Abstract: Disclosed are an apparatus for adhering solder powder to finely adhere the solder powder to an electronic circuit board and a method for adhering solder powder to the electronic circuit board.

Abstract: A flux spray head, a mask, and an integrated circuit substrate are arranged in a flux spray station to reduce flux overspray during a spraying operation. A support element within the spray station is used to align the substrate with the mask and spray head. A portion of the mask contacts the substrate along a boundary between a region to be sprayed and a region to be masked. The flux spray head sprays the substrate while a portion of the mask is in contact with the boundary of the region to be masked. In an embodiment, the mask may comprise one or more replaceable non-stick stencil elements and associated springs to press the stencil elements against the substrate. Each stencil element may have a wall to contact the substrate along a portion of the boundary.

Abstract: Provided is an apparatus for feeding wire solder with high tensile strength and pull cut resistance. The wire solder has an extended wire solder and a core wire having a higher tensile strength than the wire solder. The apparatus for feeding the wire solder comprises a wire solder storage section where the wire solder with a core wire is stored and a core wire rewinding member that takes up an end of the core wire to rewind the core wire. While the core rewinding member is rotated to rewind the core wire, the single or multiple strands of solder are heated to perform soldering at the location of soldering upstream of the core wire rewinding member.

Abstract: A solder feeder having a housing member with a proximal end and a distal end. A guide member fixed to an interior wall of the housing member and extending through and projecting from the housing member for receiving solder. A trigger, having in combination, a short portion having a plurality of teeth thereon and a long portion. The trigger pivotably attached to the housing member so that the short portion of the trigger extending through an opening in a wall of the housing member in alignment with and cooperating with a slot in a wall of the guide member and the long portion extending externally along a length of the housing member.

Abstract: A ball array mask includes: a metal mask, which includes through holes into which minute balls are inserted, and which is positioned at a location above an object to be mounted; a hollow frame; a stretchable sheet, edges of the metal mask being affixed to the hollow frame by the stretchable sheet; and projection members that are attached to respective corners of the metal mask so as to pull the metal mask outwardly.

Abstract: A micro-bump forming apparatus includes: a film attachment mechanism that attaches a film on a surface of a substrate; exposure and developing mechanisms that provide openings in the film on electrodes formed on the substrate; a solder ball loading mechanism that loads solder balls into the openings, a flux printing mechanism that prints flux through the openings loaded with the solder balls; a reflow part that heats the solder balls to form solder bumps; and a film detachment mechanism that detaches the film from the surface of the substrate. After a loading head loads the solder balls into the openings of the film, a controller of the solder ball loading mechanism allows a line sensor to operate to check a loading state of the solder balls, and determines, based on the check result, whether to reload the solder balls.

Abstract: There is provided a bump printing apparatus and a method of controlling the same that can increase the printability of solder bumps being printed on a board. The bump printing apparatus may include a printing table onto which a board is mounted; a mask making close contact with the board and printing solder bumps on the board by separating the mask from the board after a printing operation; and air nozzles provided within the printing table and providing air suction to bring the board into close contact with the printing table and spraying air to separate the mask from the board.

Abstract: Disclosed herein is a jig for solder ball attachment capable of sensing whether missing balls occur by electrical sensing using an electrical sensor structure in which a conductive thin film is embedded in the jig and electrically sensing whether abnormal solder balls, for example, large ball/small ball/ball size are attached, without confirming whether abnormal solder balls, for example, large ball/small ball/ball size are attached by vision one by one, thereby shortening operating time and improving workability.

Abstract: A soldering device includes a tip member and a temperature sensor embedded within the tip member by a buckled copper pipe that is thermally conductive. A soldering device includes a tip member and a temperature sensor embedded within the tip portion by application of a crimping force that deforms the tip portion onto the temperature sensor. A soldering device includes a tip member, a heater member, and a thermally conductive wedge that is pushed into a gap between the tip member and the heater member. A soldering device includes a tip cartridge carried by a handle assembly that includes an o-ring and an o-ring cover that keeps the o-ring from falling off of the handle assembly. The o-ring cover includes a hook portion that engages a catch feature of the handle housing.

