A method for fabricating a magnetic capacitor is provided. A first conducting material is deposited to form a first electrode layer. One or more first ferro-magnetic elements are deposited to form magnetic layer and are aligned and magnetized to produce a magnetic field. An insulating material is deposited to form an insulating layer. A second conducting material is deposited to form a second electrode layer. The one or more ferro-magnetic elements are aligned and magnetized to apply the magnetic field to the insulator layer so that the magnetic field is perpendicular to the first electrode layer and the second electrode layer, and so that the magnetic field is periodic along the length of the insulator layer and results in electric dipoles being formed in the insulator layer when a voltage is applied between the first electrode layer and the second electrode layer.

A method for fabricating a magnetic capacitor is provided. A first conducting material is deposited to form a first electrode layer. One or more first ferro-magnetic elements are deposited to form magnetic layer and are aligned and magnetized to produce a magnetic field. An insulating material is deposited to form an insulating layer. A second conducting material is deposited to form a second electrode layer. The one or more ferro-magnetic elements are aligned and magnetized to apply the magnetic field to the insulator layer so that the magnetic field is perpendicular to the first electrode layer and the second electrode layer, and so that the magnetic field is periodic along the length of the insulator layer and results in electric dipoles being formed in the insulator layer when a voltage is applied between the first electrode layer and the second electrode layer.

Disclosed is a technology that enables an elastic composite filter to have a capacitor to remove noise. The elastic composite includes a functional material layer; electrode patterns disposed on top and bottom surfaces of the material layer, respectively; and a conductive elastic member adhered onto the top electrode pattern, wherein the elastic member is coupled electrically and mechanically to the top electrode pattern to be used as an electrode, and the elastic member is in direct contact with a conductive object to provide elasticity.

A film capacitor that includes a wound body having a dielectric film and a metal layer. When a film face positioned at an average height in the thickness direction is defined in an area range of 100 m by 140 m of the first main surface of the dielectric film, an area ratio of a region having a height higher than the film face by 0.05 m or more and less than 0.20 m is 6.04% or less, an area ratio of a region having a height higher than the film face by 0.20 m or more and less than 2.50 m is 0.0998% to 1.13%, and an area ratio of a region having a height higher than the film face by 2.50 m or more is 0.100% or less.

A metallized film obtained by vapor-depositing a metal on a dielectric film such that an insulating margin is formed on one end of the dielectric film in a width direction, includes a divided electrode and a fuse. The divided electrode formed by dividing a vapor-deposited metal on a side of the insulating margin by slit-shaped non-vapor-deposited portions. The fuse connected to the divided electrode, in which a plurality of the divided electrodes is arranged in the width direction of the dielectric film, and the divided electrodes corresponding to a first column and a second column as viewed from the insulating margin side satisfy all of the following conditions [1] to [3]. [1] An area is 15 mm.sup.2 or more, [2] four or more of the fuses are connected, and [3] it is connected to all adjacent divided electrodes, each via one of the fuses.

A metallized film obtained by vapor-depositing a metal on a dielectric film such that an insulating margin is formed on one end of the dielectric film in a width direction, includes a divided electrode and a fuse. The divided electrode formed by dividing a vapor-deposited metal on a side of the insulating margin by slit-shaped non-vapor-deposited portions. The fuse connected to the divided electrode, in which a plurality of the divided electrodes is arranged in the width direction of the dielectric film, and the divided electrodes corresponding to a first column and a second column as viewed from the insulating margin side satisfy all of the following conditions [1] to [3]. [1] An area is 15 mm.sup.2 or more, [2] four or more of the fuses are connected, and [3] it is connected to all adjacent divided electrodes, each via one of the fuses.