Patent application number | Description | Published |
20100092714 | Pressure-Sensitive Adhesive Tape - Provided is a pressure-sensitive adhesive tape which has a sufficient pressure-sensitive adhesive strength for an adherend, is excellent in heat resistance, and can be easily peeled without leaving a pressure-sensitive adhesive residue on the adherend particularly upon peeling. The pressure-sensitive adhesive tape includes, on a substrate, a pressure-sensitive adhesive layer containing a lipophilic layered clay mineral, in which the layered clay mineral is in a state of being peeled and dispersed, and the interlayer distance of the layered clay mineral is 50 Å or more. | 04-15-2010 |
20100151629 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICES - A wiring circuit layer | 06-17-2010 |
20100248428 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE - A wiring circuit layer | 09-30-2010 |
20110127657 | WIRING CIRCUIT STRUCTURE AND MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE USING THE STRUCTURE - A conductor layer | 06-02-2011 |
20110143501 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE - Provided is a method of producing a semiconductor device having a structure wherein a semiconductor chip | 06-16-2011 |
20120205820 | ENCAPSULATING RESIN SHEET AND SEMICONDUCTOR DEVICE USING THE SAME, AND MANUFACTURING METHOD FOR THE SEMICONDUCTOR DEVICE - Provided are an encapsulating resin sheet having improved a connection reliability by improving a connection failure, and by suppressing intrusion of an inorganic filler between terminals of the semiconductor element and the interconnection circuit substrate, a semiconductor device using the same, and a fabricating method for the semiconductor device. The encapsulating resin sheet is an epoxy resin composition sheet having a two-layer structure of an inorganic filler containing layer and an inorganic filler non-containing layer, in which a melt viscosity of the inorganic filler containing layer is 1.0×10 | 08-16-2012 |
20120208009 | FILM FOR FORMING PROTECTIVE LAYER - The present invention aims to provide a film for forming a protective layer that is capable of preventing cracks in a low dielectric material layer of a semiconductor wafer while suppressing an increase in the number of steps in the manufacture of a semiconductor device. This object is achieved by a film for forming a protective layer on a bumped wafer in which a low dielectric material layer is formed, including a support base, an adhesive layer, and a thermosetting resin layer, laminated in this order, wherein the melt viscosity of the thermosetting resin layer is 1×10 | 08-16-2012 |
20120208350 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The present invention aims to provide a method of manufacturing a semiconductor device that is capable of preventing cracks in a low dielectric material layer of a semiconductor wafer, while also suppressing an increase in the number of steps in the manufacturing process. This object is achieved by a method of manufacturing a semiconductor device including the steps of pasting a film for forming a protective layer in which a support base, an adhesive layer, and a thermosetting resin layer are laminated, in that order, onto a bumped wafer in which a low dielectric material layer is formed, with the thermosetting resin layer serving as a pasting surface, and further, peeling the support base and the adhesive layer from the thermosetting resin layer, forming a protective layer by thermally curing the thermosetting resin layer, and dicing the bumped wafer and the protective layer together. | 08-16-2012 |
20120326280 | LAMINATED FILM AND USE THEREOF - Provided is a laminated film wherein the space between semiconductor elements that are three-dimensionally mounted can be filled easily and securely. The laminated film of the present invention is a laminated film for filling the space between semiconductor elements that are electrically connected through a member or connection, the film including a dicing sheet in which a pressure-sensitive adhesive layer is laminated on a base material and a curable film that is laminated on the pressure-sensitive adhesive layer, wherein the curable film has a lowest melt viscosity at 50 to 200° C. of 1×10 | 12-27-2012 |
20120329250 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Provided is a method of manufacturing a semiconductor device wherein the space between semiconductor elements that are three-dimensionally mounted can be filled easily and securely. The method of manufacturing a semiconductor device of the present invention includes preparing a semiconductor wafer with a plurality of members for connection formed on both first and second surfaces; preparing a laminated film including a dicing sheet with a pressure-sensitive adhesive layer laminated on a base material, and a curable film that is laminated on the pressure-sensitive adhesive layer and has a thickness equivalent to or more than the height of the member for connection on the first surface; pasting the curable film of the laminated film to the semiconductor wafer while facing the curable film to the first surface so that the members for connection are not exposed to the pressure-sensitive adhesive layer; and dicing the semiconductor wafer to form a semiconductor element. | 12-27-2012 |
