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With cooling means

Subclass of:

174 - Electricity: conductors and insulators

174680100 - CONDUITS, CABLES OR CONDUCTORS

174250000 - Preformed panel circuit arrangement (e.g., printed circuit)

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DocumentTitleDate
20120199381PRINTED 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
20130043064CERAMIC ELEMENTS MODULE - A ceramic elements module including ceramic elements that have a plurality of lower inserting grooves; an electronic component that is mounted on a lower surface of the ceramic elements; and a heat sink that is coupled with a lower part of the ceramic elements mounted with the electronic component and has a first penetrating hole corresponding to the lower inserting groove and a second penetrating hole into which the electronic component is inserted.02-21-2013
20100084167SUBSTRATE APPLICABLE IN CHIP LED PACKAGE - The present invention provides a substrate applicable in a chip LED package, the substrate having a conductive layer, an insulation layer and a heat-dissipation plate in this order, wherein the insulation layer comprises a liquid crystal polyester soluble in a solvent and a sheet comprising inorganic fibers and/or organic fibers. The substrate has a small linear expansion coefficient of the insulation layer in the surface direction and is extremely useful for production of a chip LED package while having a practical heat resistance.04-08-2010
20100071936Thermally-Efficient Metal Core Printed Circuit Board With Selective Electrical And Thermal Connectivity - Methods for controlling thermal conductivity paths in a metal core circuit board, as well as methods to provide selective electrical isolation, are described. In one embodiment, grooves are formed in an aluminum substrate surrounding areas where electrical components are to be mounted on the substrate. The grooves are oxidized along with the opposing surface of the substrate to create a vertical oxide ring around the area for electrical and lateral thermal isolation. This also allows the substrate to be made relatively thick for mechanical strength. Other features include forming copper around oxidized sides of the substrate for connection between top and bottom copper layers; plating up copper to be co-planar with a raised dielectric layer; forming indentions in the substrate for containing a dielectric so the dielectric is co-planar with the remaining surface; forming copper vias through the substrate; and planarizing the substrate surface so that conductors and dielectric layers are co-planar.03-25-2010
20090120669MICRO DEVICE WITH MICROTUBES - The current invention is related to a micro device with microtubes that can be used as a heat exchanger for ultra fast cooling or heating of liquids. Using a damascene metal level in combination with thermal degradable polymer (TDP) enables the manufacturing of compact system of microtubes only separated by a monolayer of metallic barrier material. Due to the small distance (i.e. the thickness of the barrier) between two separate microtubes a highly efficient heat transfer between two fluids circulating in the microtubes is enabled.05-14-2009
20100032189LED PACKAGE AND ATTACHMENT STRUCTURE OF MOLDED CIRCUIT COMPONENT - An LED package includes: a molded interconnect device that has an LED chip mounted thereon, and is mounted on a mounting board electrically connected to the LED chip; and a plurality of elastic bodies mounted on the mounting board while interposing solder therebetween. The plurality of elastic bodies hold a position of the molded interconnect device with respect to the mounting board by elastic forces given to an inner surface side of the molded interconnect device from a plurality of outer side surfaces thereof opposite to each other.02-11-2010
20090159315Wiring substrate - Disclosed herewith is a wiring substrate for releasing a heat generated by an electronic part efficiently through a heat pipe. The wiring substrate of the present invention includes a built-in heat pipe. The substrate also has amounting area. In the mounting area, an IC chip is mounted on a mounting surface. The substrate has a heat pipe formed so that its distance from the mounting area with respect to the mounting surface becomes shorter than its distance from an outside area provided outside the mounting area.06-25-2009
20100108362ELECTRONIC SYSTEM WITH HEAT DISSIPATION DEVICE - An electronic system includes a printed circuit board, a base, and a wire clip. The printed circuit board includes an electronic component and a plurality of hooks around the electronic component. The base thermally contacts the electronic component of the printed circuit board. Two clasps are formed at opposite ends of the base. The wire clip includes two pressing portions, two first connecting portions extending inwardly from first ends of the two pressing portions respectively, and two second connecting portions extending inwardly from second ends of the two pressing portions respectively. The first and second ends of the pressing portion are opposite. The pressing portions of the wire clip are clasped by the clasps of the base. The first connecting portions engage with two hooks of the printed circuit board, and the second connecting portions engage with another two hooks of the printed circuit board.05-06-2010
