A capacitor includes a capacitor element, a bus bar connected to an electrode of the capacitor element, a case housing the capacitor element, and a filling resin filled in the case. The bus bar includes a first section and a second section. The first section is exposed from the filling resin and includes a connection terminal configured to be connected to an external terminal. The second section has a buried section buried in the filling resin and an exposed section exposed from the filling resin, and includes a connection part connected to the electrode. The exposed section is located away from the first section.

A capacitive block includes at least one capacitive element, a first electrical conductor that includes at least one electrically conductive plate abutting a first end of the at least one capacitive element so as to be electrically connected to the at least one capacitive element, and a first frame made of electrically insulating material coming into register with a peripheral edge of the at least one electrically conductive plate so as to electrically insulate the at least one electrically conductive plate from an environment of the capacitive block.

A capacitive block includes at least one capacitive element, a first electrical conductor that includes at least one electrically conductive plate abutting a first end of the at least one capacitive element so as to be electrically connected to the at least one capacitive element, and a first frame made of electrically insulating material coming into register with a peripheral edge of the at least one electrically conductive plate so as to electrically insulate the at least one electrically conductive plate from an environment of the capacitive block.

An electronic component holder for a control box for holding non-passive components, such as capacitors, relays and circuit breaker switches to a surface of the control box. The electronic component holder is welded or secured to an inner surface of the control box. By the structure of the electronic component holder, the need for use of conventional fasteners, such as screws or bolts, to hold the electronic components in place within the control box is eliminated.

In an embodiment, an energy storage apparatus includes a plurality of energy storage devices arranged in a first direction and a pair of insulators extending in the first direction along the plurality of energy storage devices and arranged at an interval from each other in a second direction orthogonal to the first direction, and each of the plurality of energy storage devices has an outer surface facing a third direction orthogonal to the first direction and the second direction, and each of the pair of insulators has a space forming part extending from a position on the outer surface in the first direction and the third direction, and forming a space between a facing surface, on which the energy storage apparatus is installed, and the outer surface.

An electronic control unit for a vehicle. The electronic control unit is defined by a housing comprising a cover, a base, a circuit board, a connector and a backup power supply, and means for mounting the cover to the base. A carrier is provided for supporting the backup power supply. The carrier is arranged inside the housing and mounted directly to the base.

A laundry appliance includes a basement housing comprising a capacitor receiver. A capacitor is disposed within the capacitor receiver to define a secured position. The capacitor receiver includes at least one retaining flange that is coupled to the basement housing via a living hinge. At least one retaining flange is outwardly biased away from a body of the capacitor when the capacitor is placed in an inserted position. At least one retaining flange includes a thread-engaging surface that operates to the secured position upon rotation of the capacitor in the inserted position.

A laundry appliance includes a basement housing comprising a capacitor receiver. A capacitor is disposed within the capacitor receiver to define a secured position. The capacitor receiver includes at least one retaining flange that is coupled to the basement housing via a living hinge. At least one retaining flange is outwardly biased away from a body of the capacitor when the capacitor is placed in an inserted position. At least one retaining flange includes a thread-engaging surface that operates to the secured position upon rotation of the capacitor in the inserted position.

A DC link capacitor includes a plurality of wound capacitors, each having a first connection pole and a second connection pole, a first current-tapping element by which the first connection poles are contacted, and a second current-tapping element by which the second connection poles are contacted. First wound capacitors, of the plurality of wound capacitors, are arranged in a first row and oriented such that the first connection poles are arranged on a first side of the DC link capacitor and the second connection poles are arranged on a second side of the DC link capacitor. Second wound capacitors of the plurality of wound capacitors are arranged in a second row, where the first and second rows are arranged parallel to each other in a common plane, and where the second wound capacitors are oriented such that the first connection poles are arranged on the second side of the DC link capacitor and the second connection poles are arranged on the first side of the DC link capacitor.

A DC link capacitor includes a plurality of wound capacitors, each having a first connection pole and a second connection pole, a first current-tapping element by which the first connection poles are contacted, and a second current-tapping element by which the second connection poles are contacted. First wound capacitors, of the plurality of wound capacitors, are arranged in a first row and oriented such that the first connection poles are arranged on a first side of the DC link capacitor and the second connection poles are arranged on a second side of the DC link capacitor. Second wound capacitors of the plurality of wound capacitors are arranged in a second row, where the first and second rows are arranged parallel to each other in a common plane, and where the second wound capacitors are oriented such that the first connection poles are arranged on the second side of the DC link capacitor and the second connection poles are arranged on the first side of the DC link capacitor.