Abstract: Embodiments of the present invention include a welding wire feeder enclosure, the enclosure including a front, a rear, a top, and a bottom forming a perimeter of the enclosure. The enclosure further includes opposing side openings separated by a width of the enclosure, each of the side openings being adapted for receiving a side panel. Particular embodiments further include a divider panel extending substantially between the front, rear, top, and bottom, and positioned along an intermediate portion of the width of the enclosure to divide an internal volume of the enclosure into a service side and a user side, the divider panel being formed monolithically with the front, rear, top, and bottom of the enclosure, the divider panel further including an integral spindle shaft location.

Abstract: A system and method of feeding wire is provided using at least one roller which is biased towards the wire. The at least one roller is permitted to deflect a limited amount during the wire feeding operation. The roller is permitted to deflect 50% or less than the wire diameter during feeding to prevent tangling.

Abstract: The invention relates to a device for applying an electronic component having terminal faces, to a substrate, also having terminal faces, wherein the component is removed from a feeding device by means of an application device. An application device subsequently positions the component on the substrate in such a manner that the component terminal faces which extend from a contact side of the component up to a component rear side and the substrate terminal faces are in an overlapping position. A direct application of laser energy subsequently contacts the terminal faces to the component terminal faces. The application device has a contact nozzle with a component accommodating area for accommodating the component. The contact nozzle has a vacuum opening coupled to a vacuum duct and an emission opening for applying laser radiation to the component.

Abstract: A laser cladding device for applying a coating to a part comprising a laser which can generate laser light, which is adapted to heat the coating and the part, a main body defining a laser light channel adapted to transmit the laser light to the part, a coating channel adapted to transmit the coating to the part, and a vacuum channel and a nozzle having an exit. The nozzle comprises a delivery port at one end of the laser light channel, a coating port at one end of the coating channel, and a vacuum port at one end of the vacuum channel, wherein the vacuum port is positioned generally adjacent the delivery port In operation the vacuum port draws a vacuum, pulling the coating towards the part.

Abstract: Disclosed herein is a jig for solder ball attachment capable of sensing whether missing balls occur by electrical sensing using an electrical sensor structure in which a conductive thin film is embedded in the jig and electrically sensing whether abnormal solder balls, for example, large ball/small ball/ball size are attached, without confirming whether abnormal solder balls, for example, large ball/small ball/ball size are attached by vision one by one, thereby shortening operating time and improving workability.

Abstract: The present invention aims at providing an electronic component mounting apparatus and an electronic component mounting method that perform automated setting of a thickness of a paste film.

Abstract: A solder ball loading method capable of securely loading solder balls on connection pads includes applying flux on each connection pad group of a printed wiring board flux is not applied to a contact portion between a spacer and the printed wiring board to keep the flux from attaching to the spacer. Because the flux is not attached to the spacer, when the mask is detached from the printed wiring board, the printed wiring board need not be inverted, and damage to the solder resist layer 70 is minimized. Further, the heights of the solder balls and the upper surface of the mask are made equal by using the spacer, making it possible to securely load the solder balls on the electrode pads, one solder ball for each connection pad, and to reduce a probability that solder balls are not loaded or that a plurality of the solder balls are loaded onto a single connection pad.

Abstract: A solder ball loading method capable of securely loading solder balls on connection pads includes applying flux on each connection pad group of a printed wiring board flux is not applied to a contact portion between a spacer and the printed wiring board to keep the flux from attaching to the spacer. Because the flux is not attached to the spacer, when the mask is detached from the printed wiring board, the printed wiring board need not be inverted, and damage to the solder resist layer 70 is minimized. Further, the heights of the solder balls and the upper surface of the mask are made equal by using the spacer, making it possible to securely load the solder balls on the electrode pads, one solder ball for each connection pad, and to reduce a probability that solder balls are not loaded or that a plurality of the solder balls are loaded onto a single connection pad.

Abstract: A surplus ball removing apparatus including a substrate stage, a substrate including a connection pad, a mask with opening to supply conductive ball onto the substrate, a surplus ball adhering head for removing surplus ball mounted on the substrate, adhering head moving system, an image processing portion, an adhesive material stage, and a ball recovering stage.