20120181067CIRCUIT BOARD - A circuit board includes a substrate, a first copper layer, a first solder mask, a second copper layer, and a second solder mask. The substrate has a first surface, an opposing second surface, and a conductive portion bypassing a laid-out circuit and passing through the first and second surfaces. The first and second copper layers are disposed on the first and second surfaces and connected to the conductive portion, respectively. The first and second solder masks are disposed on the first and second copper layers and provided with a first opening corresponding in position to a power component and a second opening for exposing the conductive portion and a portion of the second copper layer, respectively. Heat generated by the power component is transferred by the conductive portion to the second copper layer through the first copper layer and then dissipated to the outside through the second opening, better.07-19-2012
20120181066PACKAGE CARRIER - A package carrier is suitable for carrying a heat-generating element. The package carrier includes a substrate, an insulating structure with high thermal conductivity, and a patterned conductive layer. The substrate has a surface. The insulating structure with high thermal conductivity is configured on a portion of the surface of the substrate. The patterned conductive layer is configured on a portion of the surface of substrate, and a portion of the patterned conductive layer covers the insulating structure with high thermal conductivity. The heat-generating element is suitable for being configured on the portion of the patterned conductive layer which is located on the insulating structure with high thermal conductivity. A coefficient of thermal expansion (CTE) of the insulating structure with high thermal conductivity is between a CTE of the substrate and a CTE of the heat-generating element.07-19-2012
20130087367HEATING ELEMENT MOUNTING SUBSTRATE, METHOD OF MANUFACTURING THE SAME AND SEMICONDUCTOR PACKAGE - A heating element mounting substrate includes a substrate including a first surface and a second surface, a plurality of wiring patterns formed on the first surface of the substrate, and a plurality of filled portions including a conductive material filled in a plurality of through-holes, the plurality of through-holes penetrating through the substrate in a thickness direction. At least one of the plurality of wiring patterns has an area of not less than 30% of an area of the first surface of the substrate. The plurality of filled portions includes non-overlapping portions that extend from the plurality of wiring patterns as viewed from the first surface side of the substrate, areas of the plurality of filled portions overlapped with the plurality of wiring patterns are not less than 50% of respective areas of the corresponding wiring patterns as viewed from the second surface side of the substrate.04-11-2013
20130087368HEATING ELEMENT MOUNTING SUBSTRATE, METHOD OF MANUFACTURING THE SAME AND SEMICONDUCTOR PACKAGE - A heating element mounting substrate includes a substrate including a first surface and a second surface, a plurality of wiring patterns formed on the first surface of the substrate, and a plurality of filled portions including a conductive material filled in a plurality of through-holes, the plurality of through-holes penetrating through the substrate in a thickness direction. At least one of the plurality of wiring patterns has an area of not less than 30% of an area of the first surface of the substrate. Areas of the plurality of filled portions overlapped with the plurality of wiring patterns are not less than 50% of respective areas of the corresponding wiring patterns as viewed from the second surface side of the substrate.04-11-2013
20130087366POWER MANAGEMENT APPLICATIONS OF INTERCONNECT SUBSTRATES - Various applications of interconnect substrates in power management systems are described.04-11-2013
20100132982Package substrate including solder resist layer having pattern parts and method of fabricating the same - Disclosed is a package substrate including a solder resist layer having pattern parts and a method of fabricating the same, in which the pattern parts are formed on the solder resist layer, thus increasing heat dissipation efficiency and minimizing the warpage of the substrate.06-03-2010
20090301765Printed circuit board - A printed circuit board is provided with at least one via hole, in which a heat dissipating element is arranged, wherein at least one radiant source is arranged on the heat dissipating element. The lighting device is provided with at least one such printed circuit board.12-10-2009
20120217044HIGH PIN COUNT, SMALL SON/QFN PACKAGES HAVING HEAT-DISSIPATING PAD - A plastic SON/QFN package (08-30-2012
20090056980Printed Circuit Board - Disclosed is a printed circuit board (03-05-2009
20090266584HEAT DISSIPATING WIRING BOARD, METHOD FOR MANUFACTURING SAME, AND ELECTRIC DEVICE USING HEAT DISSIPIATING WIRING BOARD - It is an object to improve a conventional point that mounting an electronic component that requires a high current and heat radiation, such as an LED, together with other general electronic components on the same board has been difficult. To achieve this object, a different thickness lead frame partially having different thicknesses is used. On a thick portion of the different thickness lead frame, a special electronic component, such as an LED, for which a high current and heat radiation are required is mounted. Further, a thin portion of the different thickness lead frame is formed at a fine pitch, and general electronic components are mounted at a high density on the thin portion. Thus, unitization or modularization of electronic components for which a high current and heat radiation are required becomes possible.10-29-2009
