Patent application number | Description | Published |
20100294543 | HEAT DISSIPATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a heat dissipating substrate having a structure in which two two-layered core substrates, each including a metal core functioning to radiate heat, are laminated and connected in parallel to each other, thus accomplishing more improved radiation performance, and a method of manufacturing the same. | 11-25-2010 |
20110061901 | HEAT-DISSIPATING SUBSTRATE AND FABRICATING METHOD THEREOF - 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. | 03-17-2011 |
20110067902 | HEAT DISSIPATING CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - Disclosed is a heat dissipating circuit board, which includes a metal core including an insulating layer formed on the surface thereof, a circuit layer formed on the insulating layer and including a seed layer and a first circuit pattern, and a heat dissipating frame layer bonded onto the circuit layer using solder and having a second circuit pattern, and in which the heat dissipating frame layer is bonded onto the circuit layer not by a plating process but by using solder, thus reducing the cost and time of the plating process and relieving stress applied to the heat dissipating circuit board due to the plating process. A method of manufacturing the heat dissipating circuit board is also provided. | 03-24-2011 |
20110075374 | RIGID-FLEXIBLE CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - Disclosed is a rigid-flexible circuit board, which includes a rigid region and a flexible region, the rigid region including a flexible substrate having a first circuit layer on both surfaces thereof, a metal core substrate formed on the flexible substrate and having a second circuit layer on both surfaces thereof, and an adhesive layer disposed between the flexible substrate and the metal core substrate, wherein the metal core substrate includes a metal core having a through hole, and an insulating layer formed on a surface of the metal core, so that the rigid region and the flexible region are thermally separated from each other and heat dissipation properties of the rigid region are improved. A method of manufacturing the rigid-flexible circuit board is also provided. | 03-31-2011 |
20110083885 | METAL WIRING STRUCTURE COMPRISING ELECTROLESS NICKEL PLATING LAYER AND METHOD OF FABRICATING THE SAME - Disclosed herein is a metal wiring structure, including: an electroless nickel plating layer formed on an insulation layer; and a surface treatment layer formed on the electroless nickel plating layer, and a method of fabricating the same. The metal wiring structure has excellent adhesivity without regard to the kind of substrate and can be easily fabricated. | 04-14-2011 |
20110088928 | HEAT DISSIPATING SUBSTRATE - Disclosed is a heat dissipating substrate, which includes a metal plate, an insulating film formed on the surface of the metal plate, a circuit pattern formed on the insulating film, and a first via formed to pass through at least a part of the metal plate so that the metal plate and the circuit pattern are electrically connected to each other, and also which exhibits superior heat dissipation effects and enables the configuration of a circuit board to be simple due to no need to additionally provide a ground layer and a power layer. | 04-21-2011 |
20110101392 | PACKAGE SUBSTRATE FOR OPTICAL ELEMENT AND METHOD OF MANUFACTURING THE SAME - Disclosed is a package substrate for an optical element, which includes a metal core having a hole formed therein, an insulating layer formed on the surface of the metal core, a first metal layer formed to a predetermined thickness on the surface of the insulating layer so as to include therein the metal core insulated by the insulating layer, an optical element mounted on the first metal layer, and a fluorescent resin material applied on the optical element in order to protect the optical element, thereby simplifying a package substrate process and improving light uniformity, light reflectivity and heat dissipating properties compared to a conventional configuration. A method of manufacturing the package substrate is also provided. | 05-05-2011 |
20110140144 | PACKAGE SUBSTRATE FOR OPTICAL ELEMENT AND METHOD OF MANUFACTURING THE SAME - 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. | 06-16-2011 |
