Abstract: A DC voltage switching device for coupling a DC voltage load via a positive and a negative conductor to a DC voltage source, wherein the positive and negative conductors are routed through the DC voltage switching device. The DC voltage switching device comprises a first switching element for coupling and decoupling the DC voltage load, which is a semiconductor-based, electronically controllable switching element integrated in the positive or negative conductor; a fuse integrated in the respective other conductor; a sensor, at least for detecting the current flow of the conductor in which the first switching element is integrated: and an evaluation device connected to the sensor and the first switching element, which is set up to compare the detected current flow with respect to a threshold value and to trigger the first switching element in order to disconnect the DC voltage load when the threshold value is passed.

Abstract: A DC voltage switching device for coupling a DC voltage load via a positive and a negative conductor to a DC voltage source, wherein the positive and negative conductors are routed through the DC voltage switching device. The DC voltage switching device comprises a first switching element for coupling and decoupling the DC voltage load, which is a semiconductor-based, electronically controllable switching element integrated in the positive or negative conductor; a fuse integrated in the respective other conductor; a sensor, at least for detecting the current flow of the conductor in which the first switching element is integrated; and an evaluation device connected to the sensor and the first switching element, which is set up to compare the detected current flow with respect to a threshold value and to trigger the first switching element in order to disconnect the DC voltage load when the threshold value is passed.

Abstract: A method and device for short circuit monitoring of a three-phase load connected to a three-phase grid, to improve short circuit monitoring of a three-phase load, the device having at least one current sensor arranged in the current path of one phase of the three-phase grid, and a processing unit for evaluating the measurement values of the at least one current sensor, having a respective port for each current sensor, to which the respective current sensor is connected via a connecting line. The processing unit is configured to detect a short circuit on the three-phase load through evaluation of the measurement values determined by the current sensor. The evaluation includes a plausibility check of the determined measurement values in order to distinguish between a short circuit and an influence on the determined measurement values by electrical and/or electromagnetic interference.

Abstract: A method and device for short circuit monitoring of a three-phase load connected to a three-phase grid, to improve short circuit monitoring of a three-phase load, the device having at least one current sensor arranged in the current path of one phase of the three-phase grid, and a processing unit for evaluating the measurement values of the at least one current sensor, having a respective port for each current sensor, to which the respective current sensor is connected via a connecting line. The processing unit is configured to detect a short circuit on the three-phase load through evaluation of the measurement values determined by the current sensor. The evaluation includes a plausibility check of the determined measurement values in order to distinguish between a short circuit and an influence on the determined measurement values by electrical and/or electromagnetic interference.

Abstract: The invention relates to an automatic circuit breaker (2) for protecting a phase (4, 5, 6), having an input terminal (7), an output terminal (8), a current path (12), which electrically conductively connects the input terminal (7) and the output terminal (8), a disconnection apparatus (13), which is arranged in the current path (12) and is configured to interrupt the current path when actuated, a discharge terminal (9), a discharge path (15), which is connected at one end thereof to the current path (12) between the disconnection apparatus (13) and the output terminal (8) and is connected at the other end thereof to the discharge terminal (9), a connection apparatus (16), which is arranged in the discharge path (15) and is configured to connect through the discharge path when actuated, and a monitoring device (14), which is configured to monitor the current in the current path (12) and, when an overcurrent is identified, to actuate the disconnection apparatus (13) and the connection apparatus (16), wherein th