20120222888PCB WITH HEAT DISSIPATION STRUCTURE AND PROCESSING METHODS THEREOF - The invention relates to a printed circuit board (PCB) with a heat dissipating structure. The PCB comprises a conducting layer and a PCB carrier layer, wherein the PCB carrier layer is a porous heat conducting layer; heat conducting liquid or a solid-liquid phase change heat conducting material is injected into holes of the porous heat conducting layer; the conducting layer is arranged on a first surface of the porous heat conducting layer; and a second surface of the porous heat conducting layer is a contact interface with external media. In the invention, the carrier layer of the PCB is a porous heat conducting layer which is made of a porous material with high thermal conductivity, heat conducting liquid such as heat conducting ink or the solid-liquid phase change heat conducting material permeates into the holes of the porous heat conducting layer; when the PCB is heated, the heat conducting ink is separated out of the porous material because the expansion coefficient of the porous material is inconsistent with that of the heat conducting ink, and the separated heat conducting ink fills air gaps between the contact interface and the external medium in the contact interface of the PCB via capillary phenomenon, so that heat resistance between a light-emitting diode (LED) and the contact interface is reduced greatly and the thermal conductivity of the PCB is enhanced; moreover, the PCB has low cost, simple structure and easy installation.09-06-2012
20110011628HIGHLY THERMAL CONDUCTIVE CIRCUIT BOARD - A highly thermal conductive circuit board includes a composite substrate, and a metal layer, an insulating layer, and a conductor layer sequentially disposed on the composite substrate. When at least one electronic element is electrically disposed on the conductor layer of the highly thermal conductive circuit board, heat produced by the electronic element in operation is rapidly dissipated through characteristics such as a high thermal conductivity and a low thermal expansion coefficient of the highly thermal conductive circuit board.01-20-2011
20130161074ELECTRONIC DEVICE WITH HEAT SINK - An electronic device includes a circuit board and a heat sink . A heat generating part is located on the circuit board. Through holes are defined in the circuit board. The heat sink includes a main body and resilient pieces located on the main body. The resilient pieces includes a latching portion and a resisting portion located on the latching portion. The latching portion extends through the through hole to engage with the circuit board. The resisting portion is received in the through hole and abuts the circuit board. The main body closely abuts the heat generating part. The latching portion can be disengaged from the circuit board simply by squeezing the resisting portion.06-27-2013
20130068509METHOD AND APPARATUS FOR CONNECTING INLAID CHIP INTO PRINTED CIRCUIT BOARD - A method and apparatus for mounting microchips 03-21-2013
20090008129COOLING OF SUBSTRATE USING INTERPOSER CHANNELS - A structure. The structure includes a substrate and an interposer. The substrate includes a heat source and N continuous substrate channels on a first side of the substrate (N≧2). The interposer includes N continuous interposer channels coupled to the N substrate channels to form M continuous loops (1≦M≦N). Each loop independently consists of K substrate channels and K interposer channels in an alternating sequence. For each loop, K is at least 1 and is subject to an upper limit consistent with a constraint of the M loops collectively consisting of the N interposer channels and the N substrate channels. Each loop is independently open ended or closed. The first side of the substrate is connected to the interposer. The interposer is adapted to be thermally coupled to a heat sink such that the interposer is interposed between the substrate and the heat sink.01-08-2009
20090008128ELECTRONIC APPARATUS - The invention provides an electronic apparatus having a metal core substrate including a metal plate, an insulating layer formed on the metal plate and a conductive layer formed on the insulating layer, and an electronic part, and to which the conductive layer and a terminal of the electronic part are connected. In the electronic apparatus, a member having a high thermal conductivity is arranged so as to be in contact with both of the metal plate and the electronic part. Accordingly, a heat radiating property of the electronic apparatus is increased.01-08-2009
20120111611Printed circuit board and method of manufacturing the same - Disclosed herein are a method of manufacturing a printed circuit board, including: providing a base substrate including a conductive layer provided on at least one surface thereof; forming conductive resist patterns by printing a conductive paste on the conductive layer; forming circuit wirings by etching the conductive layer using the conductive resist patterns as an etching mask; and forming a solder resist on the circuit wiring, and a printed circuit board manufactured therefrom.05-10-2012