Abstract: A solder ball loading apparatus for loading solder balls onto pads of a printed wiring board includes a holding device for holding a printed wiring board having pads and holding a ball array mask having openings that correspond to the pads, one or more cylinder members is positioned over the holding device such that an opening portion of the cylinder member faces the holding device, the cylinder member gathering solder balls on the surface of the ball array mask under the cylinder member by suctioning air through the opening portion. A conveyor mechanism for moving the ball array mask and the printed wiring board relative to the cylinder member such that solder balls gathered under the opening portion of the cylinder member can be loaded onto the pads of the board through the openings of the mask held by the holding device.

Abstract: A device for mounting an array of solder balls to a plurality of substrates of integrated circuits, comprising: a first plate for receiving a first substrate in a loading position; said first plate adapted to translate laterally from a substrate loading position to a flux receiving position; said first plate further adapted to rotate 180° from the substrate loading position to a such that the first plate is in a solder ball receiving position, and; mounting solder halls to the first plate.

Abstract: The periphery of a mask (3) is formed higher than a region where a ball holding hole (3a) is formed, a work (1) is arranged at a lower section of the ball holding hole (3a) of the mask (3), and the ball holding hole (3a) and an electrode of the work (1) are aligned with each other. A ball (B) is applied on the mask (3), and in such state, vibration is applied to the mask (3) to move the solder ball (B) on the surface of the mask (3) and drop the solder ball (B) into the ball holding hole (3a). The periphery of the mask (3) is permitted to be lower than the ball holding hole (3a), and an excessive portion of the solder ball (B) is recovered from over the mask (3).

Abstract: A wire alignment tool for use during soldering is disclosed. The tool includes a handle configured to contain a supply of solder, a solder advancement mechanism constructed and arranged to move the supply of solder from the handle to a soldering locus, and a clamping mechanism constructed and arranged to maintain two or more wires to be soldered at the soldering locus.

Abstract: A solder ball loading apparatus for loading solder balls onto pads of a printed wiring board includes a holding device for holding a printed wiring board having pads and holding a ball array mask having of openings that correspond to pads of the printed wiring board, one or more cylinder members positioned over the holding device such that an opening portion of the cylinder member faces the holding device, the cylinder member gathering solder balls on the surface of the ball array mask under the cylinder member by suctioning air through the opening portion of the cylinder member, and a conveyor mechanism for moving the ball array mask and the printed wiring board relative to the cylinder member such that solder balls gathered under the opening portion of the cylinder member can be loaded onto the pads of the printed wiring board through the openings of the ball array mask held by the holding device.

Abstract: Disclosed herein is a mask frame apparatus capable of forming a bump having a micro-pitch without performing the manufacturing and the operation controlling of a separate head apparatus and preventing the reduction of a mounting speed of solder balls due to the repetition of an operation of separately recovering the solder balls after they are mounted on a mask. A mask frame apparatus for mounting solder balls includes: an outer circumferential mask frame configured to supply solder balls and having a hollow type duct shape; and an inner mask duct having a duct shape and positioned over the inside of a circumference of the outer circumferential mask frame so as to be in communication with the outer circumferential mask frame, and including a plurality of mask openings formed in a duct shape bottom surface so that the solder balls introduced through the hollow type outer circumferential mask frame are mounted on a substrate by the flow of air.

Abstract: A solder ball mounting apparatus includes a hopper, a mounting head provided at a tip of the hopper, and a pressing pin which is insertable inside the hopper and the mounting head. The mounting head has an inner diameter which restricts movement of solder balls, and when one of the solder balls is supplied to the mounting head through the hopper, the pressing pin presses one of the solder balls, thereby mounting the solder balls one by one on a target member.

Abstract: Provided is a wire solder with high tensile strength and pull cut resistance. An apparatus for feeding the wire solder is also provided. The wire solder has an extended wire solder and a core wire having a higher tensile strength than the wire solder. The core wire is made of thermosetting resin or Joulean heat generating material. The wire solder has a single or multiple strands bound together. The wire solder is supplied from upstream of a location of soldering while the core wire is rewound under tension at a location downstream of the location of soldering. The apparatus for feeding the wire solder comprises a wire solder storage section where the wire solder with a core wire is stored and a core wire rewinding member that takes up an end of the core wire to rewind the core wire. While the core rewinding member is rotated to rewind the core wire, the single or multiple strands of solder are heated to perform soldering at the location of soldering upstream of the core wire rewinding member.

