Abstract: The present invention relates to a lead frame for an optical semiconductor device including: a lead frame having a first plate part and a second plate part disposed so as to oppose to the first plate part; an optical semiconductor element placed in the second plate part and electrically connected to the second plate part; a wire for electrically connecting the optical semiconductor element and the first plate part to each other; a circumferential reflector formed on the lead frame so as to surround a circumference of the optical semiconductor element; and a transparent resin for encapsulating the optical semiconductor element, filled in a recess formed by the lead frame and an inner periphery of the reflector, in which the lead frame has a contour shape substantially the same as a bottom contour shape of the inner periphery of the reflector for forming the recess.

Abstract: An element-connecting board is a lead frame for allowing a light emitting diode element to be connected to one side thereof in a thickness direction. The element-connecting board includes the lead frame which is provided with a plurality of leads disposed with spaces from each other and a first insulating resin portion which is light reflective and fills the spaces.

Abstract: A vinyl chloride-based copolymer porous body contains a vinyl chloride-based copolymer as the main component. The vinyl chloride-based copolymer porous body has continuous pores having a pore size of 0.1 to 40 ?m, the pores have a skeletal diameter of 0.1 to 20 ?m, and the vinyl chloride-based copolymer has a thickness of 1 mm or more. Such a vinyl chloride-based copolymer porous body can be produced by a production method including the steps of: heating and dissolving the vinyl chloride-based copolymer in a solvent to obtain a vinyl chloride-based copolymer solution; cooling the vinyl chloride-based copolymer solution to obtain a precipitated product; and separating and drying the product to obtain a porous body containing the vinyl chloride-based copolymer as the main component.

Abstract: The present invention relates to an epoxy resin composition for an optical semiconductor device having an optical semiconductor element mounting region and having a reflector that surrounds at least a part of the region, the epoxy resin composition being an epoxy resin composition for forming the reflector, the epoxy resin composition including the following ingredients (A) to (E): (A) an epoxy resin; (B) a curing agent; (C) a white pigment; (D) an inorganic filler; and (E) a specific release agent.

Abstract: A method for producing an encapsulating layer-covered semiconductor element includes the steps of preparing a support sheet including a hard support board formed with a through hole passing through in a thickness direction and a pressure-sensitive adhesive layer laminated on a surface at one side in the thickness direction of the support board so as to cover the through hole; disposing a semiconductor element on a surface at one side in the thickness direction of the pressure-sensitive adhesive layer in opposed to the through hole in the thickness direction; covering the semiconductor element with an encapsulating layer to produce an encapsulating layer-covered semiconductor element; and inserting a pressing member into the through hole from the other side in the thickness direction to peel the encapsulating layer-covered semiconductor element from the pressure-sensitive adhesive layer.

Abstract: A method for producing an encapsulating layer-covered semiconductor element includes the steps of preparing a support sheet including a hard support board formed with a through hole passing through in a thickness direction and a pressure-sensitive adhesive layer laminated on a surface at one side in the thickness direction of the support board so as to cover the through hole; disposing a semiconductor element on a surface at one side in the thickness direction of the pressure-sensitive adhesive layer in opposed to the through hole in the thickness direction; covering the semiconductor element with an encapsulating layer to produce an encapsulating layer-covered semiconductor element; and inserting a pressing member into the through hole from the other side in the thickness direction to peel the encapsulating layer-covered semiconductor element from the pressure-sensitive adhesive layer.

Abstract: An element-connecting board is a lead frame for allowing a light emitting diode element to be connected to one side thereof in a thickness direction. The element-connecting board includes the lead frame which is provided with a plurality of leads disposed with spaces from each other and a first insulating resin portion which is light reflective and fills the spaces.

Abstract: An element-connecting board is a lead frame for allowing a light emitting diode element to be connected to one side thereof in a thickness direction. The element-connecting board includes the lead frame which is provided with a plurality of leads disposed with spaces from each other and a first insulating resin portion which is light reflective and fills the spaces.

Abstract: A method for producing a phosphor layer-covered LED includes the steps of preparing a support sheet including a hard support board and a pressure-sensitive adhesive layer laminated at one surface in a thickness direction of the support board and having a pressure-sensitive adhesive force capable of being reduced by application of an active energy ray; attaching an LED to the support board via the pressure-sensitive adhesive layer; disposing a phosphor layer at the one surface in the thickness direction of the support board so as to cover the LED with the phosphor layer; cutting the phosphor layer corresponding to the LED to produce a phosphor layer-covered LED including the LED and the phosphor layer covering the LED; and peeling the phosphor layer-covered LED from the pressure-sensitive adhesive layer by applying an active energy ray at least from one side in the thickness direction to the pressure-sensitive adhesive layer.

Abstract: The present invention relates to an epoxy resin composition for an optical semiconductor device, including the following ingredients (A) to (E): (A) an epoxy resin; (B) a curing agent; (C) a white pigment; (D) an inorganic filler; and (E) a silane coupling agent, in which a total content of the ingredient (C) and the ingredient (D) is from 69 to 94% by weight of the whole of the epoxy resin composition, and the ingredient (E) is contained in an amount satisfying the specific conditions.