20120111610HEAT-RADIATING SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein are a heat-radiating substrate and a method for manufacturing the same. The heat-radiating substrate includes: an anodized substrate having an anodized film formed over a metal substrate; a circuit pattern formed on one surface of the anodized substrate; and a metal layer formed on the other surface of the anodized substrate. The metal layer formed on the other surface of the anodized substrate has the same area as that of the circuit pattern formed on one surface thereof, and is formed within an edge of the anodized substrate. The metal layer is added, making it possible to minimize a warpage problem of the substrate. In addition, a heat radiating plate is in direct contact with the anodized substrate, thereby making it possible to solve a performance deterioration problem of the heat-radiating substrate and a heat generating element and improve a heat-radiating performance.05-10-2012
20080296047PRINTED WIRING BOARD ASSEMBLY, METHOD OF MOUNTING COMPONENTS ON PRINTED WIRING BOARD AND ELECTRONIC APPARATUS - According to one embodiment, there is provided a printed wiring board assembly composed of a printed wiring board having a first component mounting portion provided on one surface of the printed wiring board, a second component mounting portion provided on the other surface of the printed wiring board having the second component mounting portion overlapped partially with the first component mounting portion, a large-scaled ball grid array component mounted on the first component mounting portion, a circuit component mounted on the second component mounting portion, and a supplementary component which is provided on the second component mounting portion of the printed wiring board having a first portion functioning as a heat-sink to remove heat generated from the circuit component and a second portion functioning as a reinforcement portion to reinforce the first component mounting portion.12-04-2008
20110017496POWER MODULE SUBSTRATE HAVING HEATSINK, METHOD FOR MANUFACTURING THE SAME, POWER MODULE HAVING HEATSINK, AND POWER MODULE SUBSTRATE - A power module substrate having a heatsink, includes: a power module substrate having an insulating substrate having a first face and a second face, a circuit layer formed on the first face, and a metal layer formed on the second face; and a heatsink directly connected to the metal layer, cooling the power module substrate, wherein a ratio B/A is in the range defined by 1.55≦B/A≦20, where a thickness of the circuit layer is represented as A, and a thickness of the metal layer is represented as B.01-27-2011
20100089619CIRCUIT BOARD OF COMMUNICATION PRODUCT AND MANUFACTURING METHOD THEREOF - The present invention provides a circuit board of a communication product and a manufacturing method thereof. The circuit board comprises a main body of a circuit board and an isolation cover. A surface of the main body of the circuit board has a power transistor, an insulating layer, a plurality of first openings disposed at intervals on the insulating layer and around the power transistor, and a plurality of soldering portions exposed from the first openings respectively. The isolation cover comprises a cover body and a plurality of second openings equidistantly opened on a lateral side of the cover body. The isolation cover is disposed on the surface of the main body of the circuit board, and is soldered to the soldering portions through a local spot soldering process.04-15-2010
20090229864INSULATING CIRCUIT BOARD AND INSULATING CIRCUIT BOARD HAVING COOLING SINK - An insulating circuit board includes an insulating plate, a circuit board joined to a first surface of the insulating plate, and a metal plate joined to a second surface of the insulating plate. The circuit board is formed from an Al alloy having a purity of 99.98% or more or pure Al, and the metal plate is formed from an Al alloy having a purity of 98.00% or more and 99.90% or less. The thickness (a) of the circuit board is 0.2 mm or more and 0.8 mm or less, the thickness (b) of the metal plate is 0.6 mm or more and 1.5 mm or less, and the thicknesses satisfy the expression of a/b≦1. An insulating circuit board having a cooling sink includes cooling sink joined via a second solder layer. The second solder layer contains Sn as its main component, and has a Young's modulus, 35 GPa or more, a 0.2% proof stress of, 30 MPa or more, and a tensile strength of, 40 MPa or more. The cooling sink is formed from, pure Al or an Al alloy.09-17-2009
20110297427PRINTED CIRCUIT BOARD AND A METHOD OF MANUFACTURING THE SAME - Disclosed herein are a printed circuit board and a method of manufacturing the same. The printed circuit board includes a metal layer divided into a plurality of regions; a build-up layer formed on at least one surface of the metal layer; and a penetrating part penetrating through the metal layer including the build-up layer and electrically separating each of the plurality of regions of the metal layer. The metal layer is configured of the plurality of regions, the ground layers and the power layers that have different functions, thereby making it possible to be thin, and the plurality of regions of the metal layer are connected through a bridge and are then penetrated through by the penetrating part, thereby making it possible to easily manufacture the printed circuit board.12-08-2011
