摘要:
Disclosed herein are a heat-dissipating substrate and a fabricating method thereof. The heat-dissipating substrate includes a plating layer divided by a first insulator formed in a division area. A metal plate is formed on an upper surface of the plating layer and filled with a second insulator at a position corresponding to the division area, with an anodized layer formed on a surface of the metal plate. A circuit layer is formed on the anodized layer which is formed on an upper surface of the metal plate. The heat-dissipating substrate and fabricating method thereof achieves thermal isolation by a first insulator formed in a division area and a second insulator.
摘要:
Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes: a base substrate having grooves formed between a plurality of semiconductor device mounting areas; semiconductor devices mounted on the semiconductor device mounting areas of the base substrate; and a molding formed on the base substrate and in inner portions of the grooves.
摘要:
Disclosed herein is a power module package including: a first substrate; a second substrate having a pad for connection to the first substrate formed on one side or both sides of one surface thereof and having external connection terminals for connection to the outside formed on the other surface thereof; and a lead frame having one end bonded to the first substrate and the other end bonded to the pad of the second substrate to thereby vertically connect the first and second substrates to each other.
摘要:
Disclosed herein are a hybrid heat-radiating substrate including a metal core layer; an oxide insulating core layer that is formed in a thickness direction of the metal core layer to have a shape where the oxide insulating core layer is integrally formed with the metal core layer, an oxide insulating layer that is formed on one surface or both surfaces of the metal core layer, and a circuit layer that is configured to include first circuit patterns formed on the oxide insulating core layer and second circuit patterns formed on the oxide insulating layer, and a method of manufacturing the same.
摘要:
Disclosed herein is a power module package including: a first substrate; a second substrate having a pad for connection to the first substrate formed on one side or both sides of one surface thereof and having external connection terminals for connection to the outside formed on the other surface thereof; and a lead frame having one end bonded to the first substrate and the other end bonded to the pad of the second substrate to thereby vertically connect the first and second substrates to each other.
摘要:
Disclosed herein is a power module package including: a first substrate having one surface and the other surface; a second substrate contacting one side of one surface of the first substrate; and a first lead frame contacting the other side of one surface of the first substrate. The power module package further includes: a first metal layer formed on one side of one surface of the first substrate; a first bonding layer formed on the first metal layer and contacting a lower surface of the second substrate; a second metal layer formed on the other side of one surface of the first substrate; and a second bonding layer formed on the second metal layer and contacting a lower surface of the first lead frame.
摘要:
Disclosed is a package substrate for an optical element, which includes a base substrate, a first circuit layer formed on the base substrate and including a mounting portion, an optical element mounted on the mounting portion, one or more trenches formed into a predetermined pattern around the mounting portion by removing portions of the first circuit layer so that the first circuit layer and the optical element are electrically connected to each other, and a fluorescent resin material applied on an area defined by the trenches so as to cover the optical element, and in which such trenches are formed on the first circuit layer so that the optical element and the first circuit layer are electrically connected to each other, thus maintaining the shape of the fluorescent resin material and obviating the need to form a via under the optical element. A method of manufacturing the package substrate for an optical element is also provided.
摘要:
Disclosed herein is a heat-radiating substrate, including: a copper substrate; an alumina layer formed on one side of the copper substrate; a first circuit layer formed on the alumina layer; and a second circuit layer formed on the first circuit layer, wherein a heat-radiating element is mounted on a first pad of the first circuit layer or a second pad of the second circuit layer, or is directly mounted on the exposed side of the copper substrate after forming an opening on the alumina layer.
摘要:
Disclosed herein are a heat-radiating substrate and a method of manufacturing the same. The heat-radiating substrate includes: a core layer including a core metal layer and a core insulating layer formed on the core metal layer and divided into a first region and a second region; a circuit layer formed in the first region of the core layer; a build-up layer formed in the second region of the core layer and including a build-up insulating layer and a build-up circuit layer; an adhesive layer formed between the second region of the core layer and the build-up layer; and an impregnation device mounted on the build-up layer to be impregnated into the adhesive layer. A heat generating element is mounted on the circuit layer and a thermally weakened element is mounted on the build-up layer, thereby preventing the thermally weakened element from being damaged by heat of the heat generating element. The impregnation device is formed on the build-up layer and is impregnated into the adhesive layer, thereby efficiently utilizing a space.
摘要:
Disclosed herein are a heat-radiating substrate and a method of manufacturing the same. The heat-radiating substrate includes a core layer including a core metal layer and a core insulating layer formed on the core metal layer and divided into a first region and a second region; a circuit layer formed in the first region of the core layer; and a build-up layer formed in the second region of the core layer and including a build-up insulating layer and a build-up circuit layer. A heat generating element is mounted on the circuit layer and a thermally weakened element is mounted on the build-up layer, thereby preventing the thermally weakened element from being damaged by the heat generated from the heat generating element.