Abstract: The present invention includes a mechanical joint between a die and a substrate that is reflowed by microwave energy and a method of forming such a mechanical joint by printing a solder over a substrate, placing the solder in contact with a bump over a die, reflowing the solder with microwave energy, and forming a mechanical joint from the solder and the bump.

Abstract: An apparatus for placing spheres at predetermined positions on a substrate. The apparatus includes a platform to support the substrate at a first sphere placement position in the apparatus, and a placement station disposed above the platform that places spheres at locations on the substrate. The placement station includes a first container having a chamber to contain spheres, and a first carrier tray having a substantially horizontal upper surface that forms a lower surface of the chamber. The upper surface has a first section and a second section, the second section having a plurality of holes formed therein to receive spheres. The first carrier tray is movable to position the second section between a fill position beneath the first container and a place position disposed over the first sphere placement position.

Abstract: A solder structure comprising a radially-curved exterior surface enclosing a predetermined-sized cavity used for flexibly joining together at predetermined conductive contact points two planar elements having dissimilar properties. By assembling the two planar elements in a tiered arrangement, one planar element having an annular conductive pad and the other planar element having either a corresponding annular or circular conductive pad, separated by a spherical solder compound comprised of solder and a fluxing agent, a hollow solder structure can be created during a melting and subsequent cooling of the solder compound. The plasticity/resiliency characteristics of the resulting hollow solder structure absorbs lateral movement of the two planar elements relative to each other without degradation of the solder joint.

Abstract: An apparatus and method for high speed, reliable and repeatable delivery and reflow of solder material onto a substrate are disclosed. The apparatus has a repositionable capillary to direct individual solder material to a specific location on the substrate. An energy source is directed through the capillary onto the solder to reflow the solder to the substrate. The apparatus provides for individual introduction of the solder material into the capillary and urging of the solder material from a reservoir to the capillary while preventing unintended jams and blockage of the solder material.

Abstract: An arrangement and method for the insertion the leading end of a length of a metallic element into a through hole which is formed in a substrate, and for heat deforming the inserted leading portion of the metallic element into a predetermined configuration prior to severing therefrom the remaining length of the metallic element.

Abstract: Methods and apparatus for forming a plurality of uniformly sized solder balls utilize a stencil having a plurality of holes of uniform volume disposed on a substrate. Solder is disposed in the holes of the stencil on the substrate. Typically, the solder is in the form of solder paste which is distributed into the holes using a squeegee. While within the holes of the stencil on the substrate, the solder is melted to form solder balls. The stencil may then be removed to leave the solder balls on the substrate, or the solder balls may be removed while the stencil remains on the substrate.

Abstract: A refractory braze composition and process for assembling alumina-containing parts to another alumina-based material, metal or a metal alloy by reactive or non-reactive refractory brazing using a braze composition provide assemblies entirely of alumina or containing alumina and a metal or metal alloy. The braze composition is non-reactive with alumina or a reactive composition, whose reactivity with alumina is controlled, and it is formed of aluminium, of titanium, and of a matrix made up either of palladium, or of nickel, or of a nickel and palladium alloy.

Abstract: A brazed bicycle frame and method for making. At least two bicycle frame half-shells are fabricated. A filler metal is then placed between the bicycle frame half-shells to form a two-part hollow frame section. The two-part hollow frame section is inserted into a hot volume at a temperature higher than the melting temperature of the filler metal but lower than the melting temperature of the two bicycle frame half-shells. The filler metal is allowed to melt. The filler metal is then allowed to cool and harden to form a rigid joint. Preferably, the bicycle frame half-shells each have a flange that facilitates alignment fixturing and assembly of the two-part hollow frame sections. Also it is possible for the filler metal and the bicycle frame half-shells to be placed in an extruded or formed grooved section. The grooved section also facilitates alignment fixturing and assembly of the two part hollow frame sections, and helps to strengthen the braze joint.