20110284272PRINTED CIRCUIT BOARD PROVIDING HEAT DISSIPATION - A printed circuit board includes an insulated base sheet, a heat-conducting layer, an insulated layer, a plurality of heat-conducting blocks, and a plurality of bonding pads. The heat-conducting layer is disposed on the insulated base sheet. The insulated layer is partially coated on the heat-conducting layer, leaving a plurality of exposed zones remaining thereon. The heat-conducting blocks are correspondingly formed on the exposed zones. The bonding pads are positioned on the heat-conducting layer for soldering circuit elements.11-24-2011
20100032190MOUNTING STRUCTURE AND ELECTRONIC EQUIPMENT - A mounting structure formed by bonding the electrodes of a substantially planar electronic component to the electrodes provided on the mounting surface of a circuit board includes a sealing body 5 formed between one main surface of the electronic component and the circuit board and/or on the other main surface of the electronic component. The sealing body 5 is composed of a plurality of layers having different adhesive strengths and thermal conductivities, wherein a layer having a relatively high adhesion strength is arranged in a region being in contact with either one of the electronic component and the circuit board, and a layer having a relatively high thermal conductivity is arranged in a region being in contact with none of the electronic component and the circuit board.02-11-2010
20110214904Heat Sink, Cooling Module And Coolable Electronic Board - A heatsink is provided with a base body opposed to a heat generating body and absorbing heat from the heat generating body. Thermal resistance of that opposed portion of the base body which is opposed to the heat generating body is higher than thermal resistance of a surrounding portion surrounding the opposed portion.09-08-2011
20090188701Inorganic powder, resin composition filled with the powder and use thereof - The present invention relates to an inorganic powder having a frequency-size distribution with multiple peaks, wherein the peaks are present at least in the particle size regions from 0.2 to 2 μm and from 2 to 63 μm, preferably with the maximum particle size being 63 μm or less, the average particle size being from 4 to 30 μm, and the mode size being from 2 to 35 μm. The inorganic powder of the present invention is useful as a filler for a high thermally conductive member in electronic component-mounted circuit board required to have electrical insulating property and heat radiating performance, in that a heat radiating member comprising the powder can have thermal conductivity, the powder can provide a resin composition having excellent withstand voltage characteristics for forming an insulative composition into a thin film and can be filled in the resin composition at a high density so as to improve heat radiating performance of the resin composition.07-30-2009
20100122838MOUNT BOARD AND SEMICONDUCTOR MODULE - A mount board includes a laminated wiring section including a plurality of wiring layers formed on a surface of a substrate in a laminated manner, wherein a portion of an inner wiring layer is exposed to the outside, the inner wiring layer being any of the plurality of wiring layers excluding an uppermost wiring layer.05-20-2010
20100089620Electronic Component Module and Method for the Production Thereof - An electronic component module comprising: at least one multilayer ceramic circuit carrier (04-15-2010
20090090540HOLE IN PAD THERMAL MANAGEMENT - A device and method of heat sinking a surface mount device (SMD) component. In an example method through holes are formed in a printed circuit board (PCB), a first copper layer is electroless plated in the holes, a second copper layer is standard plated in the holes and surrounding surfaces of the PCB, a third copper layer is masked and pulse plated in the holes, the holes are filled with non-conductive material and then is sanded flush with the second copper layer. A fourth copper layer electroless plated on the PCB over the area of the holes, a fifth copper layer (or pad) plated on the PCB over the area of the holes, and a surface mount device is attached to the fifth copper layer.04-09-2009
20090294154PRINTED CIRCUIT BOARD PROVIDING HEAT DISSIPATION - A printed circuit board includes an insulated base sheet, a heat-conducting layer, and a plurality of heat-conducting blocks. The heat-conducting layer is disposed on the insulated base sheet. The heat-conducting blocks are formed on the heat-conducting layer. Each of the heat-conducting blocks is separated from each other.12-03-2009
20090038826CIRCUIT BOARD AND RADIATING HEAT SYSTEM FOR CIRCUIT BOARD - A circuit board and a heat radiating system of the circuit board. In the circuit board, a plurality of conductive layer regions coated with a conductor are separately formed on both sides of an insulating substrate, the conductive layer region formed on either side of an insulating region on each of the both sides of the insulating substrate, the plurality of the conductive layer regions includes a plurality of through holes which penetrate through the insulating substrate and are coated with a conductor over an inner wall, the conductor in the through hole electrically conducts the coated conductor of the plurality of the conductive layer regions, one of the lead pins is connected to one of the separated conductive layer regions on the both sides based on the insulating region, and the other lead pin is connected to the other conductive layer region. Accordingly, the efficient heat radiation of the circuit board can prevent the component malfunction, the lifespan reduction, the power consumption increase, and the illuminance drop.02-12-2009