Abstract: Disclosed is a method and apparatus for the correction of defective solder bump arrays arranged in a plurality of cavities in a mold. In the method, a faulty solder bump is searched, identified and located (i.e., its position is determined) in an arrangement of solder bumps disposed in cavities of a mold and the faulty solder bump is subsequently replaced by a prefabricated solder bump. The apparatus for carrying out the method comprises a mold holder, a scanning and locating device for finding and locating faulty solder bumps and a repair device for replacing the faulty solder bump by a prefabricated solder bump.

Abstract: A conductive ball arraying apparatus includes an arraying jig having ball insertion parts at a predetermined array pattern, a ball cup that has an opening part on a lower surface thereof and is capable of housing a plurality of conductive balls, moving means that moves the arraying jig and the ball cup relatively and moves the ball cup relatively along an upper surface of the arraying jig and dropping off the conductive balls into the ball insertion parts of the arraying jig. The apparatus includes means for detecting a quantity of the conductive balls in the ball cup and detects as to whether the quantity of the conductive balls in the ball cup reaches at least one of an upper limit and a lower limit and/or means for detecting leakage of the conductive balls from a clearance between the ball cup and the arraying jig.

Abstract: A soldering iron tip is used for heating a solder bar during a soldering operation so as to solder a workpiece. An end surface of the soldering iron tip has a guide hole, and the guide hole forms a channel in the soldering iron tip. Meanwhile, a side surface of the soldering iron tip has a through hole in communication with the channel. When the soldering operation is performed, relative positions of the guide hole and the workpiece overlap each other. After the solder bar is made to pass through the through hole and heated inside the channel, the molten solder bar flows along the channel to reach the workpiece via the guide hole, thereby completing the soldering operation.

Abstract: A method of brazing a pipe member to a counterpart member includes steps of mounting in a circumferential direction an engaging portion in a ring shape to an outer periphery of the pipe end portion proximate an endmost portion of the pipe member, engaging a brazing-filler-metal-made ring in a ring shape with the engaging portion, inserting the pipe end portion of the pipe member provided with the brazing-filler-metal-made ring into the counterpart member, heating and melting the brazing-filler-metal-made rug with the outer peripheral surface of the pipe end portion being in abutment with the inner peripheral surface of the counterpart member, pouring a brazing filler metal into an abutment portion between the outer peripheral surface of the pipe end portion and the inner peripheral surface of the counterpart member, and securing by brazing the pipe end portion to the counterpart member.

Abstract: Metal nanoink (100) for bonding an electrode of a semiconductor die and an electrode of a substrate and/or bonding an electrode of a semiconductor die and an electrode of another semiconductor die by sintering under pressure is produced by injecting oxygen into an organic solvent (105) in the form of oxygen nanobubbles (125) or oxygen bubbles (121) either before or after metal nanoparticles (101) whose surfaces are coated with a dispersant (102) are mixed into the organic solvent (105). Bumps are formed on the electrode of the semiconductor die and the electrode of the substrate by ejecting microdroplets of the metal nanoink (100) onto the electrodes, the semiconductor die is turned upside down and overlapped in alignment over the substrate, and then, the metal nanoparticles of the bumps are sintered under pressure by pressing and heating the bumps between the electrodes. As a result, generation of voids during sintering under pressure is minimized.

Abstract: Wire is fed to a bonding tool of a wire bonder by a pneumatic device that is operative to urge the wire to feed through an outlet of the pneumatic device towards the bonding tool. A wire clamp is located adjacent to the outlet of the pneumatic device and a wire guider with a hole is located adjacent to the wire clamp between the wire clamp and the bonding tool for threading the wire through the hole before being fed to the bonding tool.

Abstract: A solder ball mounting device that can mount minute solder balls with a diameter of 200 ?m or less onto a connection pad. The solder ball mounting device can mount solder balls to be solder bumps on a printed circuit board using a mask having a plurality of openings corresponding to electrodes of a printed circuit board. The device includes a cylindrical member, which is positioned above the mask for arraying solder balls, for gathering solder balls immediately below the openings by sucking in air from the openings. A movement mechanism is for moving the cylindrical member horizontally relative to the mask for arraying solder balls, wherein solder balls gathered on the mask for arraying solder balls are moved by moving the cylindrical member and are then dropped on electrodes of the printed circuit board via openings of the mask for arraying solder balls.

