A method of current differential protection performed in a control device is disclosed, wherein the control device has a first operate-restrain characteristic with a differential characteristic pick-up setting I.sub.D. The method includes: determining currents of all terminals of a protected object; determining a differential current based on the determined currents; determining direct current, DC, components in the respective determined currents; detecting a fault; and adjusting, for a detected external fault, the operate-restrain characteristics by setting an adjusted differential characteristic pick-up setting I.sub.D.sub._.sub.adj to be equal to the sum of the differential characteristic pick-up setting I.sub.D and the determined DC components, providing an adapted operate-restrain characteristics. Corresponding control device, computer program and computer program product are also disclosed.

Examples of the disclosure include a system for modifying a trip level of a circuit, the system comprising a protection device configured to activate responsive to a differential current exceeding the trip level, a first current transformer coupled to an input of the circuit, a second current transformer coupled to the output of the circuit, at least one measurement circuit coupled to the first current transformer and to the second current transformer, the at least one measurement circuit being configured to obtain a first current measurement from the first current transformer, obtain a second current measurement from the second current transformer, determine a bias current based on the first current measurement and the second current measurement, and modify the trip level of the protection device based on the bias current.

A differential protection method for a protection section of a power system is disclosed. The differential protection method includes: obtaining a first secondary current value of a first current transformer and a second secondary current value of a second current transformer; determining a differential current value and a braking current value; opening a judgment window in response to an occurrence of a fault in the power system, in response to the differential current value and the braking current value satisfying an in-section fault condition during the judgment window, judging the fault as an in-section fault, otherwise judging the fault as a fault to be determined. Furthermore, an apparatus for differential protection of a protection section of a power system and a relay protection device are disclosed.

According to one embodiment, a magnetizing inrush current suppressing device is configured to measure a three-phase alternating current flowing from the power supply bus to the load, detect a first interruption phase as a phase of an electric current which is interrupted first among the three phases, detect a phase of a phase voltage zero point through which a phase voltage of the first interruption phase of the three-phase AC voltage passes when changing from the same polarity as that of an electric current immediately before interruption of the first interruption phase to an opposite polarity, and close the circuit-breaker at a phase within 60 from the detected phase.

A differential protection method generates a fault signal which indicates that a fault has occurred at an electrical component of an energy supply network. Differential current values and stabilization values are formed from current measurement values at different measurement points of the component and the fault signal is generated if a measured value pair, formed from one of the differential current values and the respectively associated stabilization value, lies in a predetermined tripping range. The stabilization current values in a predetermined observation period are compared with the respective associated differential current values and, based on the comparison, a fault indicator is formed, which indicates whether the proportion of the differential current values or the proportion of the stabilization current values is greater. The generation of the fault signal is blocked if the fault indicator indicates a greater proportion of the stabilization current values.

Signal transducers in electrical communication with shorted leads of current transformers are used to provide monitoring and protection functions to an electric power delivery system. Differential protection is performed by comparing a predetermined threshold against a voltage signal from series-connected leads of signal transducers in electrical communication with shorted leads of current transformers. The signal transducers may be Rogowski coils. Signal transducers in communication with shorted leads may be used to improve safety and increase performance of the current transformers by decreasing susceptibility to saturation.