20090321109PRINTED CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - A printed circuit board and a method for manufacturing the printed circuit board are disclosed. The method can include; providing an insulated layer, in which a first metal layer is formed on one side of the insulated layer; forming a groove on the insulated layer; forming a metallic substance on an inner side of the groove and on another side of the insulated layer; and forming a first circuit pattern on at least one of one side of the insulated layer and the metallic substance formed on the groove by removing a portion of the first metal layer. The present invention provides the printed circuit board having a high efficiency of heat emission by disposing a heat sink in direct contact with a board and the method of manufacturing the printed circuit board.12-31-2009
20130118781ELECTRONIC DEVICE HAVING HEAT DISSIPATION DEVICE - An exemplary heat dissipation device includes a bracket, and heat sink and a pressing member. The bracket includes a bottom plate. An opening is defined in the bottom plate. Two supporting portions are formed from an underside of the bottom plate. The heat sink extends through the opening of the bracket, with bottom edges of the heat sink rested on the supporting portions. The pressing member is mounted on the bracket and elastically presses the heat sink onto the supporting portions.05-16-2013
20130118782RADIANT HEAT CIRCUIT BOARD AND METHOD FOR MANUFACTURING THE SAME - Disclosed are a radiant heat circuit board and a method for manufacturing the same. The radiant heat circuit board, which is used to mount a heat emitting device thereon, includes a metallic plate including a metallic protrusion having a solder to which the heat emitting device is attached, a bonding layer on the metallic protrusion, an insulating layer on the metallic plate to expose the metallic protrusion, and a circuit pattern on the insulating layer. Heat emitted from the heat emitting device is directly transferred to the metallic plate by providing the metallic plate including a heat radiation protrusion under the mounting pad, so that heat radiation efficiency is increased. The surface of the heat radiation protrusion is plated with an alloy including copper, thereby improving the adhesive property with respect to the solder, so that the failure rate is reduced.05-16-2013
20080257585Electrical Power Substrate - An electrical power substrate comprises a metallic body at least one surface of the body having a coating generated by plasma electrolytic oxidation (PEO). The coating includes a dense hard layer adjacent the said surface of the metallic body, and a porous outer layer. Electrically conductive elements are attached to the said coating.10-23-2008
20090250248Support substrate structure for supporting electronic component thereon and method for fabricating the same - A support substrate structure for supporting an electronic component thereon comprises a thermal conductive substrate, a first ceramic layer, an insulating thermal conductive layer and a conductive pattern. The thermal conductive substrate has an upper surface and a lower surface; the first ceramic layer is disposed on the upper surface of the thermal conductive substrate; the insulating thermal conductive layer is disposed on the first ceramic layer; and the conductive pattern is formed on a surface of the insulating thermal conductive layer. The present invention also discloses a method for fabricating the aforementioned support substrate structure.10-08-2009
20120067623HEAT-RADIATING SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - 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.03-22-2012
20090200065HEAT DISSIPATION DEVICE AND POWER MODULE - A heat radiator 08-13-2009
20090250249INTERPOSERS, ELECTRONIC MODULES, AND METHODS FOR FORMING THE SAME - Electronic modules and interposers are formed by encapsulating microelectronic dies and/or posts within cavities in a substrate.10-08-2009
20090101392CIRCUIT BOARD AND SEMICONDUCTOR MODULE USING THIS, PRODUCTION METHOD FOR CIRCUIT BOARD - An object of this invention is to get a circuit board and a semiconductor module with high endurance against thermal cycles, and which is hard to be broken under thermal cycles, even if thick metal circuit board and thick metal heat sink are used, corresponding to high power operation of semiconductor chip. This circuit board comprises, an insulating-ceramic substrate, a metal circuit plate bonded to one face of the insulating-ceramic substrate, a metal heat sink bonded to another face of the insulating-ceramic substrate, wherein (t04-23-2009
20090183899PRINTED WIRING BOARD - When soldering is performed, heat transferred from through hole 07-23-2009
20120031651CIRCUIT BOARD - A circuit board including a circuit layer, a thermally conductive substrate, an insulation layer, and at least one thermally conductive material is provided. The thermally conductive substrate has a plane. The insulation layer is disposed between the circuit layer and the plane and partially covers the plane. The thermally conductive material covers the plane without covered by the insulation layer and is in contact with the thermally conductive substrate. The insulation layer exposes the thermally conductive material.02-09-2012