Abstract: A process for forming a plurality of bumps on a wafer comprises forming a first UBM (under ball metallurgy) over an active surface of a wafer. A second UBM is formed over the first UBM. A part of the second UBM is removed to expose the first UBM. A plurality of solders are respectively formed to cover the second UBM and the first UBM not covered by the second UBM. The first UBM not covered by the second UBM and not covered by the solders is removed.

Abstract: A method of forming bumps on the active surface of a silicon wafer. An under-ball metallic layer is formed over the active surface of the wafer. A plurality of first solder blocks is attached to the upper surface of the under-ball metallic layer. Each first solder block has an upper surface and a lower surface. The lower surface of each first solder block bonds with the under-ball metallic layer. The upper surfaces of the first solder blocks are planarized. A second solder block is attached to the upper surface of each first solder block and then a reflux operation is carried out.

Abstract: Start with a semiconductor substrate with contacts exposed through an insulating layer. Form a base over the contacts, with the base composed of at least one metal layer. Then form a conductive metal layer over the base. Form a mask over the top surface of the conductive metal layer with C4 solder bump openings therethrough with the shape of C4 solder bump images down to the surface of the conductive metal layer above the contacts. Etch away the exposed portions of the conductive metal layer below the C4 solder bump openings to form through holes in the conductive metal layer exposing C4 solder bump plating sites on the top surface of the base below the C4 solder bump openings with the conductive metal layer remaining intact on the periphery of the through holes at the C4 solder bump plating sites. As an option, form a barrier layer over the plating sites next.

Abstract: The present invention is directed to an apparatus and method of solder-sealing an active matrix OLED display using a monochromatic solid-state laser beam (1). The solder-sealing apparatus comprises a cover assembly (13) adapted to be positioned over at least one OLED (11) on a substrate (10), a sealing band (12) surrounding each OLED, a chuck assembly (20) with an array of heat sinks (21) that align with the OLEDs, a pick-up assembly (30) with at least one aperture (33), and a flange assembly (132) to which a solder pre-form (133) is secured. The chuck assembly (20) receives, aligns and orients the substrate (10). A vacuum is then applied through each aperture (33) to align and hold the cover assembly (13) in place. The sealing band (12) and solder pre-form (133) are aligned and pressed together by the pick-up assembly (30), and the focused laser beam (1) is projected through the chuck assembly to seal the OLEDs (11) within the cover assembly (13).

Abstract: Manifold for a heat exchanger intended to be joined by brazing or soldering to heat transfer tubes. A portion of a surface of the manifold that will be joined to the tubes is proved with at least one recess in which a brazing material is mechanically locked.

Abstract: A filling device for and a method of filling balls in an array of apertures in a ball-receiving element, the filling device comprising: a housing including an opening at a lower surface thereof and defining in part a chamber for containing a supply of balls, the housing being in use movably disposed over a ball-receiving element including an array of apertures; and distribution means disposed within the housing for distributing balls contained in the chamber such as to maintain a limited number of layers of the balls over at least a region of the opening in the housing.

Abstract: In a method of applying a brazing material to braze a joining portion between a first member and a second member, a relationship between an amount of the brazing material and an expanding dimension of the brazing material is determined. Then, a position to apply the brazing material or a necessary amount of the brazing material is decided based on the relationship. After the first member and the second member are joined, the brazing material is applied. The position is defined by a distance from the joining portion. The distance is set smaller than one-half the expanding dimension of the brazing material on an applying surface.

Abstract: A metal foil connection of first and second metal foils having a thickness of less than 0.05 mm includes a connecting point in which the metal foils are brazed to one another. The connecting point forms a wedge which is filled with brazing medium. A mass of the brazing medium, and a mass of sections of the metal foils which the brazing medium contacts in the wedge, have a given ratio. A honeycomb body, a brazing medium particle fraction and a method for manufacturing metal foil connections with a thickness of less than 50 micrometers, are also provided.