Abstract: In a mounting system having a height measuring instrument for measuring the height of solder paste printed on the electrodes and an electronic component placing apparatus, whether the height of solder paste is right or wrong is determined based on the measurement result of measuring the height of solder paste printed on the electrode. Further, whether or not the transfer of solder paste to the solder bump is required based on the determination result, and if it is determined that the transfer is required, the paste is transferred to an electronic component held in a mounting head. Thereby, the mounting quality can be assured by adding adequately an amount of solder in treating the board causing a shortage of the solder amount due to printing failure.

Abstract: In a method of removing conductive balls that are left on a mask provided on a substrate having pads thereon, the method includes: (a) making a sheet member close to the mask using a contacting mechanism such that a gap between the sheet member and the mask is set small than a diameter of the conductive balls. The conductive balls are removed in such a manner that the conductive balls are adhered onto the sheet member.

Abstract: A solder ball loading unit for loading a solder balls to be turned to a solder bumps on a connection pad of a printed wiring board, including a ball arranging mask having a plurality of openings corresponding to the connection pad of the printed wiring board, a cylinder member located above the ball arranging mask for gathering the solder balls just below the opening portion by sucking air from the opening portion, and a moving mechanism for moving the cylinder member in the horizontal direction, the moving mechanism moving the solder balls gathered on the ball arranging mask by moving the cylinder member and dropping the solder balls onto the connection pads of the printed wiring board through the opening in the ball arranging mask.

Abstract: A method of mounting a conductive ball according to the present invention includes the steps of, disposing a mask on a substrate including connection pads, the mask having opening portions corresponding to the connection pad, supplying conductive balls on the mask, arranging the conductive balls on the connection pad of the substrate through the opening portions of the mask by moving the conductive balls to one end side of the mask by ball moving member (a brush), and removing excess conductive balls remaining on a region of the mask where the opening portions are provided, by bonding the excess conductive balls to a ball removal film (adhesive film).

Abstract: There is provided a bump printing apparatus that can improve the printability of solder bumps printed on a board. The bump printing apparatus may include a printing table onto which a board is mounted; a mask making close contact with the board and printing solder bumps on the board by separating the mask from the board after a printing operation; and mask tables extending from the printing table to edges of the mask and sucking the edges of the mask to bring the edges of the mask into close contact with the board under vacuum.

Abstract: A soldering apparatus has a fixture receiving an electronic component and a conducting wire, with a free end of the conducting wire superimposed on the soldering area of the electronic component, a convey mechanism capable of transmitting the fixture downstream, a daubing device, and a soldering device. The daubing device has a level movable element capable of moving along a convey direction of the convey mechanism, and a vertical movable element mounted on the level movable element and capable of moving along an upward and downward direction. A carrier mounted to the vertical movable element has a solder paste can for loading the solder paste, and an output portion for dispensing the solder paste to the soldering area. The soldering device has a soldering head heating the solder paste for shrinking the insulator, with the core wire exposing and connected to the soldering area by the cool solder paste.

Abstract: A mask (stencil) having cells (openings) is disposed on a surface of a heater stage, and is then filled (printed) with solder paste. Then a substrate is assembled to the opposite side of the mask. Then the solder paste is reflowed. This may be done partially inverted. Then the mask is separated from the substrate, either before or after cooling. Solder balls are thus formed on the substrate, which may be a semiconductor wafer. A biased chuck urges the substrate into intimate contact with the mask. A method for printing the mask with solder paste is described. Methods of forming high aspect ratio solder bumps (including balls and reflowable interconnect structures) are described.

Abstract: There is provided a bump printing apparatus that can improve the printability of solder bumps printed on a board. The bump printing apparatus may include a printing table onto which a board is mounted; a mask making close contact with the board and printing solder bumps on the board by separating the mask from the board after a printing operation; and mask tables extending from the printing table to edges of the mask and sucking the edges of the mask to bring the edges of the mask into close contact with the board under vacuum.

