A hybrid vehicle includes a power bus electrically connected to an inverter and an electrical socket electrically connected to the power bus. A ground fault circuit interrupter (GFCI) is electrically connected between the power bus and the socket. The GFCI has a circuit breaker with a mechanical reset. An actuator arrangement is configured to actuate the mechanical reset to reset the circuit breaker.

An extension handle assembly includes: a housing; a handle driving the knob to rotate from a first position to a second position during a manual tripping period of a motor protection circuit breaker and drives the handle to rotate from the first position to a third position during a fault tripping; a stopper configured to abut against the handle upon the handle rotating from the first position to the second position during the manual tripping period, to provide a stopping force for a rotation of the handle to increase a force required for the rotation of the handle from the first position to the second position; and configured not to abut against the handle upon the handle rotating from the first position to the third position during the fault tripping period, not to provide a stopping force for the rotation of the handle.

An extension handle assembly includes: a housing; a handle driving the knob to rotate from a first position to a second position during a manual tripping period of a motor protection circuit breaker and drives the handle to rotate from the first position to a third position during a fault tripping; a stopper configured to abut against the handle upon the handle rotating from the first position to the second position during the manual tripping period, to provide a stopping force for a rotation of the handle to increase a force required for the rotation of the handle from the first position to the second position; and configured not to abut against the handle upon the handle rotating from the first position to the third position during the fault tripping period, not to provide a stopping force for the rotation of the handle.

The invention relates to an electrical switch device comprising contacts which are mobile through actuation of a first rotation shaft (10) and a control mechanism (1) for the mobile contacts which is situated in a housing and which can be rearmed via a second rotation shaft (20). The first rotation shaft (10) passes through a first wall (2, 3) of the housing and the device comprises a first rotation sensor (12) coupled with the first rotation shaft (10) outside of the housing, so as to measure the angular displacement of the first rotation shaft. The second rotation shaft (20) passes through a second wall (2, 3) of the housing and the device comprises a rearming module (25, 26) removably fixed outside of the housing against the second wall (2, 3), so as to be coupled with the second rotation shaft (20) to be able to rearm the control mechanism.

A method and an apparatus for controlling a circuit breaker in an electrical energy supply network. A switching signal is generated by a protective or control device of the energy supply network and the switching signal is transmitted to a control unit of the circuit breaker. The control unit is caused to open the switching contacts of the circuit breaker upon reception of the switching signal. In order to ensure a switching operation which is as fast as possible even in those energy supply networks in which phases of the current to be switched by a circuit breaker which are free of zero crossings can occur, a current flowing through the circuit breaker is recorded and is checked for the occurrence of zero crossings. The transmission of the signal for opening the switching contacts is prevented until at least one zero crossing has been detected.

A method and an apparatus for controlling a circuit breaker in an electrical energy supply network. A switching signal is generated by a protective or control device of the energy supply network and the switching signal is transmitted to a control unit of the circuit breaker. The control unit is caused to open the switching contacts of the circuit breaker upon reception of the switching signal. In order to ensure a switching operation which is as fast as possible even in those energy supply networks in which phases of the current to be switched by a circuit breaker which are free of zero crossings can occur, a current flowing through the circuit breaker is recorded and is checked for the occurrence of zero crossings. The transmission of the signal for opening the switching contacts is prevented until at least one zero crossing has been detected.

A device for measuring electrical variables in electrical panels may include a casing, a printed circuit board (PCB) wherein the PCB incorporates a microprocessor and an electrical current sensor; a female connector and a male connector, the female connector and the male connector being connected electrically; and a communications terminal with remote control equipment. In some non-limiting embodiments, the device may be configured to: connect a wire of the power circuit to the female connector of the casing; connect the male connector of the casing to the connection hole of protection equipment of an electrical panel; measure the amperage of the electrical current circulating through the wire, and; process and digitize the measurement of the amperage of the electrical current circulating through the wire, and transmit it, through the communications terminal, to the remote control equipment.

A miniature circuit breaker with an automatic opening/closing function, comprising a circuit breaker body and an automatic opening/closing driving mechanism; the body comprises circuit breakers, each comprising a plastic housing, an opening/closing handle and a manipulation mechanism; a spindle hole is at the rotation center of each handle; the driving mechanism comprises a case, a driving motor with a driving turbine, a linkage turbine, a linkage gear, an output spindle and a release linkage member; the driving motor drives the linkage turbine for reciprocating rotation via the driving turbine, and the linkage turbine drives the release linkage member for reciprocating rotation within a preset angle range via a cam linkage so that a lever of the release linkage member prods an opening release linkage rod to perform a rapid opening action; the linkage turbine drives the linkage gear and the output spindle to do synchronous rotation via driving teeth.

A hybrid vehicle includes a power bus electrically connected to an inverter and an electrical socket electrically connected to the power bus. A ground fault circuit interrupter (GFCI) is electrically connected between the power bus and the socket. The GFCI has a circuit breaker with a mechanical reset. An actuator arrangement is configured to actuate the mechanical reset to reset the circuit breaker.

A hybrid vehicle includes a power bus electrically connected to an inverter and an electrical socket electrically connected to the power bus. A ground fault circuit interrupter (GFCI) is electrically connected between the power bus and the socket. The GFCI has a circuit breaker with a mechanical reset. An actuator arrangement is configured to actuate the mechanical reset to reset the circuit breaker.