the power line if the fault counter exceeds a predetermined fault limit.
    • 根据一个方面,本公开涉及一种用于检测电力线上的电弧故障的方法。 该方法可以包括监视与电力线相关联的功率信号并对功率信号进行滤波以产生高频信号和低频信号。 可以基于低频信号生成屏蔽信号,并且可以分析高频信号以提取高频信号的宽带部分。 如果宽带部分的大小近似大于第一阈值电平,则故障计数器可以增加。 如果宽带部分的大小近似小于第一阈值电平,故障计数器可能会减少。 如果故障计数器超过预定的故障限制,则将跳闸信号提供给与电力线相关联的开关装置。
    • 8. 发明授权
    • Method and apparatus for supervisory circuit for ground fault circuit interrupt device
    • 接地故障电路中断装置监控电路的方法和装置
    • US08810979B2
    • 2014-08-19
    • US13041704
    • 2011-03-07
    • Hugh T. KinselJoselito Endozo
    • Hugh T. KinselJoselito Endozo
    • H02H3/00
    • H02H3/335
    • An apparatus and method for a supervisory circuit for a ground fault detection device or a ground fault circuit interrupt (GFCI) device is disclosed in which a low voltage DC power supply is used to generate a test stimulus signal for a self test of the GFCI device. The GFCI device includes line and neutral conductors configured to connect an AC power source and a load. A differential current transformer includes a toroid, through which the line and neutral conductors pass, and a secondary winding wound on the toroid. A differential ground fault detector is electrically connected to the secondary winding of the differential current transformer to compare current generated in the secondary winding from an imbalance of magnetic flux in the toroid to a trip threshold. A wire conductor is routed through the toroid of the differential current transformer. A controller is configured to control a low voltage DC test stimulus signal to be generated in the wire conductor.
    • 公开了用于接地故障检测装置或接地故障电路中断(GFCI)装置的监控电路的装置和方法,其中使用低压DC电源来产生用于GFCI装置的自检的测试激励信号 。 GFCI设备包括配置为连接交流电源和负载的线路和中性导线。 差动电流互感器包括线圈和中性线路通过的环形线圈和缠绕在环形线圈上的次级绕组。 差分接地故障检测器电气连接到差动电流互感器的次级绕组,以将次级绕组中产生的电流与环形线圈中的磁通不平衡相比达到跳闸阈值。 电线导体穿过差动电流互感器的环形线路。 控制器被配置为控制在导线中产生的低电压DC测试激励信号。
    • 9. 发明授权
    • Method and apparatus for supervisory circuit for ground fault circuit interrupt device
    • 接地故障电路中断装置监控电路的方法和装置
    • US08570181B2
    • 2013-10-29
    • US13045611
    • 2011-03-11
    • Hugh T. KinselJoselito Endozo
    • Hugh T. KinselJoselito Endozo
    • G08B21/00G01R31/14H02H3/00
    • H02H3/335
    • An apparatus and method for a supervisory circuit for a ground fault detection device or ground fault circuit interrupt (GFCI) device is disclosed in which is a test stimulus signal for a self test of the GFCI device is generated on a second secondary winding on a toroid of a differential current transformer. The GFCI device includes line and neutral conductors configured to connect an AC power source and a load. A differential current transformer includes a toroid, through which the line and neutral conductors pass, a first secondary winding wound on the toroid to generate a current in response to an imbalance of magnetic flux in the toroid, and a second secondary winding wound on the toroid. A differential ground fault detector is electrically connected to the first secondary winding of the differential current transformer to compare current generated in the secondary winding to a trip threshold. A controller is configured to control a test stimulus signal to be generated in the second secondary winding wound on the toroid of the differential current transformer.
    • 公开了一种用于接地故障检测装置或接地故障电路中断(GFCI)装置的监控电路的装置和方法,其中,在环形线圈上的第二次级绕组上产生用于GFCI装置的自检的测试激励信号 的差分电流互感器。 GFCI设备包括配置为连接交流电源和负载的线路和中性导线。 差动电流互感器包括线圈和中性线路通过的环形线圈,缠绕在环形线圈上的第一次级绕组响应于环形线圈中的磁通量的不平衡而产生电流,以及缠绕在环形线圈上的第二次级绕组 。 差分接地故障检测器电连接到差动电流互感器的第一次级绕组,以将次级绕组中产生的电流与跳闸阈值进行比较。 控制器被配置为控制在受到差动电流互感器的环形线圈缠绕的第二次级绕组中产生的测试激励信号。