20090211788HEAT DISSIPATION STRUCTURE OF A PRINT CIRCUIT BOARD - A heat dissipating structure of a print circuit board to improve heat-dissipation efficiency for mounted electronic components while retaining required soldering strength is disclosed.08-27-2009
20090260858MULTI-LAYER CIRCUIT SUBSTRATE AND MOTOR DRIVE CIRCUIT SUBSTRATE - Conducting layers and resin-made insulating layers are alternately laminated to form a laminated circuit portion, and a metal substrate is installed so as to be in contact with an insulating layer, which is the lowermost layer. The conducting layers, the insulating layers, and the metal substrate are thermal compression bonded. In order to connect the uppermost conducting layer on which electronic component is placed with the lowermost insulating layer, a conducting layer is formed on the inner surface by copper plating to install a heat dissipating via into which a resin is filled. A conducting layer, which is the uppermost layer, is subjected to gold plating, with nickel plating undercoated. An electronic component for driving a motor is placed on the uppermost conducting layer, by which the metal substrate can be used as a motor drive circuit substrate for an electric power steering system.10-22-2009
20090260857HEAT RESISTANT SUBSTRATE INCORPORATED CIRCUIT WIRING BOARD - A circuit wiring board including a wiring substrate, and a heat resistant substrate accommodated in the wiring substrate and including a core substrate and a through hole conductor formed in the core substrate, the core substrate having a first surface and a second surface on an opposite side of the first surface, the through hole conductor providing electrical connection through the core substrate between the first surface and the second surface of the core substrate.10-22-2009
20100263915CIRCUIT BOARD STRUCTURE HAVING MEASURES AGAINST HEAT - To achieve efficient heat spreading and heat releasing by using a metal core of a circuit board, a terminal block includes an insulating block body and terminals. At least one of the terminals is provided with terminal portions for a connection with a circuit board. The terminal portions are inserted into respective through holes of the circuit board, the circuit board having a pattern circuit at a surface layer thereof and a conductive metal core at an intermediate portion in a thickness direction, so that heat of the metal core or of both the metal core and the pattern circuit is absorbed and transferred to the terminals. A bus-bar block includes an insulating block body and several parallel bus-bars with different lengths. Terminal portions at a tip end of the bus-bars are inserted, near heat-generating component on the circuit board, into the through holes of the circuit board.10-21-2010
20090288859NON-CYLINDER VIA STRUCTURE AND THERMAL ENHANCED SUBSTRATE HAVING THE SAME - A thermal enhanced substrate having a non-cylinder via structure includes at least a metal layer disposed on an insulating base material and a number of thermal channels respectively constituted by at least a trough pattern penetrating the insulating base material and a conductive material deposited in the trough pattern. The trough pattern serves as a non-cylinder via structure having at least an elongated hole for heat dissipations so as to reduce a working temperature of an electronic device.11-26-2009
20090314522Printed Circuit Board With Additional Functional Elements, Method of Production and Use - The invention relates to a multifunctional printed circuit board comprising at least one additional functional element in the form of a round or rectangular conductor which is at least partially fastened on an electrically conducting strip conductor structure by ultrasound or friction welding in a mechanical and electrical and thermally conducting and planar manner and in such a fashion that an intermetal compound is formed. The invention also relates to a method for producing said printed circuit board, to its use as a wiring element for complex structures that is suitable for high current conduction and to uses for a specific thermal management.12-24-2009
20120031652CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - A circuit board includes a metal pattern layer, a thermally conductive plate, an electrically insulating layer, and at least one electrically insulating material. The thermally conductive plate has a plane. The electrically insulating layer is disposed between the metal pattern layer and the plane and partially covers the plane. The electrically insulating material covers the plane where is not covered by the electrically insulating layer and touches the thermally conductive plate. The electrically insulating layer exposes the electrically insulating material, and a thermal conductivity of the electrically insulating material is larger than a thermal conductivity of the electrically insulating layer.02-09-2012
20100252306INTERCONNECT SUBSTRATES, METHODS AND SYSTEMS THEREOF - A method of enhancing thermal management of an electronic device comprising the steps of; forming an ALOX™ interconnect substrate; taking an electronic device; and interconnecting the electronic device to the interconnect substrate to yield a substantial split of thermal and electrical paths in the interconnect substrate.10-07-2010