Abstract: The invention provides an apparatus and method for positioning solder balls in a desired array on a substrate. A positioning means is provided for positioning the solder balls in positions corresponding to the array of positions the solder balls are to take up on the substrate. A container for receiving a plurality of solder balls and which is movable between a first position remote from the positioning means and a second position directly thereover supplies solder balls to the positioning means. Means are provided to bias the solder balls in the direction of movement of the container from the first to the second position whereby to reduce or obviate damage to the solder balls during such movement.

Abstract: A method of forming solder connections on a circuitized substrate having connection pads is provided. A laser ablatable solder mask material, preferably an epoxy, is degassed and then dispensed as a liquid onto the substrate over the circuitization. The surface of the solder mask material as applied is leveled, and the solder mask material is then cured to form a solder mask. Openings are laser ablated in the solder mask material to reveal those connection pads which are to receive solder to form the solder connections. Liquid solder is dispensed under pressure in a confined space into the openings as blades move laterally on top of the solder mask to fill the openings in the solder mask. The solder material is then solidified to form domed solder bumps in the openings.

Abstract: A method for fabricating a chip scale package is described. The method utilizes wafer level processes to obtain a chip level package. The method particularly avoids the use of mechanical grinding by the novel use of molding, extruding, and etching technology.

Abstract: Self-aligning combination of a substrate with a chip is provided, using reverse patterns of raised recesses and raised shapes on the respective substrate and chip surfaces. High-force contact bump production is avoided. Reliable contact between a chip and substrate is achieved, with minimized skewing after chip placement.

Abstract: A method for filling a via formed through a silicon wafer is disclosed. The method entails mounting the silicon wafer on a mounting substrate and depositing either molten or solid balls of a conductive material into the via. The deposited conductive material may be reflowed to provide electrical contact with other components on the surface of wafer.

Abstract: The present invention includes a mechanical joint between a die and a substrate that is reflowed by microwave energy and a method of forming such a mechanical joint by printing a solder over a substrate, placing the solder in contact with a bump over a die, reflowing the solder with microwave energy, and forming a mechanical joint from the solder and the bump.

Abstract: An array of solder balls is formed on a first substrate for interconnecting with conductive sites on another substrate. A ball pickup tool picks up balls with a vacuum suction from a fluidized ball reservoir and utilizes a puff of gas to release the solder ball(s) carried thereon to conductive sites of a substrate for bonding thereto. In another embodiment, the bond pads of a substrate are coated with a flux or adhesive and lowered into a fluidized ball reservoir for direct attachment of solder balls.

Abstract: A work and head positioning apparatus, a flux reservoir a mount head and a transfer head are disclosed for a ball mount apparatus. In the work and head positioning apparatus, a head driving mechanism drives a head substantially in a linear direction, a first work driving mechanism drives extending in a direction intersecting the drives a work, and a second work driving mechanism drives the work in a rotational direction on the first work driving mechanism. In a flux reservoir, a flat supply area in a flux reserving space is made substantially as large as a transfer area of a transfer head, and is made movable up relatively to the flux reserving space except the flat supply area while keeping substantial parallelism between the flux provided on the flat supply area and the transfer area of the transfer head.

Abstract: A guidewire manufacturing assembly and method of forming an improved distal tip on a guidewire are disclosed. A guidewire may be an elongate shaft, a coil disposed along the length of the shaft, a holding fixture coupled to the shaft, a solder ball disposed to flux, and a heat source disposed proximate the solder ball to partially melt the solder ball and allow formation of an atraumatic distal tip.

Abstract: Methods for implementing production of an oxide superconductor joined member, excellent in electric current transmission performance, without a need of going through particularly complex steps, are provided. When joining together oxide superconductors by use of a solder composed of an oxide superconducting material, a finally solidified portion of the solder is positioned in a region where a transmission path of electric current flowing between oxide superconductor base materials as joined together is not obstructed by, for example, disposing the solder on a face of the oxide superconductor base materials, other than butting surfaces of the oxide superconductor base materials, so as to straddle both the base materials like bridge-building. Current flow is also not obstructed by, for example, shaping junction faces of the oxide superconductor base materials such that at least portions of the butting surfaces thereof are in the shape of sloped open faces, parting from each other.