Abstract: A method for producing a reflecting layer-phosphor layer-covered LED includes a disposing step of disposing a reflecting layer at one side in a thickness direction of a support; a reflecting layer covering step of, after the disposing step, disposing an LED having a terminal at one surface thereof at the one side in the thickness direction of the support so as to allow the one surface of the LED to be covered with the reflecting layer; and a phosphor layer covering step of forming a phosphor layer so as to cover at least the other surface of the LED.

Abstract: A method for producing an encapsulating layer-covered semiconductor element includes the steps of preparing a support sheet including a hard support board formed with a through hole passing through in a thickness direction and a pressure-sensitive adhesive layer laminated on a surface at one side in the thickness direction of the support board so as to cover the through hole; disposing a semiconductor element on a surface at one side in the thickness direction of the pressure-sensitive adhesive layer in opposed to the through hole in the thickness direction; covering the semiconductor element with an encapsulating layer to produce an encapsulating layer-covered semiconductor element; and inserting a pressing member into the through hole from the other side in the thickness direction to peel the encapsulating layer-covered semiconductor element from the pressure-sensitive adhesive layer.

Abstract: A method for producing an encapsulating layer-covered semiconductor element includes the steps of preparing a support sheet including a hard support board; disposing a semiconductor element at one side in a thickness direction of the support sheet; disposing an encapsulating layer formed from an encapsulating resin composition containing a curable resin at the one side in the thickness direction of the support sheet so as to cover the semiconductor element; curing the encapsulating layer to encapsulate the semiconductor element by the encapsulating layer that is flexible; cutting the encapsulating layer that is flexible corresponding to the semiconductor element to produce an encapsulating layer-covered semiconductor element; and peeling the encapsulating layer-covered semiconductor element from the support sheet.

Abstract: A method for producing a phosphor layer-covered LED includes an LED disposing step of disposing an LED at one surface in a thickness direction of a support sheet; a layer disposing step of disposing a phosphor layer formed from a phosphor resin composition containing an active energy ray curable resin capable of being cured by application of an active energy ray and a phosphor at the one surface in the thickness direction of the support sheet so as to cover the LED; a curing step of applying an active energy ray to the phosphor layer to be cured; a cutting step of cutting the phosphor layer corresponding to the LED to produce a phosphor layer-covered LED including the LED and the phosphor layer covering the LED; and an LED peeling step of, after the cutting step, peeling the phosphor layer-covered LED from the support sheet.

Abstract: The present invention relates to a light reflecting member for an optical semiconductor which makes it possible to manufacture a high-quality optical semiconductor device at a low cost, as well as a substrate for mounting an optical semiconductor and an optical semiconductor device using such a light reflecting member.

Abstract: The present invention relates to a lead frame for an optical semiconductor device including: a lead frame having a first plate part and a second plate part disposed so as to oppose to the first plate part; an optical semiconductor element placed in the second plate part and electrically connected to the second plate part; a wire for electrically connecting the optical semiconductor element and the first plate part to each other; a circumferential reflector fanned on the lead frame so as to surround a circumference of the optical semiconductor element; and a transparent resin for encapsulating the optical semiconductor element, filled in a recess formed by the lead frame and an inner periphery of the reflector, in which the lead frame has a contour shape substantially the same as a bottom contour shape of the inner periphery of the reflector for forming the recess.

Abstract: The present invention relates to an epoxy resin composition for an optical semiconductor device having an optical semiconductor element mounting region and having a reflector that surrounds at least a part of the region, the epoxy resin composition being an epoxy resin composition for forming the reflector, the epoxy resin composition including the following ingredients (A) to (D): (A) an epoxy resin; (B) a curing agent; (C) a white pigment; and (D) at least one antioxidant selected from the group consisting of hindered-phenol antioxidants, sulfide antioxidants and hindered-amine antioxidants.

Abstract: An element-connecting board is a lead frame for allowing a light emitting diode element to be connected to one side thereof in a thickness direction. The element-connecting board includes the lead frame which is provided with a plurality of leads disposed with spaces from each other and a first insulating resin portion which is light reflective and fills the spaces.

Abstract: The present invention relates to an epoxy resin composition for optical semiconductor light-receiving element encapsulation, the epoxy resin composition including the following components (A) to (D): (A) an epoxy resin; (B) a curing agent; (C) a curing accelerator; and (D) a yellow colorant, in which the component (D) is contained in a ratio of 0.01% by weight or more based on the whole of the epoxy resin composition.

Abstract: The present invention relates to an epoxy resin composition for an optical semiconductor device having an optical semiconductor element mounting region and having a reflector that surrounds at least a part of the region, the epoxy resin composition being an epoxy resin composition for forming the reflector, the epoxy resin composition including the following ingredients (A) to (E): (A) an epoxy resin; (B) a curing agent; (C) a white pigment; (D) an inorganic filler; and (E) a specific release agent.