Patent application number | Description | Published |
20100148379 | EPOXY RESIN COMPOSITION FOR SEMICONDUCTOR ENCAPSULATION AND SEMICONDUCTOR DEVICE PRODUCED BY USING THE SAME - An epoxy resin composition for semiconductor encapsulation, which comprises: (A) an epoxy resin having at least two epoxy groups in a molecule thereof; (B) a compound having at least two phenolic hydroxyl groups in a molecule thereof; and (C) particles of a compound represented by general formula (1), the particles having a maximum particle diameter of not greater than 30 μm and a standard deviation of not greater than 5 μm, the particles being dispersed in the epoxy resin composition: | 06-17-2010 |
20120153508 | THERMOSETTING DIE-BONDING FILM - An object of the present invention is to provide a thermosetting die-bonding film having both storage modulus and high adhering strength that are necessary in manufacturing a semiconductor device and to provide a dicing die-bonding film including the thermosetting die-bonding film. The thermosetting die-bonding film of the present invention is a thermosetting die-bonding film that is used in manufacture of a semiconductor device and includes at least an epoxy resin, a phenol resin, an acrylic copolymer, and a filler, has a storage modulus at 80 to 140° C. before thermal curing in a range of 10 kPa to 10 MPa and a storage modulus at 175° C. before thermal curing in a range of 0.1 to 3 MPa. | 06-21-2012 |
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 |
20130017396 | ADHESIVE FILM FOR SEMICONDUCTOR DEVICE, FILM FOR BACKSIDE OF FLIP-CHIP SEMICONDUCTOR, AND DICING TAPE-INTEGRATED FILM FOR BACKSIDE OF SEMICONDUCTORAANM SHIGA; GojiAACI Ibaraki-shiAACO JPAAGP SHIGA; Goji Ibaraki-shi JPAANM TAKAMOTO; NaohideAACI Ibaraki-shiAACO JPAAGP TAKAMOTO; Naohide Ibaraki-shi JPAANM ASAI; FumiteruAACI Ibaraki-shiAACO JPAAGP ASAI; Fumiteru Ibaraki-shi JP - Provided is an adhesive film for a semiconductor device that is capable of having the same physical properties as these at the time of manufacture even after it is stored for a long time. The adhesive film for a semiconductor device of the present invention contains a thermosetting resin, and in which the amount of reaction heat generated in a temperature range of ±80° C. of a reaction heat peak temperature measured by a differential scanning calorimeter after the adhesive film is stored at 25° C. for 4 weeks is 0.8 to 1 time the amount of reaction heat generated before storage. | 01-17-2013 |
20130137218 | UNDER-FILL MATERIAL AND METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - The present invention provides an under-fill material with which a semiconductor device having a high connection reliability can be provided while securing a usable material by reducing a difference in thermal-responsive behavior between a semiconductor element and an adherend, and a method for producing a semiconductor device using the under-fill material. In the under-fill material of the present invention, a storage elastic modulus E′ [MPa] and a thermal expansion coefficient α [ppm/K] after carrying out a heat-curing treatment at 175° C. for an hour satisfy the following formula (1) at 25° C.: | 05-30-2013 |
20130137219 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - There is provided a method for producing a semiconductor device, which is capable of suppressing voids during mounting of a semiconductor element to produce a semiconductor device with high reliability. A method for producing a semiconductor device of the present invention includes the steps of: providing a sealing sheet having a base material and an under-fill material laminated on the base material; bonding the sealing sheet to a surface of a semiconductor wafer on which a connection member is formed; dicing the semiconductor wafer to form a semiconductor element with the under-fill material; retaining the semiconductor element with the under-fill material at 100 to 200° C. for 1 second or more; and electrically connecting the semiconductor element and the adherend through the connection member while filling a space between the adherend and the semiconductor element with the under-fill material. | 05-30-2013 |
20130157415 | METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - There is provided a method for producing a semiconductor device, capable of suppressing generation of voids at an interface between a semiconductor element and an under-fill sheet to produce a semiconductor device with high reliability. The method includes providing a sealing sheet having a support and an under-fill material laminated on the support; thermally pressure-bonding a circuit surface of a semiconductor wafer, on which a connection member is formed, and the under-fill material of the sealing sheet under conditions of a reduced-pressure atmosphere of 10000 Pa or less, a bonding pressure of 0.2 MPa or more and a heat pressure-bonding temperature of 40° C. or higher; dicing the semiconductor wafer to form a semiconductor element with the under-fill material; and electrically connecting the semiconductor element and the adherend through the connection member while filling a space between the adherend and the semiconductor element using the under-fill material. | 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 |
20140162434 | DICING TAPE INTEGRATED ADHESIVE SHEET, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE USING DICING TAPE INTEGRATED ADHESIVE SHEET, AND SEMICONDUCTOR DEVICE - A dicing tape integrated adhesive sheet including a substrate, a dicing tape in which a pressure-sensitive adhesive layer is laminated on the substrate, and an adhesive sheet formed on the pressure-sensitive adhesive layer, wherein a peeling force between the pressure-sensitive adhesive layer and the adhesive sheet is 0.02 to 0.5 N/20 mm obtained with a peeling test at a peeling rate of 10 m/minute and a peeling angle of 150°, and an absolute value of a peeling electrification voltage is 0.5 kV or less when the pressure-sensitive adhesive layer and the adhesive sheet are peeled off under conditions of the peeling test. | 06-12-2014 |
20140361443 | METHOD OF MANUFACTURING FLIP-CHIP TYPE SEMICONDUCTOR DEVICE - An object of the present invention is to provide a method of manufacturing a flip-chip type semiconductor device with a simplified process, in which various types of information are supplied in a visually recognizable manner. The present invention relates to a method of manufacturing a flip-chip type semiconductor device comprising: a step A of laminating on a semiconductor wafer a film for the backside of a flip-chip type semiconductor, in which the film is to be formed on the backside of a semiconductor element that is flip-chip connected onto an adherend; a step B of dicing the semiconductor wafer; and a step C of laser marking the film for the backside of a flip-chip type semiconductor, wherein the film for the backside of a flip-chip type semiconductor in the step C is uncured. | 12-11-2014 |