Patent application number | Description | Published |
20090261481 | WAFER LEVEL PACKAGE AND METHOD OF FABRICATING THE SAME - Provided are a wafer level package in which a communication line can be readily formed between an internal device and the outside of the package, and a method of fabricating the wafer level package. The wafer level package includes a first substrate having a cavity in which a first internal device is disposed, an Input/Output (I/O) pad formed on the first substrate and electrically connected with the first internal device, a second substrate disposed over the first substrate and from which a part corresponding to the I/O pad is removed, and a solder bonding the first and second substrates. According to the wafer level package and the method of fabricating the same, upper and lower substrates are sawed to different cutting widths, or a hole is formed in the upper substrate, such that a communication line of an internal device can be readily formed without a via process which penetrates a substrate. Therefore, in comparison with a conventional wafer level package fabricated using the via process, it is possible to simplify a fabrication process and reduce production cost. | 10-22-2009 |
20100006625 | COMPOSITION AND METHODS OF FORMING SOLDER BUMP AND FLIP CHIP USING THE SAME - Provided are a composition for an anisotropic conductive adhesive, a method of forming a solder bump and a method of forming a flip chip using the same. The composition for an anisotropic conductive adhesive includes a low melting point solder particle and a thermo-curable polymer resin. The anisotropic conductive adhesive includes forming a mixture by mixing a polymer resin and a curing agent, and mixing a deforming agent, a catalyst or a reductant with the mixture. | 01-14-2010 |
20100320596 | METHOD FOR FABRICATING SEMICONDUCTOR PACKAGE AND SEMICONDUCTOR PACKAGE USING THE SAME - Provided is a method for fabricating semiconductor package and a semiconductor package fabricated using the same. The method for fabricating semiconductor package dopes a mixture including the polymer material and the solder particle on the substrate in which the terminal is formed and applies heat, and thus the solder particle flows (or diffuses) toward the terminal in the heated polymer resin to adhere to the exposed surface of the terminal, i.e., the side surface and upper surface of the terminal, thereby forming the solder layer. The solder layer improves the adhesive strength between the terminal of the semiconductor chip and the terminal of the substrate in the subsequent flip chip bonding process. | 12-23-2010 |
20110018670 | ELECTRONIC DEVICE INCLUDING LTCC INDUCTOR - Provided is an electronic device that includes an LTCC inductor including a first sheet disposed on a substrate and including a first conductive pattern, a second sheet disposed on the first sheet and including a second conductive pattern, and a via electrically connecting the first conductive pattern to the second conductive pattern, and a spacer disposed on a lower surface of the first sheet to provide an air gap between the substrate and the first sheet, wherein the first conductive pattern is exposed out of the lower surface of the first sheet. | 01-27-2011 |
20110050499 | SENSING DEVICE HAVING MULTI BEAM ANTENNA ARRAY - Provided is a sensing device having a multi beam antenna array. The sensing device includes an antenna array including a plurality of antennas, a plurality of low noise amplifiers respectively connected to the antennas to amplify radio frequency signals received from the respective antennas, a delay line box including a plurality of delay lines, each delay line delaying the signals amplified by the low noise amplifiers for a predetermined time, and a detector detecting the output signals of the delay ling box. | 03-03-2011 |
20110089577 | METHOD AND STRUCTURE FOR BONDING FLIP CHIP - Provided is a method and structure for bonding a flip chip while increasing the manufacturing yield. In the method, solder bumps are formed on first electrodes and/or second electrodes disposed on first and second substrates, respectively. In addition, the first and second electrodes are arranged to face each other with a second resin including spacer balls being disposed between the first and second substrates. In addition, while flowing the second resin, the first and second substrates are pressed until the distance between the first and second substrates is decreased smaller than diameter of the spacer balls so as to connect the solder bumps between the first and second electrodes. | 04-21-2011 |
20110227228 | FILLING COMPOSITION, SEMICONDUCTOR DEVICE INCLUDING THE SAME, AND METHOD OF FABRICATING THE SEMICONDUCTOR DEVICE - Provided is a filling composition. The filling composition includes: a first particle including Cu and/or Ag; a second particle electrically connecting the first particles; and a resin containing a high molecular compound, a hardener, and a reducer, in which the first and second particles are dispersed, wherein the hardener includes amine and/or anhydride, and the reducer includes carboxyl. | 09-22-2011 |
