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 surface of the first substrate; a third substrate contacting one side of the other surface of the first substrate; a first lead frame contacting the other side of the other surface of the first substrate; and a second lead frame electrically connected to the third substrate.
摘要:
Disclosed herein is a heat dissipation system for a power module, the heat dissipation system including: first and second heat dissipation plates spaced apart from each other while facing each other, to form a cooling medium flow passage; first and second inflow lines extended to the cooling medium flow passage of the first and second heat dissipation plates, to transfer cooling media flowing therein at different flow rates or different fluxes to the cooling medium flow passage; and first and second inlets respectively connected with the first and second inflow lines to allow the cooling media to flow therein.
摘要:
Disclosed herein is a heat dissipation system for a power module, the heat dissipation system including: first and second heat dissipation plates spaced apart from each other while facing each other, to form a cooling medium flow passage; first and second inflow lines extended to the cooling medium flow passage of the first and second heat dissipation plates, to transfer cooling media flowing therein at different flow rates or different fluxes to the cooling medium flow passage; and first and second inlets respectively connected with the first and second inflow lines to allow the cooling media to flow therein.
摘要:
There is provided a semiconductor package capable of significantly reducing a size of a power semiconductor package including a power semiconductor device and a control device. The semiconductor package includes a lead frame including a first frame and a second frame; at least one first electronic device mounted on the first frame; a substrate engaged with the second frame and having one surface on which a wiring pattern is formed; and at least one second electronic device mounted on the substrate and electrically connected to the wiring pattern, a portion of the wiring pattern electrically connected to the at least one second electronic device being formed to have a line width smaller than an internal lead of the lead frame.
摘要:
Disclosed herein is a semiconductor package including: first power device; second power device formed in an upper portion of the first power device; a first lead frame formed in a lower portion of the first power device; a second lead frame formed in the upper portion of the first power device and a lower portion of the second power device; a third lead frame formed in an upper portion of the second power device; a fourth lead frame electrically connected to at least one of the power device and the second power device; and a sealing substance exposing a part of the first through fourth lead frames and sealing the other parts thereof.
摘要:
A substrate for a light emitting diode (LED) package, and an LED package having the same are disclosed. The substrate for an LED package includes: a metal plate; an insulation oxide layer formed on a portion of the surface of the metal plate; a first conductive pattern formed at one region of the insulation oxide layer and providing a light emitting diode mounting area; and a second conductive pattern formed at another region of the insulation oxide layer such that it is separated from the first conductive pattern. In the substrate for an LED package, because regions of the insulation oxide layer other than regions for insulating conductive patterns are removed, heat generated from the light emitting diode can be effectively released. In addition, degradation of reflexibility and luminance of the LED due to the insulation oxide layer can be prevented.
摘要:
Disclosed herein is a heat dissipation system for a power module, including: first cooling medium flow parts and second cooling medium flow parts allowing cooling media to flow in first and second directions, respectively.
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 herein is a heat dissipation device for a power conversion module. The device includes a casing, a high-heat-dissipation heat sink and a circuit board. The casing includes a heat-dissipation fin unit which has heat dissipation fins arranged at positions spaced apart from each other by predetermined intervals. The casing has a mounting space therein. The high-heat-dissipation heat sink is installed in the mounting space of the casing. The circuit board is coupled to a lower surface of the casing. Therefore, the weight and size of the heat dissipation device can be reduced. In addition, the heat sink and the casing having the heat dissipation fins dissipate heat at the same time, thus enhancing the heat dissipation efficiency. Moreover, in an optimal design, the high-heat-dissipation heat sink is located at a position corresponding to a part which generates high heat so that the heat dissipation efficiency can be maximized.
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.