20110164391 | ELECTRONIC COMPONENT-EMBEDDED PRINTED CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is an electronic component-embedded printed circuit board, including: a metal substrate including an anodic oxide film formed over the entire surface thereof; two electronic components disposed in a cavity formed in the metal substrate in two stages; an insulation layer formed on both sides of the metal substrate to bury the electronic components disposed in the cavity; and circuit layers including vias connected with connecting terminals of the electronic components and formed on the exposed surfaces of the insulation layer. The electronic component-embedded printed circuit board is advantageous in that its radiation performance of radiating the heat generated from an electronic component can be improved, and its production cost can be reduced, because a metal substrate is used instead of a conventional insulating material. | 07-07-2011 |
20110316035 | HEAT DISSIPATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed is a heat-dissipating substrate, which includes a base substrate including a metal layer, an insulating layer formed on one surface of the metal layer, and a circuit layer formed on the insulating layer, a heat sink layer formed on the other surface of the metal layer, a connector for connecting the base substrate and the heat sink layer to each other, an opening formed in a direction of thickness of the base substrate and into which the connector is inserted, and an anodized layer formed on either or both of the other surface and a lateral surface of the metal layer, and in which the metal layer and the heat sink layer are insulated from each other by means of the anodized layer, thus preventing transfer of static electricity or voltage shock to the metal layer. A method of manufacturing the heat-dissipating substrate is also provided. | 12-29-2011 |
20120127666 | Heat-Radiating Substrate and Method Of Manufacturing The Same - Disclosed herein are a heat-radiating substrate and a method of manufacturing the same. The heat-radiating substrate includes: a base substrate with a heat sink, having a groove; an insulating layer formed on the base substrate by performing anodization thereon; and a circuit layer formed on the insulating layer, whereby the heat-radiating substrate with the heat-sink, made of metal material, is manufactured, thereby making it possible to protect devices weak against heat and thus solve the problem in view of reduced life span and degraded reliability. | 05-24-2012 |
20120199381 | PRINTED CIRCUIT BOARD - The present invention relates to a printed circuit board. A heat radiation coating material is applied to a portion of a circuit layer formed on an outermost portion of the printed circuit board, thereby making it possible to improve heat radiation performance of the printed circuit board. The heat radiation coating material also serves as a solder resist, thereby making it possible to insulate and protect the printed circuit board without a separate solder resist. | 08-09-2012 |
20120225508 | PACKAGE SUBSTRATE FOR PTICAL ELEMENT AND METHOD OF MANUFACTURING THE SAME - 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. | 09-06-2012 |
20120273116 | HEAT DISSPIATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a heat dissipating substrate having a structure in which two two-layered core substrates, each including a metal core functioning to radiate heat, are laminated and connected in parallel to each other, thus accomplishing more improved radiation performance, and a method of manufacturing the same. | 11-01-2012 |
20120273558 | HEAT DISSIPATING CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - Disclosed is a heat dissipating circuit board, which includes a metal core including an insulating layer formed on the surface thereof, a circuit layer formed on the insulating layer and including a seed layer and a first circuit pattern, and a heat dissipating frame layer bonded onto the circuit layer using solder and having a second circuit pattern, and in which the heat dissipating frame layer is bonded onto the circuit layer not by a plating process but by using solder, thus reducing the cost and time of the plating process and relieving stress applied to the heat dissipating circuit board due to the plating process. A method of manufacturing the heat dissipating circuit board is also provided. | 11-01-2012 |
20120319259 | POWER MODULE PACKAGE AND METHOD FOR FABRICATING THE SAME - Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes: first and second lead frames arranged to face each other, both or either of the first and second frames being made of aluminum; anodized layers formed on portions of the lead frame(s) made of aluminum in the first and second lead frames; and semiconductor devices mounted on first surfaces of the first and second lead frames. | 12-20-2012 |
20120319260 | POWER MODULE PACKAGE AND SYSTEM MODULE HAVING THE SAME - Disclosed herein is a power module package, including: a first substrate having first semiconductor chips mounted thereon; and a second substrate having second semiconductor chips mounted thereon, the second substrate being coupled with the first substrate such that a side surface in a thickness direction thereof is disposed on an upper surface of the first substrate. | 12-20-2012 |