20120161326 | COMPOSITION FOR FILLING THROUGH SILICON VIA (TSV), TSV FILLING METHOD AND SUBSTRATE INCLUDING TSV PLUG FORMED OF THE COMPOSITION - Provided is a composition for filling a Through Silicon Via (TSV) including: a metal powder; a solder powder; a curable resin; a reducing agent; and a curing agent. A TSV filling method using the composition and a substrate including a TSV plug formed of the composition are also provided. | 06-28-2012 |
20120164787 | VACUUM WAFER LEVEL PACKAGING METHOD FOR MICRO ELECTRO MECHANICAL SYSTEM DEVICE - Disclosed is a vacuum wafer level packaging method for a micro electro mechanical system device, including: forming a plurality of via holes on an upper wafer for protecting a micro electro mechanical system (MEMS) wafer; forming at least one metal layer on inner walls of the plurality of via holes and regions extended from the plurality of via holes; arranging and bonding the upper wafer and the MEMS wafer at atmospheric pressure; applying solder paste to the regions extended from the plurality of via holes; filling a solder in the plurality of via holes by increasing the temperature of a high-vacuum chamber to melt the solder paste; and changing the solder in the plurality of via holes to a solid state by lowering the temperature of the high-vacuum chamber. | 06-28-2012 |
20120222738 | CONDUCTIVE COMPOSITION, SILICON SOLAR CELL INCLUDING THE SAME, AND MANUFACTURING METHOD THEREOF - A conductive composition for a front electrode busbar of a silicon solar cell includes a metallic powder, a solder powder, a curable resin, a reducing agent, and a curing agent. A method of manufacturing a front electrode busbar of a silicon solar cell includes applying the composition to the front surface of the silicon solar cell wherein its front electrode finger line is formed. A substrate includes a front electrode busbar of a silicon solar cell, formed with a conductive composition. A silicon solar cell includes one or more electrodes containing a conductive composition including a conductive powder, a curable resin, a reducing agent, and a curing agent. A method of manufacturing the silicon solar cell includes forming a first electrode array with a first conductive composition, forming a second electrode, and forming a third electrode with a third conductive composition. | 09-06-2012 |
20120240727 | METHOD OF MANUFACTURING SOLDER POWDER HAVING DIAMETER OF SUB-MICROMETERS OR SEVERAL MICROMETERS - Disclosed is a method of manufacturing a solder powder having a diameter of sub-micrometers or several micrometers, the method including: mixing solder powder having a diameter of 10 to 1000 micrometers with a polymer resin to obtain a mixture; heating the mixture to a temperature higher than a melting point of the solder powder in the mixture; applying ultrasonic waves to the heated mixture so that the diameter of the solder powder becomes 0.1 to 10 micrometers; and cooling the mixture to the room temperature without exposing the solder powder of 0.1 to 10 micrometers to the air. | 09-27-2012 |
20120288983 | METHOD FOR MANUFACTURING DYE SENSITIZED SOLAR CELL MODULE - Disclosed is a method for manufacturing a dye sensitized solar cell module. The method includes putting at least one or more heating-wires on an upper portion of an electrode of each solar cell sub-module; applying a metal paste on the upper portion of the electrode including at least one or more heating-wires; and heating and curing the metal paste by after overlapping the electrodes of a plurality of solar cell sub-modules each other, allowing a current to flow to at least one or more heating-wires. | 11-15-2012 |
20130146342 | PATTERN-FORMING COMPOSITION AND PATTERN-FORMING METHOD USING THE SAME - The present invention relates to a pattern-forming composition used to form a conductive circuit pattern. The pattern-forming composition comprises Cu powders, a solder for electrically coupling the Cu powders, a polymer resin, a curing agent and a reductant. According to the present invention, a circuit pattern having superior conductivity can be formed at low cost. | 06-13-2013 |
20130200135 | COMPOSITION AND METHODS OF FORMING SOLDER BUMP AND FLIP CHIP USING THE SAME - Provided are a composition for an anisotropic conductive adhesive, a method of forming a solder bump and a method of forming a flip chip using the same. The composition for an anisotropic conductive adhesive includes a low melting point solder particle and a thermo-curable polymer resin. The anisotropic conductive adhesive includes forming a mixture by mixing a polymer resin and a curing agent, and mixing a deforming agent, a catalyst or a reductant with the mixture. | 08-08-2013 |
20130334291 | METHOD OF FORMING SOLDER ON PAD ON FINE PITCH PCB AND METHOD OF FLIP CHIP BONDING SEMICONDUCTOR USING THE SAME - Disclosed are a method of forming a solder on pad on a fine pitch PCB and a method of flip chip bonding a semiconductor device using the same. The method of forming a solder on pad on a fine pitch PCB includes: applying a solder bump maker (SBM) paste with a predetermined thickness to an entire surface of a PCB including a metal pad and a solder mask; heating the SBM paste at a temperature higher than a melting point of solder contained in the SBM paste and then cooling the SBM paste to form a solder on pad; and washing a residual polymer resin and residual solder particles of the SBM paste by using a solvent. | 12-19-2013 |