Abstract: Dispensing apparatus is provided for dispensing items. The dispensing apparatus includes a dispensing outlet and an item holder having item holding areas and being movably disposed to position the item holding areas one at a time in sequence over the dispensing outlet so that when one of the item holding areas is positioned over the dispensing outlet, the other item holding areas are not disposed over the dispensing outlet. The dispensing apparatus further includes a blocker disposed over the item holder opposite the dispensing outlet, the blocker blocking access to the dispensing outlet from directly above the item holder when the item holder positions one of the item holding areas over the dispensing outlet.

Abstract: A method of forming a plurality of micro column interconnection structures on a semiconductor includes providing a semiconductor layer. A photoresist layer is formed on the semiconductor layer. A plurality of cavities are etched in the photoresist layer. The plurality of cavities extend through the photoresist layer to the semiconductor layer. Solder is deposited in the plurality of cavities, thereby forming a plurality of micro columns of solder.

Abstract: The present invention provides a structural assembly comprising a first workpiece and a second workpiece. The second workpiece at least partially underlies the first workpiece so as to define an interface therebetween. The assembly includes a friction stir weld joint joining the first and second workpieces. The assembly also includes an interface layer positioned between the first and second workpieces. The interface layer comprises a material having a melting temperature lower than the solidus temperatures of the first and second workpieces. The interface layer at least partially fills the interface proximate to the friction stir weld joint to thereby increase the strength and fracture toughness of the weld joint, as well as other mechanical and chemical properties, including resistance to crack growth and corrosion resistance.

Abstract: In devices for solder-ball bonding of a bonding pad of a slider of a head gimbal assembly to a lead pad of a lead, although a device that can perform (1) the supply of solder balls, (2) the positioning of a solder ball, (3) the blowing of nitrogen gas N2, and (4) the melting of the solder ball by laser radiation in one device is available, there are various problems that cannot improve the efficiency of laser radiation, maintenance, or operation efficiency, due to spatial restriction, difficulty of weight reduction, or fixed operation procedures. A solder-ball holder and an optical device are configured separately, and a vacuum pad is provided. A solder ball held in a solder-ball holding hole of the solder-ball holder is transported by the vacuum pad to a connecting portion of a head gimbal assembly, and solder reflow is carried out by the optical device.

Abstract: The invention concerns a method whereby a soldering joint is applied on one of the surfaces of a collector plate (2, 3) before inserting the ends of the tube to be assembled thereto, in the form of a flexible adhesive previously perforated to correspond to the holes (20) of the plate.

Abstract: A solder structure comprising a radially-curved exterior surface enclosing a predetermined-sized cavity used for flexibly joining together at predetermined conductive contact points two planar elements having dissimilar properties. By assembling the two planar elements in a tiered arrangement, one planar element having an annular conductive pad and the other planar element having either a corresponding annular or circular conductive pad, separated by a spherical solder compound comprised of solder and a fluxing agent, a hollow solder structure can be created during a melting and subsequent cooling of the solder compound. The plasticity/resiliency characteristics of the resulting hollow solder structure absorbs lateral movement of the two planar elements relative to each other without degradation of the solder joint.

Abstract: There is disclosed a solder ball pitcher supplying a large number of solder balls stored in a solder ball housing chamber in a row into a solder ball supply passage unit through a taper portion, and then delivers the solder balls in sequence through a solder ball supply opening at the tip end of the solder ball supply passage unit by a swing motion of the release link in case of allowing a release lever reciprocated by a pusher and a compressive coil spring to translate by a parallel link composed of the release link and a follower link.

