Systems and methods for applying solder to a pin. The methods comprising: disposing a given amount of solder on a non-wetable surface of a planar substrate; aligning the pin with the solder disposed on the non-wetable surface of the planar substrate; inserting the pin in the solder; and/or performing a reflow process to cause the solder to transfer from the planar substrate to the pin.

Provided are a lead-free and antimony-free solder alloy, a solder ball, and a solder joint, which have improved shear strength obtained by grain minuteness at a bonded interface and can suppress fusion failure. The lead-free and antimony-free solder alloy has an alloy composition consisting of, by mass %, 0.1 to 4.5% of Ag, 0.20 to 0.85% of Cu, 0.005 to 0.090% of Ni, and 0.0005 to 0.0090% of Ge with the balance being Sn, and the alloy composition satisfies the following relations (1) and (2): 0.006≤(Ag+Cu+Ni)×Ge<0.023 (1), (Sn/Cu)×(Ni×Ge)/(Ni +Ge)<0.89 (2). Ag, Cu, Ni, Ge, and Sn in the relations (1) and (2) each represent the contents (mass %) in the alloy composition.

The present invention provides a laser soldering device including a transfer unit configured to transfer a plurality of objects, a solder unit configured to operate under control of the controller to solder the object positioned on the transfer unit, and form a bonding surface by performing the soldering by a laser beam, and at least one nozzle unit in which a solder ball to which the laser beam is irradiated is accommodated, in which the laser beam irradiated from the solder unit is eccentric with respect to a center line of the solder ball and adjusted to be irradiated.

An approach for transferring solder to a laminate structure in IC (integrated circuit) packaging is disclosed. The approach comprises of a device and method of applying the device. The device comprises of a substrate, a laser ablation layer and solder layer. The device is made by depositing a laser ablation layer onto a glass/silicon substrate and plenty of solder powder/solder pillar is further deposited onto the laser ablation layer. The laminate packaging substrate includes pads with a pad surface finishing layer made from gold. The solder layer of the device is bonded to the laminate packaging substrate. Once bonded, using laser to irradiate the laser ablation layer, the substrate is removed from the laminate.

Systems and methods for applying solder to a pin. The methods comprising: disposing a given amount of solder on a non-wetable surface of a planar substrate; aligning the pin with the solder disposed on the non-wetable surface of the planar substrate; inserting the pin in the solder; and performing a reflow process to cause the solder to transfer from the planar substrate to the pin.

An applying method includes the following steps. Firstly, a conductive adhesive including a plurality of conductive particles and an insulating binder is provided. Then, a carrier plate is provided. Then, a patterned adhesive is formed on the carrier plate by the conductive adhesive, wherein the patterned adhesive includes a first transferring portion. Then, a manufacturing device including a needle is provided. Then, the needle of the manufacturing device is moved to contact the first transferring portion. Then, the transferring portion is transferred to a board by the manufacturing device.

A fluid supply apparatus includes a container supply holder configured to supply a container to a cap separator using a loading box, the container including a detachable nozzle cap, and configured to store a process fluid, a cap separator configured to receive the container from the loading box and separate the nozzle cap from a container body of the container using a cap clamper and a rotation actuator, the cap clamper configured to clamp and hold the nozzle cap, and the rotation actuator configured to rotate the container body, a fluid supplier configured to supply the process fluid contained in the container body through a fluid supply line, and a controller configured to control the container supply holder, the cap separator, and the fluid supplier.

A press-forming device for forming individual solder bodies from a wire of soldering material includes a press-forming mechanism and a separation means. The press-forming mechanism forms a continuous strand of preformed solder sections from the wire by using two notched rollers that rotate in opposite directions and that press opposite notches into the wire. The preformed solder sections are disposed equidistantly along the strand and are connected to each other by connecting links disposed at the notches. The separation means forms individual solder bodies by separating the preformed solder sections one by one at the connecting links. The separation means separates individual preformed solder sections using a cutting mechanism that moves in a direction perpendicular to the length direction of the strand. Individual solder bodies are transported to a solder jetting section where they are liquefied by a laser beam and jetted from the solder jetting section by gas pressure.

A laser-assisted soldering apparatus includes a solder jetting section and a laser coupling unit. The solder jetting section includes a jetting nozzle and a solder body holding capillary adapted to hold a solder body that is being liquefied by a laser beam. The laser coupling unit includes an optical window, a laser entry, a laser passage, a fastening section, and a laser exit. The laser passage extends from the laser entry to the laser exit and is aligned with the solder body holding capillary. The optical window is transparent to the laser beam. The fastening section is fastened to the solder jetting section. A first pressure gas feeding passage merges into the laser passage between the optical window and the fastening section. The solder jetting section includes a second pressure gas feeding passage that merges into the solder body holding capillary between the laser exit and the jetting nozzle.

The invention relates to a solder ball feeding device, comprising a solder ball reservoir for receiving an amount of solder balls and a metering device for dispensing a metered feeding amount of solder balls to a discharge device, wherein the metering device comprises an ultrasound device and a dispensing nozzle with a dispensing cannula, the ultrasound device serving to apply vibrations to the dispensing nozzle, and the solder ball reservoir or the dispensing nozzle of the solder ball reservoir being provided with a pressure connection which serves to introduce a pressurized gas into the solder ball feeding device.