Patent application number | Description | Published |
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 |
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 |
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 |
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 |
20150270188 | 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.: | 09-24-2015 |