Abstract: A device (14) for implementing a method for setting on a substrate (2) interconnecting balls or preforms (1) comprising the following phases: storing in bulk the preforms (1); seizing in ordered position the preforms (1) with an adapted gripping device (9); setting the preforms (1) on the substrate (2) with the gripping device (9). Said device (14) is charaterized in that it consists of at least a matrix for storing the preforms, said matrix comprising a floor capable of acting as stop for the preforms when the matrix is being filled thereby enabling the implementation of a method whereby the passage from bulk storage to ordered storage is performed in masked time. The device is useful for incorporating or replacing balls in substrates of electronic components.

Abstract: In accordance with the invention a reactive multilayer foil is fabricated by providing an assembly (stack or multilayer) of reactive layers, inserting the assembly into a jacket, deforming the jacketed assembly to reduce its cross sectional area, flattening the jacketed assembly into a sheet, and then removing the jacket. Advantageously, the assembly is wound into a cylinder before insertion into the jacket, and the jacketed assembly is cooled to a temperature below 100° C. during deforming. The resulting multilayer foil is advantageous as a freestanding reactive foil for use in bonding, ignition or propulsion.

Abstract: The present invention discloses a method and apparatus for forming solder bumps by a molten solder screening technique in which a flexible die head constructed of a metal sheet is utilized for maintaining an intimate contact between the die head and a solder receiving mold surface. The flexible die head, when used in combination with a pressure means, is capable of conforming to any curved mold surface as long as the curvature is not more than 2.5 &mgr;m per inch of die length.

Abstract: A process for producing a solder sheet with a bump grid array includes the step of molding a sheet of solder material in a mold having two mold halves. Each of the mold halves is formed with an array of first recesses. At least one of the mold halves is further formed with a plurality of second recesses interconnecting adjacent pairs of the first recesses. Each of the first recesses has a depth deeper than that of the second recesses. The first recesses of one of the mold halves are registered with the first recesses of the other of the mold halves such that the first and second recesses of the mold halves cooperatively form a mold cavity defining the shape of the molded solder sheet when the mold halves are brought toward each other to close the mold.

Abstract: An apparatus and method of manufacturing a wire mesh laminate includes wrapping a central core with multiple layers of mesh screen and a barrier layer having a higher melting point than the mesh screen to form a spool assembly. The spool assembly is then surrounded by an outer cover and is heated to sinter or fuse together the layers of mesh screen.

Abstract: Process gas is fed from a gas supply means to a plasma generating means in a vacuum chamber, and hydrogen-containing plasma is generated by the plasma generating means under a low pressure. A soft solder alloy on the surface of a workpiece supported by a workpiece exposing means is exposed to the hydrogen-containing plasma so that the soft solder alloy is irradiated with the hydrogen-containing plasma. Either simultaneously with or immediately after the plasma irradiation, the soft solder alloy undergoes reflow treatment in a vacuum by a heating means. As no flux is used, there is no need of a washing process, and the bump-shaped electrode terminals produced by using the inexpensive soft solder alloy on the surface of the workpiece have great reliability.

Abstract: A method and apparatus are disclosed for placing solder balls 320 on electronic pads 910 or 1010 on a component 900 or substrate 1000, such as for a ball grid array (BGA) applicator 100. The solder balls 320 are held to openings 202 in a foil 130 against a second layer 350 by a holding force, whereby the second layer is of a porous material and laminated to the foil 130. One such holding force can be a vacuum force 222 applied to the solder balls 320 through the openings 202 in a foil 130. After locating the solder balls 320 at electronic pads 910 or 1010 on a component 900 or substrate 1000, by removing the holding force 222, the solder balls 320 are released and placed on the electronic pads 910, 1010. Optionally, a plurality of pins may provide a releasing and/or placing force.

Abstract: Disclosed is a solder alloy in use for bonding electric or electronic parts, containing: 3 to 12% by weight of a zin component; and a tin component. The oxygen content of the solder alloy is reduced to 100 ppm or less. Using the solder alloy, a bonding portion is formed on the substrate and the electronic part is mounted thereon to obtain a substrate for mounting the electronic part and a substrate on which the electronic part is mounted. The bonding portion made of the above solder alloy can prevent migration.

