A battery system for an electric vehicle includes a high voltage battery including a plurality of battery cells interconnected with one another configured to provide a high voltage output at battery system terminals and a battery disconnecting element powered by the high voltage battery and configured to disconnect the high voltage battery from at least one of the battery system terminals in the event of a malfunction or crash.

Electrical switching device are disclosed having a housing with internal component within the housing. The internal components comprise contacts configured to operate, to change the state of the switching device from a closed state, allowing current flow through the switching device to an open state which interrupts current flow through the switching device. A pyrotechnic feature is included that is configured to interact with the internal components to transition the switching device from the closed state to the open state when the pyrotechnic feature is activated. The pyrotechnic feature is configured to trigger in response to levitation between the contacts at elevated current signal flowing through the switching device.

Electrical switching device are disclosed having a housing with internal component within the housing. The internal components comprise contacts configured to operate, to change the state of the switching device from a closed state, allowing current flow through the switching device to an open state which interrupts current flow through the switching device. A pyrotechnic feature is included that is configured to interact with the internal components to transition the switching device from the closed state to the open state when the pyrotechnic feature is activated. The pyrotechnic feature is configured to trigger in response to levitation between the contacts at elevated current signal flowing through the switching device.

Systems for disconnecting a surge arrester. One embodiment provides a surge arrester comprising a housing, a connecting interface configured to connect to an electrical power grid, and a disconnector device coupled to the connecting interface. A metal oxide varistor stack is coupled to the disconnector device, and a ground side connection is coupled to the metal oxide varistor stack, the ground side connection configured to connect to a system ground. The disconnector device is configured to disconnect the connecting interface from the system ground based on a predetermined disconnection condition.

Disclosed herein are passive triggering mechanisms for activation of pyrotechnic features within electrical switching devices, such as contactor devices and fuse devices. The activation of the pyrotechnic features is configured to change the configuration of the internal components of the switching device and prevent current flow through the device. In some embodiments, the triggering mechanisms comprise features that respond to a magnetic field, such as a reed switch. In some embodiments, the reed switch responds to elevated current flow and can then use the signal with the elevated current flow to activate the pyrotechnic feature. In other embodiments, the reed switch uses a power signal from a secondary power source to activate the pyrotechnic feature.

Disclosed herein are passive triggering mechanisms for activation of pyrotechnic features within electrical switching devices, such as contactor devices and fuse devices. The activation of the pyrotechnic features is configured to change the configuration of the internal components of the switching device and prevent current flow through the device. In some embodiments, the triggering mechanisms comprise features that respond to a magnetic field, such as a reed switch. In some embodiments, the reed switch responds to elevated current flow and can then use the signal with the elevated current flow to activate the pyrotechnic feature. In other embodiments, the reed switch uses a power signal from a secondary power source to activate the pyrotechnic feature.

[Problem]

Provided is a method for manufacturing an assembly including an igniter, a projectile, and a cylinder that is easy to assemble.

[Solution]

A method for manufacturing an assembly included in an electric circuit breaker device, the assembly including an igniter, a projectile, and a cylinder, is a method for disposing a projectile and an igniter in a cylinder of an electric circuit breaker device, the method including: a first step of preparing a cylinder having a first opening, a plurality of through holes formed at intervals in a circumferential direction in a peripheral wall portion on a first opening side, and a second opening, and disposing a projectile in the cylinder; a second step of disposing an igniter main body portion in the cylinder and then disposing the cylinder in a mold; a third step of injection-molding a resin from the first opening side of the cylinder to form a resin portion; a fourth step of removing the cylinder including the projectile and the igniter from the mold; and a fifth step of crimping a peripheral wall portion on the first opening side of the cylinder to fix the resin portion of the igniter.

A battery protection apparatus including: a fuse element on a current path between a battery module and an external load to block the current path; and an ignition switch configured to receive an operating voltage from the battery module or a capacitor charged by the battery module, to ignite the fuse element.

A battery protection apparatus including: a fuse element on a current path between a battery module and an external load to block the current path; and an ignition switch configured to receive an operating voltage from the battery module or a capacitor charged by the battery module, to ignite the fuse element.

An electric circuit breaker that prevents damage due to increased internal pressure after an electric circuit is cut off and prevents an arc from leaking to the outside. Such a circuit breaker includes a housing, a cut portion that is arranged in the housing and forms a part of an electric circuit, a cutting member that cuts the cut portion, and a power source arranged on a first end portion side of the housing, the electric circuit breaker including a moving body including the cutting member, in which the housing includes a cylindrical portion capable of moving the moving body between the first end portion and a second end portion on a side opposite to the first end portion, in which the moving body is configured such that the cutting member provided in the moving body cuts a separation piece of the cut portion.