In an electrical device, a model series of electrical devices, and a production method, in particular for a converter, having a circuit board including circuit traces, the circuit board has two similar and/or identical contact area arrays, the contact area arrays in particular transitioning into each other through rotation and/or displacement. A first contact area array of the contact area arrays is fitted with a first power module, and the second contact area array is able to be fitted with a second power module, e.g., so that a respective electric motor is able to be supplied from the respective power module.

A mounting structure includes a PCB on which first and second conductive patterns are formed, and a shunt resistor mounted on one surface of a substrate via a conductive bonding material. Each of the first and second conductive patterns includes: a first/second lead-out portion and a first/second pull-out portion which is pulled out to the outside of a region of the shunt resistor from the first/second lead-out portion. A resistance value of the shunt resistor is detected between the first pull-out portion and the second pull-out portion. A bonding material flow-out preventing resist is disposed at a portion of a surface of at least one of the first lead-out portion and the second lead-out portion, and a fillet of the bonding material terminates at a position corresponding to a position where the bonding material flow-out preventing resist is disposed.

A device for current determination includes a shunt and a device for temperature measurement including a printed circuit board, an evaluation unit and a temperature sensor. The printed circuit board has a milled groove which runs spirally around the temperature sensor, so that the temperature sensor is arranged on a printed circuit board plateau defined by the milled groove and is displaceable in a direction that is parallel to a normal vector of a plane defined by the printed circuit board. When the temperature sensor is displaced relative to the plane of the printed circuit board, a restoring force is brought about between the printed circuit board and the temperature sensor, wherein the shunt includes a resistance region having a substantially flat surface, wherein the device for current determination is arranged in the resistance region on the surface of the shunt in such a way that the temperature sensor is arranged in thermal connection with the resistance region of the shunt, wherein voltage taps are arranged on both sides of the temperature sensor and electrically contact the surface of the shunt in order to detect a potential difference along the resistance region.

Electrical components may have plastic packages. Contacts may be formed on exterior surfaces of the plastic packages. A plastic package for an electrical component may have an elongated shape that extends along a longitudinal axis. A first groove may run parallel to the longitudinal axis on a lower surface of the plastic package. A second groove may run perpendicular to the first groove on an opposing upper surface of the plastic package. The electrical components may be coupled to fibers in a fabric such as a woven fabric. A first solder connection may be formed between the first groove and a first fiber such as a weft fiber. A second solder connection may be formed between the second groove and a second fiber such as a warp fiber.

An electronic component module includes a substrate having a main surface, an electronic component mounted on the main surface, a sealing resin having an insulation property and covering the electronic component and the main surface, and a conductive film that covers an outer surface of the sealing resin. The electronic component includes a housing whose outer surface has an insulation property, and a first external electrode arranged at one end of the housing. The electronic component module includes a conductive auxiliary layer that covers a part of the first external electrode and a part of the housing on a side of the electronic component opposite to the substrate. The sealing resin has a recessed portion that exposes the conductive auxiliary layer. A conductive portion is formed in the recessed portion and is connected to the conductive film and the conductive auxiliary layer.

A power supply unit for an aerosol inhaler includes: a power supply able to discharge power to a load for generating an aerosol from an aerosol source; a connector able to be electrically connected to an external power supply; a control device configured to control at least one of charging and discharging of the power supply or configured to be able to convert power which is input from the connector into charging power for the power supply; and a zener diode provided between the connector and the control device so as to be connected in parallel with the control device. A maximum value of zener voltage of the zener diode is lower than a maximum operation guarantee voltage of the control device.

A package substrate according to an embodiment includes an insulating layer; a first outer circuit pattern disposed on an upper surface of the insulating layer; a second outer circuit pattern disposed under a lower surface of the insulating layer; a first connection portion disposed on an upper surface of a first-first circuit pattern of the first outer circuit pattern; a first contact portion disposed on the first connection portion; a first device disposed on the first connection portion through the first contact portion; a second contact portion disposed under a lower surface of a second-first circuit pattern of the second outer circuit pattern; a second device attached to the second-first circuit pattern through the second contact portion; and a second connection portion disposed under a lower surface of a second-second circuit pattern of the second outer circuit pattern; wherein the first connection portion is disposed with a first width and a first interval, and wherein the second connection portion is disposed with a second width greater than the first width and a second interval greater than the first interval.

The present disclosure provides an adapter board, a for manufacturing the same and a circuit board assembly. The adapter board includes a board body, a first component buried in the board body, a first connector located on a first surface of the board body and configured to be connected with a circuit board and a second component, a second connector located on a second surface of the board body and configured to be connected with a second component, a first conductive body and a second conductive body buried in the board body. One end of the first conductive body is connected with the first component. The other end of the first conductive body is connected with the first connector. One end of the second conductive body is connected with the first component. The other end of the second conductive body is connected with the second connector

A heat transfer member-equipped substrate includes a heat transfer member installed in a through hole of a substrate; a heat generating component; and a solder portion soldering the heat generating component to the heat transfer member, a nickel base plating formed on the heat transfer member, and the solder portion bonded to the nickel base plating where a gold plating that suppresses oxidization of the nickel base plating is blended into the solder portion. The heat transfer member includes a first and a second heat transfer portion bonded to each other, the first heat transfer portion made of a first metal, the second heat transfer portion made of a second metal formed on at least a portion of a surface of the second heat transfer portion, and the second heat transfer portion being a plate shape that protrudes from a circumference of the first heat transfer portion.

An electronic component mounted body includes a substrate, a connection section provided on the substrate, an electronic component having a terminal connected to the connection section, and a solder that fixes the electronic component to the connection section. The connection section has a first region in which the terminal is fixed through the solder, and a second region lower in wettability than the first region, and the second region has an extension region extended to a peripheral edge of the connection section, and a spaced region that projects from the extension region toward the first region and that is provided to be spaced from the peripheral edge.