Abstract: The present invention provides a solder ball printing apparatus in which solder balls are uniformly dispersed on a mask surface and are loaded into an opening area of the mask. A solder ball shaking and discharging unit includes a solder ball reception unit which receives solder balls from a solder ball reservoir unit, a wire member in a convex shape which is attached to surround a solder ball shaking and discharging port of the solder ball shaking and discharging unit and in which a plurality of wire members are arranged at predetermined intervals, and solder ball rotating and collecting mechanisms which sweep and collect the solder balls at the wire member in a convex shape.

Abstract: The invention relates to an apparatus and a process for the preferably uneven application of flux to a material surface, in particular to the finned side of a plate of a plate-type radiator.

Abstract: The system contains a substrate having at least one electrical trace formed thereon. An opening is formed in the substrate. The opening comprising at least one wall. An electrically conductive fill is formed in the opening. The electrically conductive fill is chemically bonded to the wall and electrically contacted with the electrical trace.

Abstract: A method for soldering or welding components in a series production wherein: a fixing seam which connects the components (1, 2) is produced by melting a connecting material (3), which is supplied as an additional material or is formed by a base material of the components (1, 2), along a joint formed by the components (1, 2); and a volume-forming layer of connecting material is deposited onto the fixing seam by melting, or the fixing seam produced by means of the connecting material supplied as an additional material is re-melted.

Abstract: In a conductive ball mounting apparatus for mounting one conductive ball on each of a plurality of pads which are provided on a substrate and on which an adhesive is formed, the conductive ball mounting apparatus includes: a conductive ball container for containing a plurality of conductive balls therein and having an opening to pass through the plurality of conductive balls; a substrate holder disposed over the conductive ball container to face the opening, and holding the substrate in such a manner that the plurality of conductive balls and the plurality of pads face each other and the substrate is disposed over the conductive ball container with a space therebetween; and a conductive ball supplying unit for supplying the plurality of conductive balls to the plurality of pads via the opening by moving up the plurality of conductive balls.

Abstract: To provide an electronic component placing apparatus and an electronic component mounting method that can prevent a cold joint from occurring when an electronic component likely to cause warp deformation is mounted by means of soldering. In the electronic component placing apparatus for placing the electronic component 16 with a plurality of solder bumps 16a formed on a lower surface on a board, a film 7a having a film thickness distribution for transferring a desired transfer amount of solder paste according to a state of warp deformation to each of the plurality of solder bumps is formed in a paste transfer unit 24, based on the component warp information indicating the state of warp deformation in a reflow process of the electronic component. Thereby, it is possible to prevent a cold joint from occurring when the electronic component likely to cause warp deformation is mounted by means of soldering by additionally supplying a just enough amount of solder to each solder bump 16a.

Abstract: The present invention relates to a transfer device (10) for receiving and transferring a solder ball arrangement (28). Said transfer device comprises a discharge container (11) and a transfer substrate (12) that interacts with the discharge container in order to obtain a flat solder ball arrangement and that can be subjected to a negative pressure. The discharge container comprises an at least partially perforated base wall (14) and the transfer substrate has a hole pattern for receiving the solder ball arrangement. The discharge container comprises an ultrasound device (37) for subjecting said discharge container to ultrasound vibrations.

Abstract: A substrate manufacturing apparatus manufactures a ball-mounted substrate and has a ball mounting apparatus which includes a ball vacuum chucking apparatus including a vacuum chucking head that carries out a vacuum chucking process to chuck balls at edges of inlets formed in a vacuum chucking surface and which mounts the balls vacuum-chucked by the vacuum chucking head on a substrate, the ball vacuum chucking apparatus further including: a holding vessel that holds the balls; and a vacuum chucking/holding unit that vacuum chucks and holds the balls held in the holding vessel on a front end thereof, and carrying out a supplying process that brings the vacuum chucking/holding unit that holds the balls on the front end thereof and the vacuum chucking surface of the vacuum chucking head relatively close to supply the balls to the vacuum chucking head while air is being drawn through the inlets.

Abstract: An apparatus for improved narrow-gap welding is provided. The apparatus includes an inert gas tube within which a contact tube is arranged, the contact tube includes a wire feed for a melting wire. The contact tube is coolable in the interior. In another embodiment, the apparatus is formed from an inner core and an outer jacket wherein at the end of the contact tube, the contact tube has a ceramic coating. The coating is applied to the outer jacket and/or the inner core.