20140062786 | SENSING DEVICE HAVING MULTI BEAM ANTENNA ARRAY - Provided is a sensing device having a multi beam antenna array. The sensing device includes an antenna array including a plurality of antennas, a plurality of low noise amplifiers respectively connected to the antennas to amplify radio frequency signals received from the respective antennas, a delay line box including a plurality of delay lines, each delay line delaying the signals amplified by the low noise amplifiers for a predetermined time, and a detector detecting the output signals of the delay ling box. | 03-06-2014 |
20140117070 | METHOD OF FABRICATING A SOLDER-ON-PAD STRUCTURE AND FLIP-CHIP BONDING METHOD USING THE SAME - A method of fabricating a solder-on-pad structure is provided. The method may include providing a substrate with a pad, coating a solder bump maker including a first resin and a solder powder on the substrate, heating the solder bump maker to a temperature lower than a melting point of the solder powder to aggregate the solder powder on the pad, and removing the first resin. | 05-01-2014 |
20140287556 | METHODS OF FORMING BUMP AND SEMICONDUCTOR DEVICE WITH THE SAME - Provided are methods of forming a bump and a semiconductor device with the same. The method may include providing a substrate with pads, forming a bump maker layer to cover the pads and include a resin and solder particles, thermally treating the bump maker layer to aggregate the solder particles onto the pads, removing the resin to expose the aggregated solder particles, forming a resin layer to cover the aggregated solder particles, and reflowing the aggregated solder particles to form bumps on the pads. | 09-25-2014 |
20140317915 | COMPOSITION AND METHODS OF FORMING SOLDER BUMP AND FLIP CHIP USING THE SAME - Provided are a composition for an anisotropic conductive adhesive, a method of forming a solder bump and a method of forming a flip chip using the same. The composition for an anisotropic conductive adhesive includes a low melting point solder particle and a thermo-curable polymer resin. The anisotropic conductive adhesive includes forming a mixture by mixing a polymer resin and a curing agent, and mixing a deforming agent, a catalyst or a reductant with the mixture. | 10-30-2014 |
20140317918 | COMPOSITION AND METHODS OF FORMING SOLDER BUMP AND FLIP CHIP USING THE SAME - Provided are a composition for an anisotropic conductive adhesive, a method of forming a solder bump and a method of forming a flip chip using the same. The composition for an anisotropic conductive adhesive includes a low melting point solder particle and a thermo-curable polymer resin. The anisotropic conductive adhesive includes forming a mixture by mixing a polymer resin and a curing agent, and mixing a deforming agent, a catalyst or a reductant with the mixture. | 10-30-2014 |
20140318615 | CONDUCTIVE COMPOSITION, SILICON SOLAR CELL INCLUDING THE SAME, AND MANUFACTURING METHOD THEREOF - A conductive composition for a front electrode busbar of a silicon solar cell includes a metallic powder, a solder powder, a curable resin, a reducing agent, and a curing agent. A method of manufacturing a front electrode busbar of a silicon solar cell includes applying the composition to the front surface of the silicon solar cell wherein its front electrode finger line is formed. A substrate includes a front electrode busbar of a silicon solar cell, formed with a conductive composition. A silicon solar cell includes one or more electrodes containing a conductive composition including a conductive powder, a curable resin, a reducing agent, and a curing agent. A method of manufacturing the silicon solar cell includes forming a first electrode array with a first conductive composition, forming a second electrode, and forming a third electrode with a third conductive composition. | 10-30-2014 |
20140367375 | METHOD OF FABRICATING A SOLDER PARTICLE - Provided is a method of fabricating a solder particle including adding a first magnetic bar in a first container including a mixture containing first solder particles formed through a mixing process, disposing the first container in a second container including a second magnetic bar, operating the first magnetic bar and the second magnetic bar, and applying heat to the first container to melt the first solder particles. | 12-18-2014 |
20150043175 | BONDING STRUCTURE OF ELECTRONIC EQUIPMENT - Provided is a bonding structure of an electronic equipment including first electrodes extended in a first direction and arranged in a second direction on a stretchable display panel having stretchability, second electrodes extended in a first direction and arranged in a second direction on a substrate and facing the first electrodes, and solder bonding parts interposed between the first electrodes and the second electrodes, facing each other in the second direction, and constituting a plurality of rows in the first direction. | 02-12-2015 |