A method of manufacturing a filtered feedthrough assembly for use with an implantable medical device. The method may include gold brazing an insulator to a flange at first braze joint, and gold brazing a plurality of feedthrough wire to the insulator at second braze joints. The method may further include applying a first non-conductive epoxy to the first braze joint, and applying a second non-conductive epoxy to the second braze joint. The method may further include grit blasting a face of the flange, applying a conductive epoxy to the face of the flange, and attaching an EMI filter to the conductive epoxy such that it is grounded to the flange via the conductive epoxy and not via the first braze joint or the second braze joints.

An apparatus suitable for use in an air-conditioning system and configured to provide a plurality of selectable capacitance values includes a plurality of capacitive devices and a pressure interrupter cover assembly. Each of the capacitive devices has a first capacitor terminal and a second capacitor terminal. The pressure interrupter cover assembly includes a deformable cover, a set of capacitor cover terminals, a common cover terminal, and a set of insulation structures. The apparatus also includes a conductor configured to electrically connect the second capacitor terminal of at least one of the capacitive devices to the common cover terminal.

An apparatus suitable for use in an air-conditioning system and configured to provide a plurality of selectable capacitance values includes a plurality of capacitive devices and a pressure interrupter cover assembly. Each of the capacitive devices has a first capacitor terminal and a second capacitor terminal. The pressure interrupter cover assembly includes a deformable cover, a set of capacitor cover terminals, a common cover terminal, and a set of insulation structures. The apparatus also includes a conductor configured to electrically connect the second capacitor terminal of at least one of the capacitive devices to the common cover terminal.

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.

An apparatus is provided which comprises: one or more first conductive contacts on a first substrate surface, one or more second conductive contacts on a second substrate surface opposite the first substrate surface, a core layer comprising glass between the first and the second substrate surfaces, and one or more thin film capacitors on the glass core conductively coupled with one of the first conductive contacts and one of the second conductive contacts, wherein the thin film capacitor comprises a first metal layer on a surface of the glass core, a thin film dielectric material on a surface of the first metal layer, and a second metal layer on a surface of the thin film dielectric material. Other embodiments are also disclosed and claimed.

A multilayer capacitor include dielectric layers stacked in a direction perpendicular to a mounting surface of a capacitor body, and internal electrodes and an equivalent series inductance (ESL) control pattern formed on upper and lower portions of the dielectric layers, respectively. The internal electrodes have an area larger than that of the ESL control pattern, and the ESL control pattern is exposed to a mounting surface of a capacitor body.

A multilayer capacitor include dielectric layers stacked in a direction perpendicular to a mounting surface of a capacitor body, and internal electrodes and an equivalent series inductance (ESL) control pattern formed on upper and lower portions of the dielectric layers, respectively. The internal electrodes have an area larger than that of the ESL control pattern, and the ESL control pattern is exposed to a mounting surface of a capacitor body.

An electronic device including a substrate comprising a hole, and a capacitor capable of being inserted and fixed to the hole of the substrate. The electronic device includes a substrate including a hole, and a capacitor inserted to the hole so as to be mounted on the substrate. The capacitor includes a case provided to accommodate a dielectric therein and forming an exterior of the capacitor, a lead wire connected to the dielectric and extending from an inside of the case to an outside of a first side surface of the case, and a groove recessed on a second side surface of the case opposite to the first side surface and provided to be engaged with a side, which forms a circumference of the hole, of the substrate to allow the case to be inserted and fixed to the hole.

An electronic device including a substrate comprising a hole, and a capacitor capable of being inserted and fixed to the hole of the substrate. The electronic device includes a substrate including a hole, and a capacitor inserted to the hole so as to be mounted on the substrate. The capacitor includes a case provided to accommodate a dielectric therein and forming an exterior of the capacitor, a lead wire connected to the dielectric and extending from an inside of the case to an outside of a first side surface of the case, and a groove recessed on a second side surface of the case opposite to the first side surface and provided to be engaged with a side, which forms a circumference of the hole, of the substrate to allow the case to be inserted and fixed to the hole.

A housing part for an electrical storage installation includes: a main body including a through-opening, which includes a side; a fixing material; a first connector terminal assembly including a connector pin which is routed through the through-opening and, by way of the fixing material, is fixed so as to be electrically isolated in the through-opening, the connector pin including a projecting part which on the side projects beyond the through-opening; an insulation material; and a terminal pad on the side, the terminal pad including an opening, the projecting part engaging in the opening and being electrically connected to the terminal pad, the pad by way of the insulation material being fastened so as to be electrically isolated on the main body.