Indium Corporation Patent applications |
Patent application number | Title | Published |
20160057869 | VOIDING CONTROL USING SOLID SOLDER PREFORMS EMBEDDED IN SOLDER PASTE - Methods are provided for controlling voiding caused by gasses in solder joints of electronic assemblies. In various embodiments, a preform can be embedded into the solder paste prior to the component placement. The solder preform can be configured with a geometry such that it creates a standoff, or gap, between the components to be mounted in the solder paste. The method includes receiving a printed circuit board comprising a plurality of contact pads; depositing a volume of solder paste onto each of the plurality of contact pads; depositing a solder preform into each volume of solder paste; placing electronic components onto the printed circuit board such that contacts of the electronic components are aligned with corresponding contact pads of the printed circuit board; and reflow soldering the electronic components to the printed circuit board. | 02-25-2016 |
20150258638 | METHODS AND COMPOSITIONS FOR FORMING SOLDER BUMPS ON A SUBSTRATE WITH RADIATION CURABLE OR THERMAL CURABLE SOLDER FLUX - Methods of forming solder bumps or joints using a radiation curable, thermal curable solder flux, or dual curable solder flux are disclosed. The method includes applying a liquid solder flux that is radiation curable or thermal curable to a substrate such that the solder flux covers contact pads on the substrate; placing solder balls on the contacts pads covered with the radiation curable or thermal curable solder flux; heating the substrate to join the solder balls to the contact pads, thereby forming solder bumps or solder joints; and curing the liquid solder flux by applying radiation or heat to the substrate, thereby forming a solid film. The solder flux includes radiation curable, thermally curable, or dual curable materials that aid formation of solder bumps or joints before the solder flux is cured; and are curable to form a solid material by the application of radiation or heat. | 09-17-2015 |
20150246417 | MIXED ALLOY SOLDER PASTE - A solder paste consists of an amount of a first solder alloy powder between 44 wt % to less than 60 wt %; an amount of a second solder alloy powder between greater than 0 wt % and 48 wt %; and a flux; wherein the first solder alloy powder comprises a first solder alloy that has a solidus temperature above 260° C.; and wherein the second solder alloy powder comprises a second solder alloy that has a solidus temperature that is less than 250° C. In another implementation, the solder paste consists of an amount of a first solder alloy powder between 44 wt % and 87 wt %; an amount of a second solder alloy powder between 13 wt % and 48 wt %; and flux. | 09-03-2015 |
20150224602 | MIXED ALLOY SOLDER PASTE - A solder paste consists of an amount of a first solder alloy powder between 60 wt % to 92 wt %; an amount of a second solder alloy powder greater than 0 wt % and less than 12 wt %; and a flux; wherein the first solder alloy powder comprises a first solder alloy that has a solidus temperature above 260° C.; and wherein the second solder alloy powder comprises a second solder alloy that has a solidus temperature that is less than 250° C. | 08-13-2015 |
20140193658 | LOW VOID SOLDER JOINT FOR MULTIPLE REFLOW APPLICATIONS - Methods and apparatus are provided for attaching a heat spreader to a die and includes disposing a solder thermal interface material between a first surface of a die and a first surface of a heat spreader without disposing a liquid flux between the die and the heat spreader to form an assembly, wherein at least one of the first surface of the die and a first surface of the heat spreader have disposed thereon a metallization structure comprising a transition layer and a sacrificial metallization layer, the sacrificial metallization layer disposed as an outer layer to the metallization structure adjacent the solder thermal interface material; and heating the assembly to melt the thermal interface and attach the die to the heat spreader. | 07-10-2014 |
20130112109 | HEAT DISSIPATING PAINT WITH HIGH THERMAL RADIATING CAPABILITY - A high emissive paint comprises organic materials with different functional groups, one or more inorganic materials, and optionally other paint property adjusting agents. The infrared absorption range of the paint derives from organic functional groups, such as C—C, C—H, N—H, C—N, C—O and C—X groups, and the one or more inorganic materials. One or more inorganic materials may also be present as micro- or nano-sized particles. | 05-09-2013 |
20120328361 | MN DOPED SN-BASE SOLDER ALLOY AND SOLDER JOINTS THEREOF WITH SUPERIOR DROP SHOCK RELIABILITY - A Sn—Ag—Cu-based lead-free solder alloy and solder joints thereof with superior drop shock reliability are disclosed. The solder comprises between greater than 0 wt. % and less than or equal to about 1.5 wt. % Ag; between greater than or equal to about 0.7 wt. % and less than or equal to about 2.0 wt. % Cu; between greater than or equal to about 0.001 and less than or equal to about 0.2 wt. % Mn; and a remainder of Sn. | 12-27-2012 |