A capacitor (2) includes a capacitor main body (4) and a base (6). The capacitor main body includes an opening sealing member (14) attached to an opening of an outer package case (10), and a terminal lead (16-1, 16-2) led out from a first insertion through hole portion (17-1, 17-2) of the opening sealing member. The base is disposed on the side of the opening sealing member of the capacitor main body, and has a second insertion through hole portion (18-1, 18-2). For example, the base includes a first protruding portion (20) surrounding the second insertion through hole portion, so that the second insertion through hole portion of the base forms an insertion through hole. The opening distance on the side of the substrate mounting face of the insertion through hole is larger than the opening distance on the side of the capacitor main body of the insertion through hole.

An electronic device includes first and second capacitors, a case, a coil, and first to fourth conductive terminals. The first capacitor includes first and second terminal electrodes. The second capacitor includes third and fourth terminal electrodes. The case includes an accommodation recess for accommodating the first and second capacitors. The coil is separated from the first and second capacitors by a part of the case and disposed outside the accommodation recess. The first terminal is connected to the first electrode and partly disposed on a mounting-side bottom surface of the case. The second terminal is connected to one end of the coil and the second electrode and partly disposed on the surface. The third terminal is connected to the other end of the coil and the third electrode and partly disposed on the surface. The fourth terminal is connected to the fourth electrode and partly disposed on the surface.

A capacitor and an electronic device comprising same are disclosed. An electronic device according to the present disclosure may comprise: a substrate; a plurality of capacitors mounted on the substrate, each of the plurality of capacitors including a case extending to accommodate an electrolyte therein, and a cap coupled to one end of the case in the direction in which the case extends configured to restrict scattering of the electrolyte; and a fixing member comprising a protrusion and configured to press the perimeters of the caps in the radial direction of the caps to fix the plurality of capacitors to the substrate.

A capacitor component comprising a first busbar, a second busbar, one or more capacitor elements and a housing, the housing having a first portion and a second portion, wherein the first portion and the second portion are arranged to extend around an aperture, the first portion includes a section for housing the one or more capacitor elements, with the second portion extending between a first end and a second end of the first portion, wherein the first busbar and the second busbar are arranged to extend around the first portion and the second portion of the housing, a first power supply terminal is formed at the first end of the first portion and a second power supply terminal is formed at the second end of the first portion, wherein the first power supply terminal is coupled to the first busbar and the second power supply terminal is coupled to the second busbar, wherein a first conductive layer of the one or more capacitor elements is coupled to the first busbar and a second conductive layer of the one or more capacitor elements is coupled to the second busbar.

A method for producing a film capacitor, the method including a sealing material supplying step of supplying a curable sealing material 30a to an element accommodating space 20a in which a film capacitor element 10 having a rolled body 12 is accommodated; and a curing step of curing the sealing material 30a in a state in which the rolled body 12 is embedded in the sealing material 30a, in which at the time of initiating the sealing material supplying step, the rolled body 12 is not fixed by the sealing material 30a, and in the sealing material supplying step, the sealing material 30a is supplied to the element accommodating space 20a without curing the sealing material 30a, from the beginning of the supply of the sealing material 30a to the element accommodating space 20a until the rolled body 12 is embedded in the sealing material 30a.

Various embodiments of the teachings herein include a capacitor assembly comprising: a capacitor extending at least partially around a space, the capacitor including first, positive-voltage-side current terminals and second, negative-voltage-side current terminals; a first bus bar electrically connected to the first current terminals; and a second bus bar electrically connected to the second current terminals. The first and the second busbar extend parallel to or obliquely to an end face of the space.

A welding structure of metal members includes a first member having a first opposing surface, a second member having a second opposing surface, and a welding portion fixing the first member and the second member to each other. A gap is formed between the first opposing surface and the second opposing surface. R1>R2 is satisfied where R1 represents a width of the welding portion in the gap and R2 represents a width of the welding portion on the first opposing surface of the first member. T2>T1 is satisfied where T2 represents a thickness of the second member in the portion where the welding portion is formed and T1 represents a thickness of the first member in the portion where the welding portion is formed. 0.8≤D1/T1≤1.2 is satisfied where D1 represents a depth of the welding portion in the second member from the second opposing surface.

An AC capacitor including a first electrode with an electrically conductive rod protruding from surface of the first electrode, a second electrode including an opening, a bobbin located between the first and the second electrode the bobbin includes a hollow central section. The axis of the electrically conductive rod protruding from surface of the first electrode is coaxial with axis of the hollow bobbin and the electrically conductive rod passes through the hollow central section of the bobbin and through the opening in the second electrode allowing current flow.

A capacitor assembly and a method of assembling a capacitor assembly are provided. The capacitor assembly has at least two capacitor stacks, which have a layer structure including a top layer and a bottom layer. A support assembly supports the capacitor stacks. The capacitor stacks are stacked on top of each other in the support assembly. The support assembly has a compression member which compresses the at least two capacitor stacks in a direction substantially perpendicular to the layer structure. A pressure distribution arrangement adjusts the distribution of the pressure applied to the capacitor stacks by the compression member.

A capacitor carrier assembly includes a carrier, a capacitor disposed in the carrier and electrically conductive connection terminals that support the carrier with respect to another electronic component or device such as a printed circuit board. Each connection terminal has a body portion that is electrically connected to one capacitor lead of the pair of capacitor leads at a connection location, and a device connection portion that protrudes from the carrier. Leads of the capacitor and the connection locations are encapsulated by wall structures of the carrier.