A method of manufacturing a mounting substrate, the method includes: transferring part or all of a plurality of devices on a device substrate onto a wiring substrate, and temporarily fixing the transferred devices to the wiring substrate with use of a fixing layer having viscosity, the device substrate including a support substrate and the plurality of devices fixed on the support substrate; and performing a reflow process on the wiring substrate to electrically connect the transferred devices with the wiring substrate, and thereby forming the mounting substrate.

The invention relates to a soldering system and a method for wave soldering, having at least one flux nozzle and a device for monitoring a state of a spray jet of the flux nozzle.

An apparatus includes a fin pack of parallel plates that protrude from a base, a lid attachable to the fin pack opposite the base, and a brazing material painted onto the lid only in a plurality of wettable regions. The lid is positioned against the fin pack, opposite the base, with portions of the plurality of regions contacting edges of the parallel plates. The lid is brazed to the fin pack without intrusion of the brazing material between the parallel plates. This is accomplished by obtaining a lid to be attached to a fin pack of parallel plates that protrude from a base, painting the lid with the brazing material only in a plurality of wettable regions, positioning the lid against the fin pack, opposite the base, with portions of the plurality of regions contacting edges of the parallel plates, and brazing the lid to the fin pack.

Implementations of the disclosure are directed to a lead-free mixed solder powder paste suitable for low temperature to middle temperature soldering applications. The lead-free solder paste may consist of: an amount of a first solder alloy powder between 44 wt % and 83 wt %, the first solder alloy powder comprising Sn; an amount of a second solder alloy powder between 5 wt % to 44 wt %, the second alloy powder comprising Sn, where the first solder alloy powder has a liquidus temperature lower than a solidus temperature of the second solder alloy powder; and a remainder of flux. The solder paste may be used for reflow at a peak temperature below the solidus temperature of the higher solidus temperature solder powder but above the melting temperature of the lower solidus temperature one.

An enclosed heat sink with a side wall structure is provided. The side wall structure includes a welding body having a first welding plane and a side wall structure having a second welding plane. The first welding plane and the second welding plane are pressured and welded to each other, such that the welding body and the side wall structure encapsulate a cavity. A width of the second welding plane is smaller than a width between two side surfaces of the side wall structure.

This document describes systems and techniques of a depth-adaptive mechanism for ball grid array dipping. In an aspect, a depth-adaptive mechanism having a tensioned mesh is positioned in a reservoir filled with flux. When solder balls of an integrated circuit component are dipped into the reservoir of flux, the solder balls are pressed up against the tensioned mesh. The tensioned mesh is configured to, first, elastically deform under the downward force applied by the solder balls and, second, provide an equal and opposite pushing force in order to facilitate solder ball extraction. In so doing, the solder balls of an integrated circuit component can be more easily extracted from flux when deep ball grid array dipping is performed.

The present invention provides a method for manufacturing an electronic device including a base material that has an exposed metal portion on a surface of the base material and an electronic component that is provided on the base material. The method includes a flux treatment step of treating the exposed metal portion with a flux by bringing the exposed metal portion into contact with the flux and an introduction step of introducing a resin composition such that the resin composition comes into contact with a surface of the exposed metal portion treated with the flux. The flux contains a rosin, an activator, and a solvent. The content of the rosin is equal to or greater than 1 part by mass and equal to or smaller than 18 parts by mass with respect to 100 parts by mass of the flux. The percent change in mass of the flux before and after a heating treatment is equal to or lower than 21% by mass. The resin composition contains an epoxy resin and a phenolic resin curing agent. In a case where SP1 represents a Hansen's method-based average solubility parameter of a resin group consisting of the epoxy resin and the phenolic resin curing agent in the resin composition, and Mn1 represents a number average molecular weight of the resin group, SP1 and Mn1 satisfy Mn1≤210×SP1−4,095.

A solder joint, for bonding an electrode of a circuit board to an electrode of an electronic component, that includes: an Sn—Bi-based solder deposited on the electrode of the circuit board; and a solder alloy deposited on the electrode of the electronic component. The Sn—Bi-based solder alloy has a lower melting point than the solder alloy deposited on the electrode of the electronic component. Fine Bi phases in the solder joint each have an area of less than or equal to 0.5 μm.sup.2. Coarse Bi phases in the solder joint each have an area of greater than 0.5 μm.sup.2 and less than or equal to 5 μm.sup.2. A proportion of the fine Bi phases among the fine Bi phases and the coarse Bi phases is greater than or equal to 60%.

In component mounting for mounting a pin connecting component having a pin on a board having a through-hole electrode, a solder paste is printed on the through-hole electrode through a screen mask having an opening corresponding to the through-hole electrode, a flux is transferred onto the pin by holding the pin connecting component and immersing the pin into a flux tank filled with the flux, and the pin onto which the flux is transferred is inserted into the through-hole electrode on which the solder paste is printed to mount the pin connecting component on the board.

A soldering tool for inductive soldering, includes an induction loop and an induction generator that is electrically conductively connected to the induction loop, wherein the induction loop consists of a metal profiled element, has at least one U-shaped region or two U-shaped regions, and each U-shaped region has in each case two legs and an end region connecting the legs, the at least one U-shaped region has a length L of at least 3 mm to 500 mm and a width B of 2 mm to 30 mm.