A thermal managing electrical connection tape includes a carrier film and a composition including solder powder, with the composition being applied to the carrier film. The composition includes a soldering flux having the solder powder disposed therein. The composition contains between about 50 wt % and about 70 wt % soldering flux. The composition further contains between about 30 wt % and about 50 wt % solder powder. A method of fabricating a thermal managing electrical connection tape includes providing a composition including at least one of a soldering flux and epoxy and/or acrylic, adding a solder powder to the composition, casting the composition on a carrier film, drying the carrier film in a drying furnace to form a dried tape, and cutting the dried tape to a desired width to form a thermal managing electrical connection tape.

A thermal managing electrical connection tape includes a carrier film and a composition including solder powder, with the composition being applied to the carrier film. The composition includes a soldering flux having the solder powder disposed therein. The composition contains between about 50 wt % and about 70 wt % soldering flux. The composition further contains between about 30 wt % and about 50 wt % solder powder. A method of fabricating a thermal managing electrical connection tape includes providing a composition including at least one of a soldering flux and epoxy and/or acrylic, adding a solder powder to the composition, casting the composition on a carrier film, drying the carrier film in a drying furnace to form a dried tape, and cutting the dried tape to a desired width to form a thermal managing electrical connection tape.

The present invention provides a solder paste free of reducing agents and activators, and a method for producing a soldered product in which the solder paste is used to achieve solder bonding. The solder paste for reducing gas of the present invention is a solder paste for reducing gas used together a reducing gas. The solder paste contains a solder powder; a thixotropic agent that is solid at normal temperature; and a solvent, and is free of reducing agents for removal of oxide films and free of activators for improvement of reducibility.

The present invention provides a solder paste free of reducing agents and activators, and a method for producing a soldered product in which the solder paste is used to achieve solder bonding. The solder paste for reducing gas of the present invention is a solder paste for reducing gas used together a reducing gas. The solder paste contains a solder powder; a thixotropic agent that is solid at normal temperature; and a solvent, and is free of reducing agents for removal of oxide films and free of activators for improvement of reducibility.

A heat transfer device for thermal coupling of a component to be soldered, having a heat source and/or a heat sink in a soldering machine, with at least one base plate which is designed to be in thermal contact at least with the heat source and/or the heat sink. The base plate has a plurality of contact units having a respective contact surface, where the contact surfaces are thermally contactable to the components. The contact units are designed in such a way that the relative distances between the contact surfaces and the surface of the base plate facing the component are changeable. A soldering device, in particular a vacuumable soldering device, is provided having at least one such heat transfer device.

A heat transfer device for thermal coupling of a component to be soldered, having a heat source and/or a heat sink in a soldering machine, with at least one base plate which is designed to be in thermal contact at least with the heat source and/or the heat sink. The base plate has a plurality of contact units having a respective contact surface, where the contact surfaces are thermally contactable to the components. The contact units are designed in such a way that the relative distances between the contact surfaces and the surface of the base plate facing the component are changeable. A soldering device, in particular a vacuumable soldering device, is provided having at least one such heat transfer device.

A gas powered tool (70) comprising a housing (73) and a soldering tool element (72) releasably coupled to the housing (73). A latching element (105) pivotally mounted on a pivot pin (106) in the housing (73) is retained in a non-latching state (FIG. 26) by an abutment element (102) which is urgeable into the housing (73) by the soldering tool element (72) when the soldering tool element (72) is coupled to the housing (73). The latching element (105) is spring biased in the direction of the arrow E from the non-latching state to a latching state (FIG. 27) for latching a switching element (89) in a first state to in turn retain an isolating valve (86), which supplies fuel gas from a reservoir (78) in the housing (73) to the soldering tool element (72), in the isolating state. On decoupling of the soldering tool element (72) from the housing (73), the abutment element (102) is spring urged outwardly and disengages the latching element (105). The latching element (105) pivots about the pivot pin from the non-latching state to the latching state engaging the switching element (89) in the first state, thereby retaining the isolating valve (86) in the isolating state isolating the soldering tool element (72) from the fuel gas in the fuel gas reservoir (78) in the housing (73).

The present application relates to a reflow soldering oven (1) for soldering an electronic circuit board (300), the oven (1) comprising a gas purification system (11, 21) for purifying gas that contains flux components vaporized from the electronic circuit board (300). The gas purification system further comprises at least one gas purification unit (11, 21) comprising a catalyst unit comprising a catalyst material. The invention further relates to a corresponding reflow soldering method.

The present application relates to a reflow soldering oven (1) for soldering an electronic circuit board (300), the oven (1) comprising a gas purification system (11, 21) for purifying gas that contains flux components vaporized from the electronic circuit board (300). The gas purification system further comprises at least one gas purification unit (11, 21) comprising a catalyst unit comprising a catalyst material. The invention further relates to a corresponding reflow soldering method.

A processor receives solder paste information, where the solder paste information describes a solder paste used in assembly of a printed circuit board. A processor determines a minimum magnetic force required for removing the solder paste from the printed circuit board based on the solder paste information. A processor receives electromagnet information, where the electromagnet information describes an electromagnet used in cleaning of a misprint of the solder paste on the printed circuit board. A processor determines a minimum amount of power to provide the electromagnet to induce the minimum magnetic force in the electromagnet, where the determination of the amount of power is based on the electromagnet information and the minimum magnetic force. A processor adjusts an amount of power applied to the electromagnet to at least the determined minimum amount of power to clean the misprint of the solder paste from the printed circuit board.