An electrode foil having high capacitance per unit volume is provided. The electrode foil is an electrode foil for an electrolytic capacitor. The electrode foil is an electrode foil extending in a longitudinal direction and having a width direction orthogonal to the longitudinal direction, the electrode foil including an enlarged surface portion on a surface of the electrode foil, wherein a crack is formed in the enlarged surface portion in a direction oblique to the width direction.

According to an embodiment, a capacitor includes a conductive substrate, a conductive layer and a dielectric layer. The conductive substrate has a first main surface and a second main surface. The first main surface includes sub-regions. Each sub-region is provided with recesses or projections each having a shape extending in one direction and arranged in a width direction thereof. One or more of the sub-regions and another one or more of the sub-regions are different from each other in a length direction of the recesses or protrusions. The conductive layer covers sidewalls and bottom surfaces of the recesses or sidewalls and top surfaces of the projections. The dielectric layer is interposed between the conductive substrate and the conductive layer.

According to an embodiment, a capacitor includes a conductive substrate, a conductive layer and a dielectric layer. The conductive substrate has a first main surface and a second main surface. The first main surface includes sub-regions. Each sub-region is provided with recesses or projections each having a shape extending in one direction and arranged in a width direction thereof. One or more of the sub-regions and another one or more of the sub-regions are different from each other in a length direction of the recesses or protrusions. The conductive layer covers sidewalls and bottom surfaces of the recesses or sidewalls and top surfaces of the projections. The dielectric layer is interposed between the conductive substrate and the conductive layer.

To provide a thin film capacitor having high adhesion performance with respect to a multilayer substrate. A thin film capacitor includes: a metal foil having a roughened upper surface; a dielectric film covering the upper surface of the metal foil and having an opening through which the metal foil is partly exposed; a first electrode layer contacting the metal foil through the opening; and a second electrode layer contacting the dielectric film without contacting the metal foil. A height of the first electrode layer is lower than a height of the second electrode layer. This enhances adhesion performance when the thin film capacitor is embedded in a multilayer substrate and improves ESR characteristics.

A multilayer ceramic capacitor includes a body including a dielectric layer, and first and second internal electrodes configured to be layered in a third direction with the dielectric layer interposed therebetween and having first and second connection portions, respectively, and including first, second, third, fourth, fifth and sixth surfaces; a first external electrode disposed on the fifth surface of the body; and a second external electrode disposed on the fifth surface of the body. The first internal electrode is exposed to the third surface and the fifth surface of the body through the first connection portion, and the second internal electrode is exposed to the fourth surface and the fifth surface of the body through the second connection portion.

A multilayer ceramic capacitor includes a body including a dielectric layer, and first and second internal electrodes configured to be layered in a third direction with the dielectric layer interposed therebetween and having first and second connection portions, respectively, and including first, second, third, fourth, fifth and sixth surfaces; a first external electrode disposed on the fifth surface of the body; and a second external electrode disposed on the fifth surface of the body. The first internal electrode is exposed to the third surface and the fifth surface of the body through the first connection portion, and the second internal electrode is exposed to the fourth surface and the fifth surface of the body through the second connection portion.

A spinal implant assembly includes a set screw having a central opening that extends from a first end of the set screw toward a second end of the set screw. The second end of the set screw includes a bottom bore portion, and the set screw is configured to engage with an anchoring member. The spinal implant assembly includes a capacitive assembly having an integrated circuit located within an internal portion the capacitive assembly, and a plurality of capacitive plates positioned on an outside bottom surface of the capacitive assembly. Each of the capacitive plates is in operable communication with the integrated circuit, and the capacitive assembly is configured to be received within the central opening of the set screw, such that the plurality of capacitive plates are positioned above the bottom bore portion.

A spinal implant assembly includes a set screw having a central opening that extends from a first end of the set screw toward a second end of the set screw. The second end of the set screw includes a bottom bore portion, and the set screw is configured to engage with an anchoring member. The spinal implant assembly includes a capacitive assembly having an integrated circuit located within an internal portion the capacitive assembly, and a plurality of capacitive plates positioned on an outside bottom surface of the capacitive assembly. Each of the capacitive plates is in operable communication with the integrated circuit, and the capacitive assembly is configured to be received within the central opening of the set screw, such that the plurality of capacitive plates are positioned above the bottom bore portion.

A multilayer ceramic electronic component includes a ceramic body comprising dielectric layers and first and second internal electrodes laminatedly disposed in a third direction with respective dielectric layers interposed therebetween, and first electrode and second external electrodes disposed on both surfaces of the ceramic body in the first direction and electrically connected to the first and second internal electrodes. When an absolute value of a horizontal angle in the second direction of the first internal electrode with respect to the first surface of the ceramic body is referred to a first angle of the internal electrode, a total sum of the first angles is less than 10°.

A multilayer ceramic electronic component includes a ceramic body comprising dielectric layers and first and second internal electrodes laminatedly disposed in a third direction with respective dielectric layers interposed therebetween, and first electrode and second external electrodes disposed on both surfaces of the ceramic body in the first direction and electrically connected to the first and second internal electrodes. When an absolute value of a horizontal angle in the second direction of the first internal electrode with respect to the first surface of the ceramic body is referred to a first angle of the internal electrode, a total sum of the first angles is less than 10°.