A lead-free, antimony-free solder alloy_suitable for use in electronic soldering applications. The solder alloy comprises (a) from 1 to 4 wt. % silver; (b) from 0.5 to 6 wt. % bismuth; (c) from 3.55 to 15 wt. % indium, (d) 3 wt. % or less of copper; (e) one or more optional elements and the balance tin, together with any unavoidable impurities.

A control device of soldering device identifies the type of lead component to be soldered when soldering multiple types of lead components sequentially with jet device and reads out a value of a soldering parameter corresponding to the lead component type from an HDD. Then, the control device controls jet device so that the lead component is soldered based on the value of the soldering parameter. As a result, the lead of the lead component is soldered with the value of the soldering parameter corresponding to the type of the lead component.

A control device of soldering device identifies the type of lead component to be soldered when soldering multiple types of lead components sequentially with jet device and reads out a value of a soldering parameter corresponding to the lead component type from an HDD. Then, the control device controls jet device so that the lead component is soldered based on the value of the soldering parameter. As a result, the lead of the lead component is soldered with the value of the soldering parameter corresponding to the type of the lead component.

An injection-molded solder (IMS) tool assembly apparatus, the apparatus including an IMS tool for dispensing a molten material via a round extrusion part to coat an inside or an outside wall of a pipe (and a chiller for providing cooling water to flow through an inside of the pipe.)

Improved electrical and thermal properties of solder alloys are achieved by the use of micro-additives in solder alloys to engineer the electrical and thermal properties of the solder alloys and the properties of the reaction layers between the solder and the metal surfaces. The electrical and thermal conductivity of alloys and that of the reaction layers between the solder and the -metal surfaces can be controlled over a wide range of temperatures. The solder alloys produce stable microstructures wherein such stable microstructures of these alloys do not exhibit significant changes when exposed to changes in temperature, compared to traditional interconnect materials.

A soldering apparatus including a flux-applying device having a nut that is fitted into the soldering apparatus and the flux-applying device can change a fixed position of the nut easier than that of a convention example even if any adhered matters generated when each apparatus or device is used for a long time are adhered. The nut screws on to the screw shaft having a predetermined length. The nut is provided with at least one non-meshing part that does not mesh with the screw shaft and is formed parallel to a movement direction thereof. The non-meshing part extends from a forward end of the nut to a rear end thereof along whole length of the nut.

An electrical connector includes a barrel type terminal, having a first connecting area and a second connecting area. The first connecting area has a first non-soldering surface and a first soldering surface. The second connecting area has a second non-soldering surface and a second soldering surface. Each of the first and second soldering surfaces and the first and second non-soldering surfaces has a first solder layer. A sleeve sheathes outside the barrel type terminal, and has a first fixing area and a second fixing area. Two second solder layers are provided between the first fixing area and the first soldering surface and between the second fixing area and the second soldering surface. The amount of solder provided between the first fixing area and the first soldering surface and between the second fixing area and the second soldering surface is greater than that provided on the first and second non-soldering surfaces.

An electrical connector includes a barrel type terminal, having a first connecting area and a second connecting area. The first connecting area has a first non-soldering surface and a first soldering surface. The second connecting area has a second non-soldering surface and a second soldering surface. Each of the first and second soldering surfaces and the first and second non-soldering surfaces has a first solder layer. A sleeve sheathes outside the barrel type terminal, and has a first fixing area and a second fixing area. Two second solder layers are provided between the first fixing area and the first soldering surface and between the second fixing area and the second soldering surface. The amount of solder provided between the first fixing area and the first soldering surface and between the second fixing area and the second soldering surface is greater than that provided on the first and second non-soldering surfaces.

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 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.