20130009290 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - 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. | 01-10-2013 |
20130009291 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - 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. | 01-10-2013 |
20130010425 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes: a base substrate made of a metal material; cooling channels formed to allow a cooling material to flow in an inner portion of the base substrate; an anodized layer formed on an outer surface of the base substrate; a metal layer formed on a first surface of the base substrate having the anodized layer and including circuits and connection pads; and semiconductor devices mounted on the metal layer. | 01-10-2013 |
20130020111 | SUBSTRATE FOR POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a substrate for a power module package and a method for manufacturing the same, including: a base substrate made of a metal material; an anodized layer formed on the base substrate; and a circuit layer formed on the anodized layer, wherein the anodized layer is formed to correspond to circuit patterns on the circuit layer or is formed to be divided into a plurality of areas. | 01-24-2013 |
20130020687 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes first and second lead frames disposed to face each other; ceramic coating layers formed on a portion of a first surface of both or one of both of the first and second lead frames; and semiconductor devices mounted on second surfaces of the first and second lead frames. | 01-24-2013 |
20130062743 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes: a heat dissipation plate including a first heat dissipation plate and a second heat dissipation plate disposed to be spaced apart from each other; insulating layers formed on the heat dissipation plate; metal layers formed on the insulating layers, semiconductor devices mounted on the metal layers; and lead spacers formed to connect the metal layer of the first heat dissipation plate side or the metal layer of the second heat dissipation plate side with the semiconductor layers, wherein the semiconductor devices formed on the metal layers of the first heat dissipation plate side and the semiconductor devices formed on the metal layer of the second heat dissipation plate side are disposed in a multi-layered type. | 03-14-2013 |
20130062744 | POWER MODULE PACKAGE - Disclosed herein is a power module package, including: a first substrate having one surface and the other surface; first vias formed to penetrate from one surface of the first substrate to the other surface thereof; a metal layer formed on one surface of the first substrate; semiconductor devices formed on the metal layer; and a metal plate formed on the other surface of the first substrate. | 03-14-2013 |
20130069108 | POWER SEMICONDUCTOR MODULE - Disclosed herein is a power semiconductor module including: a circuit board having gate, emitter, and collector patterns formed thereon; a first semiconductor chip mounted on the circuit board, having gate and emitter terminals each formed on one surface thereof, and having a collector terminal formed on the other surface thereof; a second semiconductor chip mounted on the first semiconductor chip, having a cathode terminal formed on one surface thereof, and having an anode terminal formed on the other surface thereof; a first conductive connection member having one end disposed between the collector terminal of the first semiconductor chip and the cathode terminal of the second semiconductor chip and the other end contacting the collector pattern of the circuit board; and a second conductive connection member having one end contacting the anode terminal of the second semiconductor chip and the other end contacting the emitter pattern of the circuit board. | 03-21-2013 |
20130069210 | POWER MODULE PACKAGE - 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. | 03-21-2013 |
20130105953 | POWER MODULE PACKAGE | 05-02-2013 |
20130105954 | SEMICONDUCTOR PACKAGE | 05-02-2013 |
20130105956 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME | 05-02-2013 |
20130134571 | POWER MODULE PACKAGE - Disclosed herein is a power module package including: a first heat dissipation plate including a first flow path, a second flow path, and a third flow path which are sequentially formed, the first flow path and the third flow path being formed to have a step therebetween; and a second heat dissipation plate formed under the first heat dissipation plate, having one face and the other face, having a semiconductor device mounting groove formed in the one face thereof, and including a fourth flow path having one end connected to the second flow path and the other end connected to the third flow path, wherein a cooling material introduced through the first flow path is distributed to the third flow path and the fourth flow path based on the second flow path. | 05-30-2013 |
