An electronic component comprising a body and at least one terminal for soldering the body to a carrier is provided, with the terminal comprising: an electrode arranged on a surface of the body; an outgassing layer formed on and/or surrounded by the electrode, wherein the outgassing layer is configured to outgas when being heated; and an electrically conductive cover layer formed on the outgassing layer, wherein the cover layer is electrically connected to the electrode and seals the outgassing layer in a gastight manner between the cover layer and the electrode.

A circuit board includes a first electronic component and a circuit substrate. The first electrode component includes two electrodes. The circuit substrate includes an inner substrate and an outer substrate formed on the inner substrate. The inner substrate defines a receiving cavity, and the first electronic component received in the receiving cavity. Each electrode faces an inner sidewall of the receiving cavity. The inner substrate includes a first insulating layer and a blocking layer embedded in the first insulating layer, an end of the blocking layer exposed from the inner sidewall. The outer substrate defines two through holes. Each through hole passes through a portion of the first insulating layer connected to the inner sidewall and exposes the blocking layer. A top end of each of the two electrodes facing the outer substrate is partially received in one through hole.

A signal processing board includes a six-layer substrate. A plurality of signal transmission planes are formed in a first layer, a third layer, a fourth layer, and a sixth layer. A first ground plane is formed in a second layer. A first power supply plane is formed in a fifth layer and electrically connected to the first semiconductor element. A second power supply plane is formed in the fifth layer and electrically connected to the second semiconductor element. A second ground plane is formed in the fifth layer. A first bypass capacitor is electrically connected to the first power supply plane and the second ground plane. A second bypass capacitor is electrically connected to the second power supply plane and the second ground plane.

A supercapacitor assembly is disclosed that includes a supercapacitor enclosed within a housing. The housing may have an outer surface and may be sealed at a seal location. A barrier layer may be formed on a portion of the outer surface that is adjacent at least one of the seal location or a surface to which the supercapacitor is mounted. The barrier layer may be a high performance polymer, such as a thermoplastic polymer or a thermoset polymer.

A capacitor comprises a first winding member, where the first winding member comprises a first dielectric layer and a first conductive layer. A second winding member comprises a second dielectric layer and second conductive layer. The first winding member is interleaved, partially or entirely, with the second winding layer. A dielectric package is adapted to at least radially contain or border the first winding member and the second winding member. A first metallic member has a generally planar, radially extending surface for electrically and mechanically contacting an upper portion the first conductive layer. A second metallic member has a generally planar, radially extending surface for electrically and mechanically contacting a lower portion of the second conductive layer.

A contacting arrangement between an electrical component and a circuit carrier, the component being connected to a connection element formed as a part separate from the component, and the connection element being electroconductively contacted directly with the circuit carrier via at least one press-fit connection.

A semiconductor storage device including a board, an electronic component, and a holder. The board has a region with an opening. The electronic component includes a component body disposed in the opening and a lead protruding from the component body and connected to the board. The holder is disposed in the opening and supports the component body. The region includes first and second edges on either side of the opening, the first and second edges extending along a first direction and separated from each other in a second direction crossing the first direction. The holder includes a holder body at least partially formed in an annular shape and into which the component body is inserted, a first groove extending along the first direction and engaged with the first edge, and a second groove extending along the first direction and engaged with the second edge.

A resin molded substrate has at least a pair of terminal through holes for allowing lead terminals of a cylindrical capacitor to be inserted through, and at least one protrusion for supporting a side of a bottom portion of the capacitor so as to space from a front surface of the substrate the side of the bottom portion of the capacitor having the lead terminals inserted through the terminal through holes. The pair of lead terminals at the bottom portion are inserted through the terminal through holes of the resin molded substrate, whereby the capacitor is mounted in an upright state with a solder, so that the protrusion spaces the side of the bottom portion from the front surface of the resin molded substrate.

A light engine for a tube lamp has a substrate defining a longitudinal direction, having at least three conductive traces extending in the longitudinal direction. At least two of the conductive traces are divided into a plurality of trace sections. The light engine further includes a plurality of semiconductor light emitting elements, each light emitting element having two electric terminals and being arranged perpendicular to the longitudinal direction and electrically connected with a first electric terminal to one of the conductive traces and with a second electric terminal to another one of the conductive traces.

A component built-in substrate includes a multilayer body and a substrate including a multilayer ceramic electronic component embedded therein. The multilayer ceramic electronic component includes a first connection portion that protrudes from the first external electrode, and a second connection portion that protrudes from the second external electrode. The substrate includes a core material. The multilayer ceramic electronic component including the first connection portion and the second connection portion includes a surface covered by the core material and embedded in the substrate. The first connection portion protrudes toward a surface of the substrate, and is not exposed at the surface of the substrate. The second connection portion protrudes toward the surface of the substrate, and is not exposed at the surface of the substrate.