Abstract: A minute work piece in various mechanical or electric component parts is securely brazed by shooting a thin gas flame toward the work piece at a pinpoint while supplying a thread of soldering metal straight to the work piece to heat the work piece and melt the soldering metal, thereby to braze the soldering metal to the work piece. The pinpoint brazing method and device makes it possible to form reliable connection between the conductive terminal of a relay coil and a lead wire wound on a coil bobbin through a sphere-shaped soldering metal. The relay coil thus produced by the brazing method is suitably applicable to various kinds of machinery bringing about vibration, such as automobiles.

Abstract: Surface mount technology may be utilized to join two surfaces together that may include relative surface irregularities. By varying the volume of surface mount material applied to electrically and physically join the two surfaces, surface-to-surface irregularities may be compensated for. Various techniques may be utilized to vary the volume of the interconnection material in a high speed fashion.

Abstract: Lead-free solder balls having a good surface appearance with no appreciable surface defects such as seams and shrinkage cavities comprises an alloy having a composition consisting essentially of about 4.0% to about 6.0% by weight of Ag, about 1.0% to about 2.0% by weight of Cu, and a balance of Sn, and they have a diameter of from 0.05 mm to 1.0 mm. The solder balls can be produced by forming a molten alloy having the above-described composition into solidified balls having a diameter of from 0.05 mm to 1.0 mm using the surface tension of the molten alloy.

Abstract: A method of forming a plurality of micro column interconnection structures on a semiconductor includes providing a semiconductor layer. A photoresist layer is formed on the semiconductor layer. A plurality of cavities are etched in the photoresist layer. The plurality of cavities extend through the photoresist layer to the semiconductor layer. Solder is deposited in the plurality of cavities, thereby forming a plurality of micro columns of solder.

Abstract: An integrated solder bump deposition method and apparatus that enables solder bumps to be lithographically formed on a substrate. The apparatus comprises a plurality of electrolyte cells, and etch/clean/passthrough station and a reflow chamber.

Abstract: In devices for solder-ball bonding of a bonding pad of a slider of a head gimbal assembly to a lead pad of a lead, although a device that can perform (1) the supply of solder balls, (2) the positioning of a solder ball, (3) the blowing of nitrogen gas N2, and (4) the melting of the solder ball by laser radiation in one device is available, there are various problems that cannot improve the efficiency of laser radiation, maintenance, or operation efficiency, due to spatial restriction, difficulty of weight reduction, or fixed operation procedures. A solder-ball holder and an optical device are configured separately, and a vacuum pad is provided. A solder ball held in a solder-ball holding hole of the solder-ball holder is transported by the vacuum pad to a connecting portion of a head gimbal assembly, and solder reflow is carried out by the optical device.

Abstract: A solder ball attachment system for manufacturing an integrated circuit or the like is disclosed. The solder ball attachment system includes a flux station adapted to apply flux onto a substrate and a solder ball placement station adapted to place solder balls onto the flux. A conveyor assembly is included to move the substrate between the flux station and the solder ball placement station.

Abstract: In the conventional bump forming method that can be applied to a semiconductor device in which a large number of bumps are required to be formed, there are various limitations on the material of which the bumps are made, due to enough cubic volume of bumps and to small scattering of the bump height. According to the invention, solder balls and a tool having a large number of through-holes are used, and under the condition that the through-holes of the tool are aligned with the pads of the semiconductor device, the solder balls are charged into the through-holes, pressed to be fixed on the pads, and then reflowed to form bumps.

Abstract: Nonmetallic high-temperature material, such as graphite, CFC or SiC, or components produced from these materials, are joined using the two-stage process. First the structural components are canned and the canning foil is tightly pressed onto the surface contour of the structural components. Then the components are joined to a composite component by forming a material-to-material bond between the metal canning foils. This widens the hitherto highly restricted field of technical application for materials of this type.