Devices, methods, and systems for forming an electrical circuit out of a conductor embedded in two layers of substrate are disclosed. Portions of the two layers of substrate and the conductor are removed, forming a cavity through the two layers and the conductor. A blocker material is deposited along the wall of the cavity. A portion of the blocker material and adjacent layer of the substrate is removed forming another cavity in contact with a part of the conductor. A surface of the second cavity is then electroless plated by a conductive metal to form part of the electrical circuit.

Disclosed herein are via plug capacitors for incorporation into electronic substrates, and related methods and devices. Exemplary via plug capacitor structures include a capacitive element within a via extending at least partially through an electronic substrate and first and second electrodes coupled to the capacitive element.

A method for manufacturing a Z-directed component for insertion into a mounting hole in a printed circuit board according to one example embodiment includes simultaneously extruding a plurality of materials according to the structure of the Z-directed component to form an extruded object and forming the Z-directed component from the extruded object. In one embodiment, the extruded object is divided into individual Z-directed components. In one embodiment, the timing of extrusion between predetermined sections of one of the materials is varied in order to stagger the sections in the extruded object.

A circuit apparatus includes: a stacked body; and a plurality of terminals. The stacked body includes a plurality of layers. A plurality of holes that extend through the plurality of layers are formed in the stacked body. Each of the plurality of layers includes a connection member that is formed of a conductor. The connection member includes: a plurality of connection portions that are provided at positions corresponding to the plurality of holes; and a joining portion that connects the plurality of connection portions to each other. The plurality of terminals include a plurality of types of terminals that correspond to the plurality of layers. Each of the plurality of types of terminals can be selectively connected to the connection portion of a corresponding one of the plurality of layers by being inserted into a predetermined one of the plurality of holes.

Methods and apparatus for providing an interconnection including a stack of wirebond balls having a selected impedance. The wirebond balls may have a size, which may comprise a radius, configured for the selected impedance. The stack may comprise a number of wirebond balls configured for the selected impedance and/or may comprise a material selected for the selected impedance. In embodiments, the selected impedance is primarily resistive (e.g., 50 Ohms), such that the overall reactance is minimized.

Disclosed herein are via plug resistors for incorporation into electronic substrates, and related methods and devices. Exemplary via plug resistor structures include a resistive element within and on a surface of a via extending at least partially through an electronic substrate and first and second electrodes coupled to the resistive element.

Embodiments herein describe a capillary containing a eutectic conductive liquid (e.g., EGaIn) and an electrolyte (e.g., NaOH) that is integrated into a printed circuit board (PCB). In one embodiment, the PCB includes a capillary, a negative electrode, a positive electrode, a plurality of insulation layers, and a conductive layer. The capillary extends through the PCB. The capillary includes a side surface forming an annular cylinder. A eutectic conductive liquid and an electrolyte are disposed within an aperture formed by the side surface. An electrode extends through the side surface and contacts at least the eutectic conductive liquid or the electrolyte. The negative electrode is disposed at a first end of the capillary. The positive electrode is disposed at a second end of the capillary. The conductive layer is disposed between two of the plurality of insulation layers. The electrode forms an electrical connection with the conductive layer.

A method for producing a connection contact for a sensor or an actuator of a vehicle, the method including: providing a printed circuit board having at least one electronic component arranged thereon and having an opening; inserting a contact bushing into the opening; and combined soldering the at least one component to the printed circuit board and the contact bushing to the printed circuit board in one task. Also described are a related circuit board and a vehicle control unit.

Disclosure provides an adapter board and a method for making the adapter board, which includes providing a mold in which a plurality of first fixing plates and second fixing plates are provided, providing a plurality of wires sequentially passed through the plurality of first fixing plates and the second fixing plate, injecting a non-conductive material into the cavity to form a body, and cutting the body along both sides of the first fixing plates and the second fixing plates to obtain a plurality of board bodies. The first fixing plates are provided with a plurality of first fixing holes, and the second fixing plates are provided with a plurality of second fixing holes. The board body includes a first surface and a second surface. A plurality of first connection pads are formed on the first surface, and a plurality of second connection pads are formed on the second surface.

A substrate connecting structure includes a substrate that includes a flat base material having a first surface and a second surface at a side opposite to the first surface, a first wiring layer arranged on the first surface, and a second wiring layer arranged on the second surface, a through hole extending through the base material, a connection metal body that includes a connecting portion connected to the second wiring layer and a projection inserted into the through hole, and a mounted component mounted on the substrate. The connection metal body is connected to the mounted component only at a distal end surface of the projection.