20130078769 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - A method for producing a semiconductor device for improving production efficiency and the flexibility of production design thereof is provided. The method includes preparing semiconductor chips having a first main surface on which an electroconductive member is formed, preparing a supporting structure in which over a support configured to transmit radiation, a radiation curable pressure-sensitive adhesive layer and a first thermosetting resin layer are laminated in this order, arranging the semiconductor chips on the first thermosetting resin layer to face the first thermosetting resin layer to the first main surfaces of the semiconductor chips, laminating a second thermosetting resin layer over the first thermosetting resin layer to cover the semiconductor chips, and curing the radiation curable pressure-sensitive adhesive layer by irradiating from the support side to peel the radiation curable pressure-sensitive adhesive layer and the first thermosetting resin layer from each other. | 03-28-2013 |
20130078770 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - A method for producing a semiconductor device, including a semiconductor chip, for improving production efficiency and the flexibility of production design is provided. The method comprises: preparing a semiconductor chip having a first main surface on which an electroconductive member is formed; preparing a supporting structure in which, over a support configured to transmit radiation, a radiation curable pressure-sensitive adhesive layer and a first thermosetting resin layer are laminated in this order; arranging the semiconductor chips on the first thermosetting resin layer to face the first thermosetting resin layer to a second main surface of the semiconductor chips opposite to the first main surface; laminating a second thermosetting resin layer over the first thermosetting resin layer to cover the semiconductor chips; and curing the radiation curable pressure-sensitive adhesive layer by irradiating from the support side to peel the radiation curable pressure-sensitive adhesive layer from the first thermosetting resin layer. | 03-28-2013 |
20130157419 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The objective of the present invention is to provide a method of manufacturing a semiconductor device having less contamination of a semiconductor chip and good productivity. The present invention is a method of manufacturing a semiconductor device having a semiconductor chip, with the steps of preparing a plurality of semiconductor chips, preparing a resin sheet having a thermosetting resin layer, arranging the plurality of semiconductor chips on the thermosetting resin layer, arranging a cover film on the plurality of semiconductor chips, and embedding the plurality of semiconductor chips in the thermosetting resin layer by a pressure applied through the arranged cover film, in which the contact angle of the cover film to water is 90° or less. | 06-20-2013 |
20130217187 | FILM FOR FORMING PROTECTIVE LAYER - The present invention aims to provide a film for forming a protective layer that is capable of preventing cracks in a low dielectric material layer of a semiconductor wafer while suppressing an increase in the number of steps in the manufacture of a semiconductor device. This object is achieved by a film for forming a protective layer on a bumped wafer in which a low dielectric material layer is formed, including a support base, an adhesive layer, and a thermosetting resin layer, laminated in this order, wherein the melt viscosity of the thermosetting resin layer is 1×10 | 08-22-2013 |
20130288428 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - A method for producing a semiconductor device, including a semiconductor chip, for improving production efficiency and the flexibility of production design is provided. The method comprises: preparing a semiconductor chip having a first main surface on which an electroconductive member is formed; preparing a supporting structure in which, over a support configured to transmit radiation, a radiation curable pressure-sensitive adhesive layer and a first thermosetting resin layer are laminated in this order; arranging the semiconductor chips on the first thermosetting resin layer to face the first thermosetting resin layer to a second main surface of the semiconductor chips opposite to the first main surface; laminating a second thermosetting resin layer over the first thermosetting resin layer to cover the semiconductor chips; and curing the radiation curable pressure-sensitive adhesive layer by irradiating from the support side to peel the radiation curable pressure-sensitive adhesive layer from the first thermosetting resin layer. | 10-31-2013 |
20140249269 | THERMALLY-DETACHABLE SHEET - In order to provide a thermally-detachable sheet that detaches at higher temperatures, this thermally-detachable sheet has a shear bond strength with respect to a silicon wafer of 0.25 kg/5×5 mm or larger, at a temperature of 200° C., after said temperature has been maintained for one minute, and a shear bond strength with respect to a silicon wafer of 0.25 kg/less than 5×5 mm at any temperature in a range of over 200° C. to not more than 500° C., after said temperature has been maintained for three minutes. | 09-04-2014 |