摘要:
A package type semiconductor device comprising: a semiconductor chip having a semiconductor part; a main electrode for connecting to a first region of the semiconductor part; a control wiring layer for connecting to a second region of the semiconductor part; a blocking member electrically isolated from the control wiring layer; a first metallic layer; a protection film disposed among the main electrode, the control wiring layer and the blocking member; and a metal block for connecting to the main electrode through the first metallic layer. The chip, the main electrode, the control wiring layer, the blocking member, and the metal block are packaged. The blocking member is disposed between the main electrode and the control wiring layer.
摘要:
A package type semiconductor device comprising: a semiconductor chip having a semiconductor part; a main electrode for connecting to a first region of the semiconductor part; a control wiring layer for connecting to a second region of the semiconductor part; a blocking member electrically isolated from the control wiring layer; a first metallic layer; a protection film disposed among the main electrode, the control wiring layer and the blocking member; and a metal block for connecting to the main electrode through the first metallic layer. The chip, the main electrode, the control wiring layer, the blocking member, and the metal block are packaged. The blocking member is disposed between the main electrode and the control wiring layer.
摘要:
Semiconductor equipment includes: a semiconductor device; a pair of upper and lower heat radiation plates; and a heat radiation block. The heat radiation block has a planar shape, which is smaller than a planer shape of the semiconductor device. The semiconductor device includes a heat generation portion facing the heat radiation block. The heat generation portion has a periphery edge, which is determined such that a distance between the periphery edge of the heat generation portion and a periphery edge of the heat radiation block is equal to or shorter than 1.0 mm.
摘要:
A semiconductor device includes a semiconductor chip, a first heat sink, a second heat sink, and a mold resin. The first heat sink is electrically and thermally connected to a surface of the semiconductor chip for functioning as an electrode for the semiconductor chip and releasing the heat generated by the semiconductor chip. The second heat sink is electrically and thermally connected to another surface of the semiconductor chip for functioning as another electrode for the semiconductor chip and releasing the heat. The semiconductor chip and the first and second heat sinks are covered with the mold resin such that the heat sinks are exposed on a substantially flat surface of the mold resin.
摘要:
A semiconductor device includes a semiconductor chip, a first heat sink, a second heat sink, and a mold resin. The first heat sink is electrically and thermally connected to a surface of the semiconductor chip for functioning as an electrode for the semiconductor chip and releasing the heat generated by the semiconductor chip. The second heat sink is electrically and thermally connected to another surface of the semiconductor chip for functioning as another electrode for the semiconductor chip and releasing the heat. The semiconductor chip and the first and second heat sinks are covered with the mold resin such that the heat sinks are exposed on a substantially flat surface of the mold resin.
摘要:
A method for manufacturing a mold type semiconductor device is provided. The device includes a semiconductor chip having a semiconductor part and a metallic member connecting to the chip via a conductive layer and a connecting member. The method includes: forming the semiconductor part on a semiconductor substrate so that a cell portion is provided; forming the conductive layer on the substrate; forming a first resist layer to cover a part of the conductive layer corresponding to the cell portion; etching the conductive layer with the first resist layer as a mask so that a first conductive layer is provided; removing the first resist layer and forming a second conductive layer to cover a surface and an edge of the first conductive layer. The second conductive layer has a Young's modulus equal to or larger than the semiconductor substrate.
摘要:
A mold type semiconductor device includes a semiconductor chip including a semiconductor part; a metallic layer; a solder layer; and a metallic member connecting to the semiconductor chip through the metallic layer and the solder layer. The solder layer is made of solder having yield stress smaller than that of the metallic layer. Even when the semiconductor chip is sealed with a resin mold, the metallic layer is prevented from cracking.
摘要:
A mold type semiconductor device includes a semiconductor chip including a semiconductor part; a metallic layer; a solder layer; and a metallic member connecting to the semiconductor chip through the metallic layer and the solder layer. The solder layer is made of solder having yield stress smaller than that of the metallic layer. Even when the semiconductor chip is sealed with a resin mold, the metallic layer is prevented from cracking.
摘要:
A semiconductor element, and a pair of insulation substrates sandwiching the semiconductor element therebetween forms a substrate unit. The substrate unit is press-fitted in a recess provided between first radiation block and cooling block. The press-fitting of the substrate unit is performed by a second radiation block which is screwed to push the first radiation block toward the cooling block. A high thermal-conductive radiation material is disposed at the interfaces between each of the insulation substrates and each of the blocks to keep adhesiveness therebetween.
摘要:
A semiconductor element, and a pair of insulation substrates sandwiching the semiconductor element therebetween forms a substrate unit. The substrate unit is press-fitted in a recess provided between first radiation block and cooling block. The press-fitting of the substrate unit is performed by a second radiation block which is screwed to push the first radiation block toward the cooling block. A high thermal-conductive radiation material is disposed at the interfaces between each of the insulation substrates and each of the blocks to keep adhesiveness therebetween.