A method and apparatus for reducing an intensity of an electrical discharge that occurs within a fluid transport system in an aerospace vehicle. In one illustrative embodiment, an apparatus includes a transport member. The transport member is configured for use in the fluid transport system. The transport member includes a material configured to reduce voltages and currents, induced in response to an electromagnetic event, along the transport member.

A fourth layer outer frame protection pattern of a multilayer circuit board housed in a conductive base and a nonconductive cover is in contact with an inner surface of the base via a selection layer, and is connected to a second layer planar ground pattern via a coupling capacitor, outer peripheral portions of respective layer patterns including a first and third layer annular ground patterns are overlapped with each other, and the planar ground pattern is wire connected to a reference ground point of a vehicle body. When the base is conductively attached to the vehicle body, a selection layer is a solder resist film, and when it is non-conductively attached, the selection layer is a solder film, so that the planar ground pattern does not conduct with the base at the time of short circuit abnormality of the coupling capacitor.

A fourth layer outer frame protection pattern of a multilayer circuit board housed in a conductive base and a nonconductive cover is in contact with an inner surface of the base via a selection layer, and is connected to a second layer planar ground pattern via a coupling capacitor, outer peripheral portions of respective layer patterns including a first and third layer annular ground patterns are overlapped with each other, and the planar ground pattern is wire connected to a reference ground point of a vehicle body. When the base is conductively attached to the vehicle body, a selection layer is a solder resist film, and when it is non-conductively attached, the selection layer is a solder film, so that the planar ground pattern does not conduct with the base at the time of short circuit abnormality of the coupling capacitor.

An electrostatic discharge assembly for a vehicle includes a conductive plastic tether and a pipe connector. The conductive plastic tether has a first end and a second end. The first end is configured to be connected to a vehicle frame. The pipe connector is configured to connect the second end of the conductive plastic tether to a first fuel pipe of the vehicle.

An electrostatic discharge assembly for a vehicle includes a conductive plastic tether and a pipe connector. The conductive plastic tether has a first end and a second end. The first end is configured to be connected to a vehicle frame. The pipe connector is configured to connect the second end of the conductive plastic tether to a first fuel pipe of the vehicle.

A vehicular static eliminating device includes: a negative ion generating device; and a guide device configured to guide negative ions and release the negative ions from an emission port to a static elimination target spot which is positively charged, the guide device including: a guide member defining a passage through which to guide the negative ions, the guide member being made of a resin which is easily negatively charged in a triboelectric series; and a tip-shaped part configured to discharge, by corona discharge, negative electric charges, which have accumulated on the guide member, to the static elimination target spot, the tip-shaped part being provided in a part defining the emission port and in proximity to the static elimination target spot.

A vehicular static eliminating device includes: a negative ion generating device; and a guide device configured to guide negative ions and release the negative ions from an emission port to a static elimination target spot which is positively charged, the guide device including: a guide member defining a passage through which to guide the negative ions, the guide member being made of a resin which is easily negatively charged in a triboelectric series; and a tip-shaped part configured to discharge, by corona discharge, negative electric charges, which have accumulated on the guide member, to the static elimination target spot, the tip-shaped part being provided in a part defining the emission port and in proximity to the static elimination target spot.

A system for mitigating electrostatic discharge (ESD) that may occur during egress from vehicles is provided. One embodiment comprises a narrow conductive electrode that is galvanically connected to the vehicle chassis, and that is applied to that one edge of a seat which is next to the door nearest that seat. For example, in the U.S., this edge will normally be the left edge of the driver's seat, or the right edge of the front passenger's seat. The electrode is substantially located on a normally unoccupied surface of the seat cushion. Other embodiments further include pointed shapes on the electrode to increase the electric field intensity, which may promote more complete discharging.

A system for mitigating electrostatic discharge (ESD) that may occur during egress from vehicles is provided. One embodiment comprises a narrow conductive electrode that is galvanically connected to the vehicle chassis, and that is applied to that one edge of a seat which is next to the door nearest that seat. For example, in the U.S., this edge will normally be the left edge of the driver's seat, or the right edge of the front passenger's seat. The electrode is substantially located on a normally unoccupied surface of the seat cushion. Other embodiments further include pointed shapes on the electrode to increase the electric field intensity, which may promote more complete discharging.

During traveling of a vehicle body, a vehicle is provided with a vehicular static eliminator including a self-discharge static eliminating device that is attached to an outer surface of a lid of a fuse box mounted to a front compartment with a front grill, and a coversheet overlapped with an external surface of the self-discharge static eliminating device, in which the fuse box is disposed close to a hood and the coversheet includes Japanese paper.