The present disclosure provides a capacitor assembly having a non-symmetrical electrode structure and a capacitor seat structure thereof. The capacitor assembly includes a capacitor seat structure and a capacitor package structure. The capacitor seat structure includes a capacitor seat, a first electrode layer and a second electrode layer. The capacitor seat has a first through hole, a first groove, a second through hole and a second groove. The capacitor package structure includes a first conductive pin and a second conductive pin. The first conductive pin passes through the first through hole and is disposed inside the first groove to electrically contact the first electrode layer. The second conductive pin passes through the second through hole and is disposed inside the second groove to electrically contact the second electrode layer.

What is described is a mounting aid for mounting electrical components, in particular electrolytic capacitors or chokes, on a printed circuit board, said mounting aid comprising a body, which has compartments for receiving the electrical components, wherein the compartments have a base with openings for the insertion of connection wires of the electrical components, and metal parts fastened to the body, which metal parts each form at least one contact pin on the underside of the body and each from a busbar for connection to electrical components in a plurality of compartments of the body.

An electric storage element includes an electrode body including a positive electrode and a negative electrode, the electrode body including a coated region, which includes active materials applied to surfaces of the positive electrode and the negative electrode, and a non-coated region not including the active material on the surface of the positive electrode or the negative electrode, a case including a case body for housing the electrode body and a lid plate that covers an opening of the case body, the case body including a bottom wall having a long side and a short side, the case body further including a side wall standing on the short side of the bottom wall, the lid plate being formed with an electrode terminal, and an insulating member arranged in the case to insulate the electrode body from the case.

An electric storage element includes an electrode body including a positive electrode and a negative electrode, the electrode body including a coated region, which includes active materials applied to surfaces of the positive electrode and the negative electrode, and a non-coated region not including the active material on the surface of the positive electrode or the negative electrode, a case including a case body for housing the electrode body and a lid plate that covers an opening of the case body, the case body including a bottom wall having a long side and a short side, the case body further including a side wall standing on the short side of the bottom wall, the lid plate being formed with an electrode terminal, and an insulating member arranged in the case to insulate the electrode body from the case.

A capacitor includes a package, a first electrode, a second electrode, a first coupling terminal, a second coupling terminal, and a third coupling terminal. The first electrode and the second electrode face each other and spaced apart from each other to avoid mutual contact. The first electrode and the second electrode are each wound in an eddy shape around a rotational axis inside the package. The first coupling terminal is coupled to the first electrode, and has a part that is led out of the package. The second coupling terminal is coupled to the second electrode, and has a part that is led out of the package. The third coupling terminal is coupled to the second electrode, and has a part that is led out of the package.

The present disclosure provides a capacitor package structure and an anti-oxidation electrode foil thereof. The anti-oxidation electrode foil includes a base material structure, a first low activity metal structure, and a first carbonaceous material structure. The base material structure has a top surface and a bottom surface. The first low activity metal structure is disposed on the top surface of the base material structure. The first carbonaceous material structure is disposed on the first low activity metal structure. When oxygen passes through the first carbonaceous material structure, the oxygen is obstructed by the first low activity metal structure for preventing the oxygen from contacting the base material structure.

An explosion-proof apparatus includes a stopper having a hollow cylindrical shape that is open at a first side and closed at a second side, and configured to be combined with an electrolytic condenser to surround an explosion-proof face of the electrolytic condenser and a lateral side connected to the explosion-proof face, through the first side, and a holder provided on the stopper to support the stopper. The first side of the stopper is separated from the explosion-proof face of the electrolytic condenser, a lateral side of the stopper has a stepped structure in which a periphery of a first region connecting to the first side is larger than a periphery of a second region connecting to the second side, and the holder is mounted on the stopper to surround at least part of the periphery of the second region of the stopper.

Disclosed herein is an electrode feedthru assembly for an electronic device and method of manufacturing. The feedthru assembly includes a ferrule, an electrode assembly, and an elastomer. The ferrule includes a bore through which the electrode assembly is positioned. The electrode assembly includes an electrode wire attached to a crimp pin. The crimp pin includes a crimp terminal portion and a pin terminal portion, the crimp terminal portion crimped to the a portion of the electrode wire to form a connected portion of the electrode assembly. The elastomer is disposed in the bore of the ferrule between the ferrule and the electrode assembly. The elastomer is configured to electrically isolate the ferrule from the electrode assembly and to encapsulate at least the connected portion of the electrode assembly.

One aspect provides a capacitor feedthrough assembly having an electrically conductive member dimensioned to extend at least partially through a feedthrough hole of a case of the capacitor, the conductive member having a passage therethrough.

One aspect provides a capacitor feedthrough assembly having an electrically conductive member dimensioned to extend at least partially through a feedthrough hole of a case of the capacitor, the conductive member having a passage therethrough.