20130154083 | SEMICONDUCTOR PACKAGE - Disclosed herein is a semiconductor package. The semiconductor package includes a semiconductor module, a first heat dissipation unit, a second heat dissipation unit and a housing. The semiconductor module contains a semiconductor device. The first heat dissipation unit is provided under the semiconductor module. The first heat dissipation unit includes at least one first pipe through which first cooling water passes. A first rotator is rotatably disposed in the first pipe. The second heat dissipation unit is provided on the semiconductor module. The second heat dissipation unit includes at least one second pipe through which second cooling water passes. A second rotator is rotatably to disposed in the second pipe. The housing is provided on opposite sides of the semiconductor module, the first heat dissipation unit and the second heat dissipation unit and supports the semiconductor module, the first heat dissipation unit and the second heat dissipation unit. | 06-20-2013 |
20130233599 | SUBSTRATE FOR POWER MODULE - Disclosed herein is a substrate for a power module. The substrate may include a metal base substrate, an insulating layer formed on the metal base substrate and including a plurality of insulating adhesion layers and a ceramic filler layer formed on a joining interface between the plurality of insulating adhesion layers, and a circuit layer formed on the insulating layer. | 09-12-2013 |
20130270687 | DOUBLE SIDE COOLING POWER SEMICONDUCTOR MODULE AND MULTI-STACKED POWER SEMICONDUCTOR MODULE PACKAGE USING THE SAME - Disclosed herein is a double side cooling power semiconductor module including: a first cooler having a concave part formed in one surface thereof in a thickness direction; a first semiconductor chip mounted on the concave part of the first cooler; a second cooler having one surface and the other surface and formed on one surface of the first cooler so that one surface thereof contacts the first semiconductor chip; a circuit board formed on the other surface of the second cooler; a second semiconductor chip mounted on the circuit board; and a flexible substrate having a circuit layer electrically connecting the first and second semiconductor chips to each other. | 10-17-2013 |
20130337613 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a power module package and a method for manufacturing the same. The power module package includes first and second lead frames disposed to face each other; ceramic coating layers formed on a portion of a first surface of both or one of both of the first and second lead frames; and semiconductor devices mounted on second surfaces of the first and second lead frames. | 12-19-2013 |
20140174940 | HEAT-DISSIPATING SUBSTRATE AND FABRICATING METHOD THEREOF - Embodiments of the invention provide a heat-dissipating substrate and a fabricating method of the heat-dissipating substrate. According to various embodiments, 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. | 06-26-2014 |
Patent application number | Description | Published |
20090261356 | Sub-Mount, light emitting diode package and manufacturing method thereof - A sub-mount, a light emitting diode package, and a method of manufacturing thereof are disclosed. A sub-mount, on which multiple light emitting diodes are mounted, can include a multiple number of metal bodies on which the light emitting diodes are respectively mounted, and an oxide wall interposed between the metal bodies such that the adjacent metal bodies are supported by each other but electrically disconnected from each other. By utilizing certain embodiments of the invention, a high heat releasing effect may be obtained, and manufacturing costs may be reduced. | 10-22-2009 |
20100032705 | LIGHT EMITTING DIODE PACKAGE AND METHOD OF MANUFACTURING THE SAME - Provided is an LED package including a metal substrate that has one or more via holes formed therein; an insulating layer that is formed on a surface of the metal substrate including inner surfaces of the via holes; a plurality of metal patterns that are formed on the insulating layer and are electrically isolated from one another; and an LED chip that is mounted on a metal pattern among the plurality of metal patterns. | 02-11-2010 |
