An operation method for busbars docking platform has putting a first busbar and a loading unit in a receiving groove, arranging the first busbar to touch the loading unit, removing the loading unit; loading a connecting rod to the loading unit; putting the loading unit in the receiving groove; triggering the first release member to impact the loading unit; triggering the second release member to retract the action unit; removing the loading unit; putting a second busbar in the receiving groove; putting the first busbar between the action unit and the second busbar; removing the first busbar; putting the first busbar in the receiving groove; triggering the first release member to impact the first busbar; triggering the second release member to retract the action unit; and taking the first busbar and the second busbar out from the receiving groove.

An operation method for busbars docking platform has putting a first busbar and a loading unit in a receiving groove, arranging the first busbar to touch the loading unit, removing the loading unit; loading a connecting rod to the loading unit; putting the loading unit in the receiving groove; triggering the first release member to impact the loading unit; triggering the second release member to retract the action unit; removing the loading unit; putting a second busbar in the receiving groove; putting the first busbar between the action unit and the second busbar; removing the first busbar; putting the first busbar in the receiving groove; triggering the first release member to impact the first busbar; triggering the second release member to retract the action unit; and taking the first busbar and the second busbar out from the receiving groove.

A hermetically sealed filtered feedthrough assembly attachable to an AIMD includes an insulator hermetically sealing a ferrule opening of an electrically conductive ferrule with a gold braze. A co-fired and electrically conductive sintered paste is disposed within and hermetically seals at least one via hole extending in the insulator. At least one capacitor is disposed on the device side. An active electrical connection electrically connects a capacitor active metallization and the sintered paste. A ground electrical connection electrically connects the gold braze to a capacitor ground metallization, wherein at least a portion of the ground electrical connection physically contacts the gold braze. The dielectric of the capacitor may be less than 1000 k. The ferrule may include an integrally formed peninsula portion extending into the ferrule opening spatially aligned with a ground passageway and metallization of an internally grounded feedthrough capacitor. The sintered paste may be of substantially pure platinum.

A hermetically sealed filtered feedthrough assembly attachable to an AIMD includes an insulator hermetically sealing a ferrule opening of an electrically conductive ferrule with a gold braze. A co-fired and electrically conductive sintered paste is disposed within and hermetically seals at least one via hole extending in the insulator. At least one capacitor is disposed on the device side. An active electrical connection electrically connects a capacitor active metallization and the sintered paste. A ground electrical connection electrically connects the gold braze to a capacitor ground metallization, wherein at least a portion of the ground electrical connection physically contacts the gold braze. The dielectric of the capacitor may be less than 1000 k. The ferrule may include an integrally formed peninsula portion extending into the ferrule opening spatially aligned with a ground passageway and metallization of an internally grounded feedthrough capacitor. The sintered paste may be of substantially pure platinum.

A method for producing an anisotropic conductive sheet that can be used for an inspection of a semiconductor package or a high-frequency component part, in which the pitch of wiring is narrowed and the wiring itself has been subjected to wire thinning, and that can be easily produced. A method for producing an anisotropic conductive sheet, includes a molding step of molding a conductive filler material-containing composition including (A) a conductive filler material dispersed in an organic solvent and (B) a binder resin, into a sheet-like body, and an organic solvent volatilization step of heating one surface of the sheet-like body and thereby volatilizing the organic solvent through the other surface of the sheet-like body.

An electrical assembly includes a metallic component having a bottom portion that is buried in the earth, a top portion that is above the earth, and an outer surface. A water-impermeable electrically-conductive covering is applied to the outer surface at the bottom portion and is in electrical contact with the earth. The covering includes a water-impermeable polymeric matrix that protects the metallic component from corrosion, and a particulate carbonaceous material that is dispersed in the polymeric matrix and that allows for the metallic component to be electrically grounded.

An electrical assembly includes a metallic component having a bottom portion that is buried in the earth, a top portion that is above the earth, and an outer surface. A water-impermeable electrically-conductive covering is applied to the outer surface at the bottom portion and is in electrical contact with the earth. The covering includes a water-impermeable polymeric matrix that protects the metallic component from corrosion, and a particulate carbonaceous material that is dispersed in the polymeric matrix and that allows for the metallic component to be electrically grounded.

A terminal-attached electric wire includes: an insulated electric wire which includes a core wire and an insulating material covering the periphery of the core wire; a terminal fitting electrically connected to the core wire at the end of the insulated electric wire; and an adhesive tube covering the end of the insulating material. The terminal-attached electric wire includes a molding portion formed to cover a region extending from a core wire-connected portion of the terminal fitting which is connected to the core wire to a middle portion in an axial direction of the adhesive tube. The outer peripheral surface of the adhesive tube is adhered to the inner peripheral surface of the molding portion. The inner peripheral surface of the adhesive tube is adhered to the outer peripheral surface of the insulating material.

In an example, a port cleaner may include a flexible body, a guide wire, and a push plate. The guide wire may extend along a length of the flexible body. Further, the push plate may be disposed at a first end of the flexible body and movable along the guide wire to compress the flexible body.

A locking mechanism particularly adapted to lock a cover of an electrical connector which connects an electrical transmission conductor to a distribution conductor. The locking mechanism includes a tip portion, a spiral portion, a holding portion, and an engagement portion, where the tip portion has a smaller cross-sectional area than the spiral portion and where the engagement portion is a widest portion of the locking mechanism. The present invention is also directed to a method of using the locking mechanism to lock the cover, as well as to a cover system which includes the locking mechanism and the cover engaged such that the cover is locked.