Patent application number | Description | Published |
20090029504 | WAFER-LEVEL ACA FLIP CHIP PACKAGE USING DOUBLE-LAYERED ACA/NCA - A method of manufacturing a wafer-level flip chip package is capable of being used to produce a flip chip package by directly coating a flip chip package using anisotropic conductive adhesives (ACA) and non conductive adhesives (NCA) in a solution state as a double layer on a wafer. The method can be used to manufacture a non-conductive mixed solution and a conductive mixed solution and directly coat them on a substrate, such that it is possible to: increase productivity; simplify a manufacturing process; suppress a shadow effect; easily perform thickness control that is difficult with the anisotropic conductive adhesive paste or the non-conductive adhesive paste; and obtain the non-conductive layer and the anisotropic conductive layer in an initial state of a B-stage with a level not losing latent of hardening through a simple drying process to volatilize an organic solvent. Above all, the non-conductive layer and the anisotropic conductive layer is sequentially stacked on the substrate formed with the non-solder bump, making it possible to make the selectivity of electrical conduction and the stability of a connection process excellent, shorten process time and costs, and dramatically reduce consumption of the conductive particles which account for a large portion of total production costs. | 01-29-2009 |
20090042336 | Fabrication method of an organic substrate having embedded active-chips - The fabrication method of an organic substrate having embedded active-chips such as semiconductor chips is disclosed. The present invention previously applies the conductive adhesives in a wafer state, makes them in a B-stage state, obtains individual semiconductor chips through dicing, and positions the individual semiconductor chips previously applied with the conductive adhesives in the cavities, making it possible to simultaneously obtain an electrical connection and a physical adhesion of the substrate and the semiconductor chips by means of a method of applying heat and pressure and stack the copper clad laminates on the upper portion of the substrate to which the semiconductor chips are connected. The present invention has advantages in processes such as a lead-free process, an environmental-friendly fluxless process, a low temperature process, ultra-fine pitch applications, etc., by mounting the active-chips through the flip chip interconnection using the non-solder bumps and the conductive adhesives. | 02-12-2009 |
20120118480 | ANISOTROPIC CONDUCTIVE ADHESIVE FOR ULTRASONIC WAVE ADHESION, AND ELECTRONIC PARTS CONNECTION METHOD USING SAME - The present invention is to provide an anisotropic conductive adhesive (ACA) for ultrasonic wave adhesion, which electrically connects a first electrode, which is an electrode of a connection portion of a first electronic component, with a second electrode, which is an electrode of a connection portion of a second electronic component. The anisotropic conductive adhesive includes an insulating polymer resin, conductive adhesive particles which are melted by heat generated from the ultrasonic waves applied to the anisotropic conductive adhesive, and spacer particles, which have a melting point higher than that of the adhesive particles, and wherein the adhesive particles are melted and made to come in surface contact with at least one electrode selected from the first electrode and the second electrode, and the first electrode and the second electrode are electrically connected with a constant gap maintained between the first electrode and the second electrode by the spacer particles. | 05-17-2012 |
20120228805 | FIBER, FIBER AGGREGATE AND ADHESIVE HAVING THE SAME - Provided is a functional fiber and a fiber aggregate for realizing various functions, an adhesive for easily bonding electronic components, and a method for manufacturing the same. Particularly, a fiber extended in a length direction includes a carrier polymer and a plurality of functional particles, wherein the plurality of functional particles are embedded in the carrier polymer and physically fixed to the carrier polymer to be integrated. | 09-13-2012 |
20120231260 | FIBER, FIBER AGGREGATE AND ADHESIVE HAVING THE SAME - Provided is a functional fiber and a fiber aggregate for realizing various functions, an adhesive for easily bonding electronic components, and a method for manufacturing the same. Particularly, a fiber extended in a length direction includes a carrier polymer and a plurality of functional particles, wherein the plurality of functional particles are embedded in the carrier polymer and physically fixed to the carrier polymer to be integrated. | 09-13-2012 |
20120231689 | FIBER, FIBER AGGREGATE AND ADHESIVE HAVING THE SAME - Provided is a functional fiber and a fiber aggregate for realizing various functions, an adhesive for easily bonding electronic components, and a method for manufacturing the same. Particularly, a fiber extended in a length direction includes a carrier polymer and a plurality of functional particles, wherein the plurality of functional particles are embedded in the carrier polymer and physically fixed to the carrier polymer to be integrated. | 09-13-2012 |
20130118672 | SUBSTRATE BONDING METHOD - Disclosed herein is a substrate bonding method including stacking a plurality of bonding objects including anisotropic conductive films (ACFs) and flexible printed circuit boards (FPCBs), which are sequentially stacked, on a substrate including bonding surfaces having a plurality of steps, according to the plurality of steps of the bonding surfaces of the substrate, and pressurizing the plurality of bonding objects to the substrate by a bonding tool of a bonding unit having pressurization surfaces having a shape corresponding to the bonding surfaces of the substrate to bond the plurality of bonding objects to each other. | 05-16-2013 |
20150102485 | NON-CONDUCTIVE FILM AND NON-CONDUCTIVE PASTE INCLUDING ZINC PARTICLES, SEMICONDUCTOR PACKAGE INCLUDING THE SAME, AND METHOD OF MANUFACTURING THE SEMICONDUCTOR PACKAGE - A non-conductive material layer, selected from a non-conductive film and a non-conductive polymer paste, and containing a dispersion of zinc (Zn) particles is disclosed, together with semiconductor packages including the non-conductive material layer. The non-conductive material layer contains zinc (Zn) particles having an average particle diameter of about 1 nm to about 200 nm in a non-conductive polymer base material of a film type, and a semiconductor package includes the non-conductive film. By using the non-conductive film and/or the non-conductive paste containing the zinc dispersion, e a semiconductor package having excellent electric connection properties and high reliability may be manufactured through simple processes at low manufacturing costs. | 04-16-2015 |