20120001544 | LIGHT EMITTING MODULE AND METHOD OF MANUFACTURING THE SAME - Disclosed are a light emitting module and a method of manufacturing the light emitting module. The light emitting module includes: a heat radiating substrate which includes a metal substrate with through holes, an internal insulating layer formed along inner walls of the through holes, and an external insulating layer covering all outer surfaces of the metal substrate; a light emitting component unit disposed on a top surface of the heat radiating substrate; a driving circuit unit which is electrically connected to the light emitting component unit, and is mounted on the heat radiating substrate to apply a driving signal to the light emitting component unit; a passive component which is mounted on the heat radiating substrate and is electrically connected to the driving circuit unit; and circuit wiring layers which are disposed on a top and a bottom of the heat radiating substrate, respectively, and are interconnected therebetween through vias formed on the through holes with the internal insulating layer of the heat radiating substrate, and play a role of electrical interconnection of the driving circuit unit and the light emitting component unit, or the driving circuit unit and the passive component. | 01-05-2012 |
20120043875 | RADIANT HEAT SUBSTRATE AND METHOD FOR MANUFACTURING THE RADIANT HEAT SUBSTRATE, AND LUMINOUS ELEMENT PACKAGE WITH THE RADIANT HEAT SUBSTRATE - The present invention provides a radiant heat substrate comprising: a conductive substrate which is formed of a metal material and includes a front surface having a luminous element mounted thereon and a rear surface opposed to the front surface; an insulating film which covers the front surface of the conductive substrate; a metal oxide film which covers the rear surface of the conductive substrate; and a metal pattern which covers the insulating film, wherein the metal pattern comprises: a heat transfer pad which is bonded to the luminous element; and a circuit line which is disposed at a region except from the mounting region of the luminous element and is electrically connected to the luminous element. | 02-23-2012 |
20130026616 | POWER DEVICE PACKAGE MODULE AND MANUFACTURING METHOD THEREOF - The present invention relates to a power device package module and a manufacturing method thereof. In one aspect of the present invention, a power device package module includes: a control unit a first lead frame, a control chip and a first coupling portion that are mounted on a first substrate, wherein the first lead frame and the first coupling portion are electrically connected to the control chip, and individually molded; and a power unit including a second lead frame, a power chip and a second coupling portion that are mounted on a second substrate, wherein the second lead frame and the second coupling portion are electrically connected to the power chip, and individually molded, wherein the individually molded control unit and power unit are coupled by the first coupling portion and the second coupling portion. | 01-31-2013 |
20130083492 | POWER MODULE PACKAGE AND METHOD OF MANUFACTURING THE SAME - A power module package includes: a substrate having a stepped portion and a non-stepped portion; a power circuit unit electrically connected to a circuit wiring provided in the stepped portion; a control circuit unit electrically connected to a circuit wiring provided in the non-stepped portion; and a molding unit molded on the substrate to seal the power circuit unit while exposing the circuit wiring of the non-stepped portion. Therefore, it is possible to improve thermal characteristics of the power module package, implement high reliability between the power circuit unit and the control circuit unit, improve design freedom of the power module package, and implement miniaturization of products. | 04-04-2013 |
Patent application number | Description | Published |
20130270689 | SEMICONDUCTOR PACKAGE, SEMICONDUCTOR MODULE, AND MOUNTING STRUCTURE THEREOF - Provided are a semiconductor package capable of packaging and modularizing power semiconductor devices which are difficult to integrate due to heat generation, a semiconductor package module using the same, and a mounting structure thereof. The semiconductor package includes: a common connection terminal formed to have a flat plate shape; first and second electronic devices respectively bonded to both surfaces of the common connection terminals; first and second connection terminals having a flat plate shape and bonded to the first electronic device; and a third connection terminal having a flat plate shape and bonded to the second electronic device. | 10-17-2013 |
20130341782 | SEMICONDUCTOR PACKAGE MODULE - There is provided a semiconductor package module, and more particularly, a semiconductor package module constituted by modularizing power semiconductor devices incapable of being able to be easily integrated due to heat generated therefrom. To this end, the semiconductor package module includes a plurality of semiconductor packages; and a plurality of semiconductor packages; and a heat dissipation member having a pipe shape including a flow channel formed therein and including at least one or more through holes into which the semiconductor packages are inserted. | 12-26-2013 |
