A printed board on which a power module is mounted, a cooling pipe that is a refrigerant pipe of a refrigerant circuit, and a cooler attached to the power module and the cooling pipe are disposed in a casing. A support member by which the cooler is attached to the printed board and supported on the printed board, and a fixing member by which the printed board is fixed to the casing and supported on the casing are used.

A printed wiring board to which an electronic component is soldered by a jet soldering device, the printed wiring board includes as insulating substrate, a land provided on one surface of the insulating substrate, the one surface serving as a soldering surface, a through hole provided in the land and passing through the insulating substrate in a thickness direction of the insulating substrate. A lead of the electronic component is inserted into the through hole from the other surface of the insulating substrate, the other surface is opposed to the one surface, and an auxiliary conductor is provided in a region of a plane on the one surface, the region is adjacent to the land in a predetermined direction. The auxiliary conductor is provided to have a width equal to a width of the land in the same region of the plane.

A coating device includes a container, a driving device, and a control section. The container accommodates a liquid coating agent to be applied to multiple mounting portions of a board on which a component is to be mounted. The driving device horizontally moves and lifts and lowers a pin member between the container and the positioned board. The control section drives and controls the driving device to dip the pin member in the coating agent to apply the coating agent to each of the multiple mounting portions using the coating agent held by a distal end portion of the pin member.

A printed circuit board includes a circuit board body and a solder pad row disposed on a back of the circuit board body. The solder pad row includes a solder thief pad and a plurality of circular pin solder pads. An outline of an edge, on the solder thief pad proximate to the pin solder pads is an arc that is concave toward the solder thief pad.

A method of making a printed circuit board pallet is provided. The method of making the pallet illustratively includes the steps of: providing a base in a form of a polymer sheet stock; applying a fluid onto the base at selective locations where the pallet will be built-up to a three-dimensional form; depositing a polymer powder onto the base at the selective locations applied with the fluid; removing any excess amounts of the polymer powder not adhered to the fluid; and heating the pallet to fuse the polymer powder together and to the base.

A variety of footed and leadless semiconductor packages, with either exposed or isolated die pads, are described. Some of the packages have leads with highly coplanar feet that protrude from a plastic body, facilitating mounting the packages on printed circuit boards using wave-soldering techniques.

The disclosure provides a detection device, a detection method, and a recording medium. The detection device includes: an acquisition unit for acquiring the temperature of a solder in a solder bath; a measurement unit for measuring the melting point of the solder from a temporal change in temperature in at least one of a temperature increasing process and a temperature decreasing process; and a detection unit for detecting variation in the copper concentration of the solder on the basis of variation in the melting point.

There is provided a printed circuit board in which an amount of molten solder adhering over electrodes adjacent to each other is increased in flow soldering. The printed circuit board according to the present invention includes: a first insulating substrate (6) having a mounting hole (15) that penetrates through the first insulating substrate (6) from a first surface (6a) to a second surface (6b); a second insulating substrate (18) including a connection portion (23a) that penetrates through the mounting hole (15) from the first surface (6a) side and protrudes from the second surface (6b); first electrodes (7 and 9) that are provided on the second surface (6b) and are arranged at an edge of the mounting hole (15); and second electrodes (19 and 25) provided on the connection portion (23a). The first electrodes (7 and 9) and the second electrodes (19 and 25) are joined by solder. The printed circuit board further includes a coating film (31) that is disposed at least on a front end side of the connection portion (23a) than a portion where the second electrodes (19 and 25) are joined to the first electrodes (7 and 9) by the solder.

A printed wiring board includes a base material, a plurality of electrode pads to which an electronic component is soldered, the electrode pads being formed on a surface of the base material, a molten-solder introducing protrusion formed on the surface of the base material and connected to each of the electrode pads to draw molten solder into the electrode pad during soldering, and a molten-solder separating protrusion formed on the surface of the base material and connected to each of the electrode pads to help separation of molten solder from the electrode pad at a moment of separation of molten solder, wherein the molten-solder introducing protrusion, the electrode pad, and the molten-solder separating protrusion are aligned in line.

There is provided a printed circuit board in which an amount of molten solder adhering over electrodes adjacent to each other is increased in flow soldering. The printed circuit board according to the present invention includes: a first insulating substrate (6) having a mounting hole (15) that penetrates through the first insulating substrate (6) from a first surface (6a) to a second surface (6b); a second insulating substrate (18) including a connection portion (23a) that penetrates through the mounting hole (15) from the first surface (6a) side and protrudes from the second surface (6b); first electrodes (7 and 9) that are provided on the second surface (6b) and are arranged at an edge of the mounting hole (15); and second electrodes (19 and 25) provided on the connection portion (23a). The first electrodes (7 and 9) and the second electrodes (19 and 25) are joined by solder. The printed circuit board further includes a coating film (31) that is disposed at least on a front end side of the connection portion (23a) than a portion where the second electrodes (19 and 25) are joined to the first electrodes (7 and 9) by the solder.