Abstract: An encapsulating sheet is formed from an encapsulating resin composition which contains an encapsulating resin and silicone microparticles, and the mixing ratio of the silicone microparticles with respect to the encapsulating resin composition is 20 to 50 mass %.

Abstract: An encapsulating sheet is formed from an encapsulating resin composition which contains an encapsulating resin and silicone microparticles, and the mixing ratio of the silicone microparticles with respect to the encapsulating resin composition is 20 to 50 mass %.

Abstract: A phosphor encapsulating sheet, for encapsulating a light emitting diode element, includes a phosphor layer, an encapsulating layer formed at one side in a thickness direction of the phosphor layer, and an adhesive layer formed at the other side in the thickness direction of the phosphor layer for being adhered to a cover layer.

Abstract: A method for producing an encapsulating layer-covered semiconductor element includes a disposing step of disposing a semiconductor element on a support, an encapsulating step of embedding and encapsulating the semiconductor element by an encapsulating layer in an encapsulating sheet including a peeling layer and the encapsulating layer laminated below the peeling layer and made from a thermosetting resin before complete curing, and a heating step of heating and curing the encapsulating layer after the encapsulating step. The heating step includes a first heating step in which the encapsulating sheet is heated at a first temperature, while being mechanically pressurized toward the support and a second heating step in which the encapsulating sheet is heated at a second temperature that is higher than the first temperature after the first heating step.

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 an encapsulating layer-covered semiconductor element includes a disposing step of disposing a semiconductor element on a support, an encapsulating step of embedding and encapsulating the semiconductor element by an encapsulating layer in an encapsulating sheet including a peeling layer and the encapsulating layer laminated below the peeling layer and made from a thermosetting resin before complete curing, and a heating step of heating and curing the encapsulating layer after the encapsulating step. The heating step includes a first heating step in which the encapsulating sheet is heated at a first temperature, while being mechanically pressurized toward the support and a second heating step in which the encapsulating sheet is heated at a second temperature that is higher than the first temperature after the first heating step.

Abstract: A method for producing an encapsulating layer-covered semiconductor element includes a disposing step of disposing a semiconductor element on a support, an encapsulating step of embedding and encapsulating the semiconductor element by an encapsulating layer in an encapsulating sheet including a peeling layer and the encapsulating layer laminated below the peeling layer and made from a thermosetting resin before complete curing, and a heating step of heating and curing the encapsulating layer after the encapsulating step. The heating step includes a first heating step in which the encapsulating sheet is heated under a normal pressure at a first temperature, a peeling step in which the peeling layer is peeled from the encapsulating layer after the first heating step, and a second heating step in which the encapsulating layer is heated at a second temperature that is higher than the first temperature after the peeling step.

Abstract: A method for producing a semiconductor device includes a preparing step of preparing a board formed with a concave portion, a terminal disposed in or around the concave portion, and a semiconductor element disposed in the concave portion; a wire-bonding step of connecting the terminal to the semiconductor element with a wire; a pressure-welding step of pressure-welding an encapsulating sheet to the board so as to be in close contact with the upper surface of a portion around the concave portion and to be separated from the upper surface of the concave portion under a reduced pressure atmosphere; and an atmosphere releasing step of releasing the board and the encapsulating sheet under an atmospheric pressure atmosphere.

Abstract: An encapsulating sheet-covered semiconductor element includes a semiconductor element having one surface in contact with a board and the other surface disposed at the other side of the one surface and an encapsulating sheet covering at least the other surface of the semiconductor element. The encapsulating sheet includes an exposed surface that is, when projected from one side toward the other side, not included in the one surface of the semiconductor element and exposed from the one surface and the exposed surface has the other side portion that is positioned toward the other side with respect to the one surface of the semiconductor element.

Abstract: An encapsulating sheet, encapsulating an optical semiconductor element, includes a first layer which contains a phosphor and a second layer which contains a phosphor, is laminated on the first layer, and encapsulates the optical semiconductor element. The ratio of the volume of the phosphor in the first layer to that of the phosphor in the second layer is 90:10 to 55:45.

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: A method for producing a light emitting diode device includes the steps of preparing a board mounted with a light emitting diode; preparing a hemispherical lens molding die; preparing a light emitting diode encapsulating material which includes a light emitting diode encapsulating layer and a phosphor layer laminated thereon, and in which both layers are prepared from a resin before final curing; and disposing the light emitting diode encapsulating material between the board and the lens molding die so that the phosphor layer is opposed to the lens molding die to be compressively molded, so that the light emitting diode is directly encapsulated by the hemispherical light emitting diode encapsulating layer and the phosphor layer is disposed on the hemispherical surface thereof.

Abstract: A encapsulating sheet container for storing a encapsulating sheet including a substrate and a encapsulating layer stacked on the substrate includes a tray provided with a receiving region receiving the substrate and a cover superposed on the tray not to be in contact with the encapsulating layer and to be at an interval from the receiving region.

Abstract: An encapsulating sheet-covered semiconductor element includes a semiconductor element having one surface in contact with a board and the other surface disposed at the other side of the one surface and an encapsulating sheet covering at least the other surface of the semiconductor element. The encapsulating sheet includes an exposed surface that is, when projected from one side toward the other side, not included in the one surface of the semiconductor element and exposed from the one surface and the exposed surface has the other side portion that is positioned toward the other side with respect to the one surface of the semiconductor element.

Abstract: A method for producing an encapsulating sheet-covered semiconductor element includes a semiconductor element disposing step of disposing a plurality of semiconductor elements at spaced intervals to each other and an encapsulating sheet disposing step of disposing an encapsulating sheet so as to cover a plurality of the semiconductor elements and to form a space over the semiconductor elements adjacent to each other.

Abstract: A method for producing a semiconductor device includes a preparing step of preparing a board formed with a concave portion, a terminal disposed in or around the concave portion, and a semiconductor element disposed in the concave portion; a wire-bonding step of connecting the terminal to the semiconductor element with a wire; a pressure-welding step of pressure-welding an encapsulating sheet to the board so as to be in close contact with the upper surface of a portion around the concave portion and to be separated from the upper surface of the concave portion under a reduced pressure atmosphere; and an atmosphere releasing step of releasing the board and the encapsulating sheet under an atmospheric pressure atmosphere.

Abstract: A method for producing a semiconductor device includes a preparing step of preparing a board formed with a concave portion, a terminal disposed in or around the concave portion, and a semiconductor element disposed in the concave portion; a wire-bonding step of connecting the terminal to the semiconductor element with a wire; a pressure-welding step of pressure-welding an encapsulating sheet to the board so as to be in close contact with the upper surface of a portion around the concave portion and to be separated from the upper surface of the concave portion under a reduced pressure atmosphere; and an atmosphere releasing step of releasing the board and the encapsulating sheet under an atmospheric pressure atmosphere.

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: 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.