A chip-type fuse has a substrate. Two pads are disposed over a first side of the substrate. At least one fusible element is disposed over the first side of the substrate and electrically connects to the pads. A protective layer covers the first side of the substrate and the fusible element. The fusible element has a cross-section that is substantially circular, so the time durations for heat conduction from the center to points on the radial edge at the cross-section of the fusible element are almost equal. Thus, the fusible element can be uniformly heated. Therefore, when the circuit is overheated, the blow of the fusible element is uniform, which may effectively interrupt the circuit and protect the circuit.

A power distribution apparatus of a vehicle includes a power input terminal configured to receive power. A power output terminal is connected to a load and a main fuse is connected to the power input terminal and to the load through the power output terminal. A number of sub fuses are connected to the power input terminal and a switching circuit is provided between the plurality of sub fuses and the power output terminal. A controller is configured to supply power to the load through the main fuse in response to an operation signal of the load and control the switching circuit so that at least one of the plurality of sub fuses is selectively connected to the load.

A power distribution apparatus of a vehicle includes a power input terminal configured to receive power. A power output terminal is connected to a load and a main fuse is connected to the power input terminal and to the load through the power output terminal. A number of sub fuses are connected to the power input terminal and a switching circuit is provided between the plurality of sub fuses and the power output terminal. A controller is configured to supply power to the load through the main fuse in response to an operation signal of the load and control the switching circuit so that at least one of the plurality of sub fuses is selectively connected to the load.

A hinge-type actuator device in accordance with the present disclosure may include a first and second paddle, a first and second artificial muscle actuator segment, and a plurality of contacts, where the first and second artificial muscle actuator segments are actuated via the contacts, actuation of the first artificial muscle actuator segment causes the first and second paddle to open the hinge-type actuator, and actuation of the second artificial muscle actuator segment causes the first and second paddle to close the hinge-type actuator.

A hinge-type actuator device in accordance with the present disclosure may include a first and second paddle, a first and second artificial muscle actuator segment, and a plurality of contacts, where the first and second artificial muscle actuator segments are actuated via the contacts, actuation of the first artificial muscle actuator segment causes the first and second paddle to open the hinge-type actuator, and actuation of the second artificial muscle actuator segment causes the first and second paddle to close the hinge-type actuator.

A fluidic die includes a plurality of fluid chambers, each fluid chamber including an electrode exposed to an interior of the fluid chamber and having a corresponding fluid actuator operating a high voltage separated from the fluid chamber and electrode by an insulating material, and monitoring circuitry, operating at a low voltage, to monitor a condition of each fluid chamber. For each fluid chamber the monitoring circuitry includes a sense node and a conductor connecting the electrode to the sense node, the conductor having a geometry to form at least one region of higher current density relative to remaining portions of the conductor, the at least one region of higher current density to fail and create an open to protect the low-voltage monitoring circuitry in response to a fault current caused by a short circuit of the high voltage fluid actuator to the electrode.

An actuator device that includes a first fiber, a conducting material, and a coating. The coating coats the first fiber or the conducting material. The coating may also provide moisture protection, UV protection, thermal insulation and thermal conductivity.

An actuator device that includes a first fiber, a conducting material, and a coating. The coating coats the first fiber or the conducting material. The coating may also provide moisture protection, UV protection, thermal insulation and thermal conductivity.

An electrochemical energy storage module and a vehicle having an energy storage module of this type. At least one energy storage cell and at least one bridging device are electrically connected in parallel. The bridging device has a first current conductor having at least one bridging point, which has a bridging point cross-section, and a second current conductor, which is spaced apart from the first current conductor by a gap. The bridging device also has a bridging switch for establishing a first partial electrical connection between the first current conductor and the second current conductor and has a bridging material arranged in the region of the bridging point.

An electrochemical energy storage module and a vehicle having an energy storage module of this type. At least one energy storage cell and at least one bridging device are electrically connected in parallel. The bridging device has a first current conductor having at least one bridging point, which has a bridging point cross-section, and a second current conductor, which is spaced apart from the first current conductor by a gap. The bridging device also has a bridging switch for establishing a first partial electrical connection between the first current conductor and the second current conductor and has a bridging material arranged in the region of the bridging point.