A capacitor element and a method of manufacturing the same are provided. The method includes steps of: providing a metal foil having an oxide layer formed on an outer surface of the metal foil; forming a surrounding barrier layer onto the oxide layer so as to divide the outer surface of the oxide layer into a first part outer surface and a second part outer surface separated from each other; forming a base layer onto the oxide layer so as to partially encapsulate the oxide layer; cleaning the base layer by a cleaning solution and then drying the base layer; forming a conductive polymer layer onto the base layer; and forming a conductive paste layer onto the conductive polymer layer.

A base tape includes an accommodating section having a rectangular or substantially rectangular parallelepiped, and the base tape includes a surface layer including a carbon layer. The accommodating section includes a bottom surface portion, a side wall portion including a plurality of surfaces, and an opening portion. The side wall portion includes at at least one surface thereof an edge portion located between the bottom surface portion and the opening portion and an electrical discharge path portion inclined from the edge portion toward the opening portion. An electronic component array includes the base tape, an electronic component accommodated in the accommodating section of the base tape, and a cover tape that covers the accommodating section.

An electronic component (for example, an electrolytic capacitor) includes an internal element (for example, a capacitor element) and a packaging (for example, a case). The production lot for the internal element includes a plurality of subunits. The packaging is provided with an identifier for identifying the plurality of subunits. By this configuration, it is possible to provide an electronic component capable of specifying production information, a production method for the electronic component, a management method for the electronic component, and a program. The identifier may be provided on the packaging as a display. Further, the identifier may be a one-dimensional code or a two-dimensional code.

A method of manufacturing an electronic component includes preparing an unfired multilayer body including first and second main surfaces facing each other in a stacking direction, first and second side surfaces facing each other in a width direction, and first and second end surfaces facing each other in a length direction, bonding one side surface of each of unfired multilayer bodies to an adhesive sheet, polishing another side surface of each of the unfired multilayer bodies by rotating a polishing surface of a rotary polishing machine while contacting the another side surface, and forming a first insulating layer on the polished other side surface. In the polishing the another side surface, at least one of the rotary polishing machine and the adhesive sheet is moved relative to the other thereof to form a polish groove in the length direction.

A method of manufacturing an electronic component includes preparing an unfired multilayer body including first and second main surfaces facing each other in a stacking direction, first and second side surfaces facing each other in a width direction, and first and second end surfaces facing each other in a length direction, bonding one main surface of the unfired multilayer body to an elongated first adhesive sheet, conveying the first adhesive sheet in a first direction in which the first adhesive sheet approaches an elongated second adhesive sheet, and bonding one side surface of the unfired multilayer body to the second adhesive sheet, conveying the second adhesive sheet in a second direction different from the first direction to peel off the unfired multilayer body from the first adhesive sheet, polishing another side surface of the unfired multilayer body, and forming a first insulating layer on the polished another side surface.

The invention relates to a capacitive block, notably for an electrical equipment, comprising a case, a capacitive element housed in the case, a substance filling the space between the case and the capacitive element so as to ensure leak tightness of the capacitive element, a heat sink against which the capacitive element is in direct contact. In the capacitive block, the heat sink is different from the filling substance, a face of said heat sink, designated free face, forming an outer face of the capacitive block and being devoid of said filling substance.

An electronic device includes an electronic component having electrodes, a resin molded body embedding the electronic component such that the electrodes are exposed, a resin member interposed between the resin molded body and the electronic component and exposed from the resin molded body, and wires formed on the resin molded body and the resin member and respectively connected to the electrodes. A thermal expansion coefficient of the resin member is lower than a thermal expansion coefficient of the resin molded body and is higher than a thermal expansion coefficient of the electrodes.

The invention relates to a capacitive block, notably for an electrical equipment, comprising a case, a capacitive element housed in the case, a substance filling the space between the case and the capacitive element so as to ensure leak tightness of the capacitive element, a heat sink against which the capacitive element is in direct contact. In the capacitive block, the heat sink is different from the filling substance, a face of said heat sink, designated free face, forming an outer face of the capacitive block and being devoid of said filling substance.

A method of manufacturing a ceramic electronic component including a main body including a first principal surface and a second principal surface opposite to each other, and a first external electrode and a second external electrode provided on a portion of a surface of the main body, includes providing a plurality of recesses in a first principal surface of a laminated block including a ceramic material and an organic substance by relatively moving the laminated block and a protrusion surface including a protrusion, in a direction along the first principal surface of the laminated block with the protrusion surface being in contact with a first principal surface of the laminated block, obtaining a chip by cutting the laminated block including the recesses, and obtaining the main body by firing the chip.

A method for manufacturing a capacitor includes a step of forming a case integrated with a terminal unit designed to be connected with an external terminal, and a step of housing a capacitor element in the case so that the terminal unit is electrically connected to the capacitor element. The step of forming the case includes heating a metal mold to a temperature less than or equal to a glass transition temperature of a thermoplastic resin that is a material for the case. The metal mold internally has a mold part that is a hollow part having a shape of the case. And the step of forming the case further includes, after the heating of the metal mold and inserting the terminal unit into the mold part, injecting the thermoplastic resin in a molten state into the mold part of the metal mold.