20140001619 | POWER MODULE PACKAGE AND METHOD FOR MANUFACTURING THE SAME | 01-02-2014 |
20140092563 | HEAT RADIATING SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is a heat radiating substrate including: a heat radiating plate including a plurality of holes having a predetermined depth and formed in a lower portion of one side thereof; a conductor pattern layer formed on the heat radiating plate and including a mounting pad on which a control device and a power device are mounted and a circuit pattern; and an insulating layer formed between the heat radiating plate and the conductor pattern layer. | 04-03-2014 |
20140110156 | HEAT RADIATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a heat radiating substrate including: a heat radiating plate having a step formed so that one side and the other side thereof have thicknesses different from each other; a conductor pattern layer formed over the heat radiating plate and including a mounting pad on which a control device and a power device are mounted and a circuit pattern; and an insulating layer formed between the heat radiating plate and the conductor pattern layer. | 04-24-2014 |
20140117524 | POWER SEMICONDUCTOR MODULE AND MANUFACTURING METHOD THEREOF - There are provided a power semiconductor module and a manufacturing method thereof, the power semiconductor module including: a lead frame; a base substrate including a circuit wiring formed on an insulating layer thereof; a plurality of power semiconductor devices disposed to contact the circuit wiring; and a multilayer substrate formed by stacking a plurality of substrates and electrically connecting the power semiconductor devices and the lead frame to one another using a connection line formed therein and having conductivity. | 05-01-2014 |
20140117525 | POWER MODULE PACKAGE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a power module package including: a base substrate; a metal layer including a circuit pattern and a connection pad formed on the base substrate; a semiconductor device including a plurality of electrodes mounted on the circuit pattern of the metal layer; and a plurality of lead frames formed on the connection pad of the metal layer and respectively connected to the plurality of electrodes of the semiconductor device. | 05-01-2014 |
20140124182 | COOLING SYSTEM OF POWER SEMICONDUCTOR DEVICE - Disclosed herein is a cooling system of a power semiconductor device. The cooling system of a power semiconductor device, which improves a cooling structure according to the related art to deprive heat generated from power devices while moving a working fluid introduced through an inlet to one direction and discharge the working fluid to an outlet, forms a branch inlet in a direction crossing a main inlet and additionally introduce the low-temperature working fluid through the branch inlet so as to be supplied to a channel to mix the working fluid supplied through the main inlet via the channel with the working fluid additionally introduced through the branch inlet around power devices, thereby improving a cooling effect. | 05-08-2014 |
20140167242 | POWER MODULE PACKAGE - Disclosed herein is a power module package including: a first module configured of a first substrate having one surface and the other surface, a first semiconductor chip mounted on one surface of the first substrate, and a first sealing member formed to cover the first semiconductor chip mounted on one surface of the first substrate from both sides in a thickness direction of the first substrate and expose the other surface of the first substrate; and a case enclosing the first module. | 06-19-2014 |
20140175631 | SEMICONDUCTOR MODULE HAVING SLIDING CASE AND MANUFACTURING METHOD THEREOF - There is provided a semiconductor module capable of being easily manufactured and a manufacturing method thereof, the semiconductor module including a module substrate on which at least one electronic element is mounted, at least one external connection terminal fastened to the module substrate, and a case formed by coupling a first case and a second case, wherein the first case and the second case accommodate the module substrate at both ends of the module substrate and are coupled to each other. | 06-26-2014 |
20140185242 | POWER SEMICONDUCTOR MODULE - There is provided a power semiconductor module in which power semiconductor elements, integration of which may be difficult due to heating, are modularized. The power semiconductor module includes: a heat dissipation substrate electrically connected to a common connection terminal; and a plurality of electronic elements disposed on the heat dissipation substrate, wherein the electronic elements have varying spaces therebetween. | 07-03-2014 |