A soldering apparatus for selective soldering, comprising a solder bath for holding the molten solder at least one solder nozzle a solder pump for conveying solder from the solder bath through the solder nozzle a movement device for the relative movement of the solder nozzle and an assembly to be soldered
wherein several solder nozzles are provided in several solder nozzle assemblies, with each solder nozzle assembly having one or more solder nozzles and wherein each solder nozzle assembly may be assigned an assembly, and the movement device is designed for synchronous movement of the several solder nozzle assemblies relative to the respective assemblies in the horizontal X-Y plane, and the soldering machine is so designed that the individual solder nozzle assemblies and the respective assemblies may be moved towards one another and independently of one another in the vertical direction (Z-direction) by means of a coupling device.

A substrate on which an electronic component is soldered, includes an electronic component, a through hole positioned on the substrate and passing through the substrate, a solder that joins the through hole and a terminal of the electronic component inserted in the through hole, a pattern formed on a first surface of the substrate, the first surface facing a second surface on which the electronic component is placed, a first resist superimposed on the pattern, an exposed portion of which the pattern is exposed from the first resist around the through hole, and a second resist superimposed on the pattern and arranged between the through hole and the exposed portion.

A circuit board design device judging whether a circuit board has a pair of via holes which are adjacent within a solder bridge formation distance within which a solder bridge can be formed; when the affirmative, the circuit board design device judging whether each of the pair of via holes is electrically connected in parallel to other via hole with a land not coated with solder resist; when the circuit board design device judges that at least one of the pair of via holes is electrically connected in parallel to the other via hole with a land not coated with solder resist, the circuit board design device determining the at least one of the pair of via holes which is electrically connected in parallel to the other via hole with a land not coated with solder resist as a coated via hole with a land coated with solder resist.

A dual solder layer for fluidic self assembly, an electrical component substrate, and method employing same is described. The dual solder layer comprises a layer of a self-assembly solder disposed on a layer of a base solder which is disposed on the solder pad of an electrical component substrate. The self-assembly solder has a liquidus temperature less than a first temperature and the base solder has a solidus temperature greater than the first temperature. The self-assembly solder liquefies at the first temperature during a fluidic self assembly method to cause electrical components to adhere to the substrate. After attachment, the substrate is removed from the bath and heated so that the base solder and self-assembly solder combine to form a composite alloy which forms the final electrical solder connection between the component and the solder pad on the substrate.

A piezoelectric transformer includes a piezoelectric element. Two primary side electrodes exist on the primary side of the piezoelectric element. The primary side electrodes are coupled by a resistor formed from a conductive coating. A discharge current is discharged via the resistor to protect a semiconductor component from the discharge current. Since neither a short-circuit terminal nor conductive jig is required, electrostatic discharge damage to a semiconductor component can be prevented by a low-cost arrangement.

An apparatus for increasing solder hole-fill in a printed circuit board assembly (PCBA) are provided in the illustrative embodiments. In the PCBA comprising a Printed Circuit Board (PCB) and the device, a pin of a device is caused to move in a first direction, the pin occupying a hole in the PCB, the hole being filled to a first distance by a solder material. By causing the pin to move, the solder material is drawn into the hole up to a second distance that is greater than the first distance. The pin is allowed to move in a second direction, to return the pin to an initial position in the hole. Allowing the pin to move in the second direction keeps the solder material at a third distance, wherein the third distance is greater than the first distance in the hole.

A semiconductor package and methods for producing the same are described. One example of the semiconductor package is described to include a substrate having a first face and an opposing second face. The package is further described to include a plurality of solderable surfaces formed on the first face of the substrate, a first solderable surface in the plurality of solderable surfaces having a pattern plating structure on an outward facing surface of the first solderable surface. There may also be an amount of solder bonded to the outward facing surface of the first solderable surface, where the pattern plating structure on the outward facing surface of the first solderable surface causes the amount of solder to have a first thickness at its ends, a second thickness at its center, and a discrete transition between the first thickness and the second thickness.

A method of manufacturing a printed circuit board assembly includes providing a circuit board, positioning a plurality of components including at least one thermally-sensitive component having a maximum temperature threshold on the circuit board, positioning a customized protective heat shield on the thermally-sensitive component, exposing the circuit board (having the thermally-sensitive component disposed thereon and the customized protective heat shield disposed on the thermally-sensitive component) to a high-temperature environment wherein temperatures exceed the maximum temperature threshold of the thermally-sensitive component, and removing the customized protective heat shield from the thermally-sensitive component. Customized protective heat shields are also provided.

A method of manufacturing a pallet for use during manufacture of a printed circuit board assembly includes determining optimal solder flow for establishing connections between lead pins of a plurality of pin-through-hole components arranged on a circuit board, designing a pallet to include geometries configured to provide the optimal solder flow when the pallet, supporting the circuit board thereon, is passed through a wave solder machine, and creating the pallet based on the design. Pallets configured for optimal solder flow and methods of manufacturing printed circuit board assemblies using such pallet are also provided.

A hot-dip plating apparatus for plating a thin molten solder film can control a film thickness of a molten solder on a base material evenly and in increments of a few m and achieve a thin-film solder plating having a film thickness less than a conventional system. As shown in FIG. 1, this apparatus comprises a solder bath 17 of accommodating the molten solder 7; a second conveying section 23 for drawing up a strip member 31 from the solder bath; and a blower section 19 for blowing hot gas on the strip member 31 immediately after being drawn up from the solder bath by a second conveying section 23; the hot gas having a predetermined flow volume and a predetermined temperature equal to or higher than a melting temperature of the molten solder 7. According to this configuration, the excess molten solder 7 can be trimmed from the strip member 31 corresponding to composition of the molten solder 7. Thus, the film thickness of the molten solder 7 coated on the strip member 31 can be controlled evenly and in increments of a few m.