20100252305CIRCUIT BOARD MODULE AND METHOD OF MANUFACTURING THE SAME - There is provided a circuit board module and a method of manufacturing the same. The circuit board module may include: a circuit board; a resistor arranged on the circuit board; pads covering both edges of the resistor; adhesive portions provided at least on the pads and formed of an electrically insulating material; and a heat dissipation member provided on the resistor and bonded to the pads using the adhesive portions.10-07-2010
20100200277MULTI-LAYER CIRCUIT BOARD, METHOD OF MANUFACTURING THE SAME, AND COMMUNICATION DEVICE - A multi-layer circuit board, a method of manufacturing the same, and a communication device are provided. As for the multi-layer circuit board, a slot segment is opened on at least one daughter board to form a first daughter board. At least one daughter board and medium layers are stacked together. The daughter boards include first daughter boards. The first daughter boards are placed in such a way that the slot segments of the first daughter boards are communicated. The slot segments are communicated to form a receiving slot. A heat conducting block is placed within the receiving slot. Each medium layer is sandwiched between the daughter boards. The stacked daughter boards, medium layers, and heat conducting block are pressed together, and the pressed daughter boards and heat conducting block are made into a multi-layer circuit board. The heat conducting block is embedded when the circuit board is pressed, thereby simplifying the assembling process of the heat conducting block.08-12-2010
20100000766PRINTED CIRCUIT BOARD ASSEMBLY - An assembly comprising a first printed circuit board, PCB, with a ball grid array, BGA, on its underside, a second PCB facing the first PCB and having at least one through-hole between its top and bottom surfaces, its top surface printed with a circuit pattern bonded to the BGA, a heat sink layer facing the bottom surface of the second PCB and having at least one thermally-conductive pin projecting normally into the through-hole or a respective one of the through-holes in the second PCB, and, for each pin, a thermally-conductive stud of the same cross-section as the pin, bonded to the BGA and disposed within the through-hole between the pin and the first PCB in thermal contact with the pin.01-07-2010
20110247861ELECTRONIC DEVICE AND LATCHING MECHANISM THEREOF - An exemplary electronic device includes a circuit board defining apertures therein, an electronic component arranged on the circuit board and surrounded by the apertures, a heat spreader arranged on the electronic component, and a latching mechanism fixing the heat spreader to the electronic component. The latching mechanism includes latching arms extending outwards from the heat spreader and elastic poles. Each latching arm defines a latching hole aligned with one of the apertures of the circuit board. The poles respectively extend through the apertures and the latching holes in turn. Each pole includes a main body engaged in the corresponding latching hole and a head resiliently abutting against the latching arm.10-13-2011
20110000701Ceramic elements module and manufacturing method thereof - The present invention relates to a ceramic elements module and a manufacturing method thereof. There is provided a ceramic elements module, including: a ceramic elements that has a plurality of lower inserting grooves; an electronic component that is mounted on a lower surface of the ceramic elements; and a heat sink that is coupled with a lower part of the ceramic elements mounted with the electronic component and has a first penetrating hole corresponding to the lower inserting groove and a second penetrating hole into which the electronic component is inserted, and a manufacturing method thereof.01-06-2011
20090065240METHOD OF MAKING WIRING BOARDS COVERED BY THERMOTROPIC LIQUID CRYSTAL POLYMER FILM - The object of the invention is to provide a wiring board having the uniform quality at a high yield which is produced by hot-pressing and laminating on a wiring board base material a thermotropic liquid crystal polymer which is excellent as a wiring board covering material.03-12-2009
20090242239 PROCESS FOR PREPARING A HEATSINK SYSTEM AND HEATSINK SYSTEM OBTAINABLE BY SAID PROCESS - The invention provides a process for preparing a heatsink system for a heat generating electronic device, comprising the steps of:10-01-2009
20110061902Circuit board and method of manufacturing the same - There is provided a circuit board. The circuit board according to an aspect of the invention may include: an insulating base body; a plurality of circuit patterns including a first conductive pattern and a second conductive pattern facing the first conductive pattern at a predetermined interval therebetween; a printed resistor connecting the first conductive pattern and the second conductive pattern; and a heat radiation pattern provided on the insulating base body and overlapping at least partially overlapping the printed resistor.03-17-2011
20100065307Multilayer circuit substrate - A multilayer circuit substrate includes: a laminated circuit portion in which conductive layers and resin insulating layers are alternately laminated; and a metal substrate portion, wherein the laminated circuit portion is fixed to the metal substrate portion so that at least part of a lower surface of the laminated circuit portion is in contact with at least part of an upper surface of the metal substrate portion. An electronic component is mounted on the metal substrate portion.03-18-2010
20110100681SUBSTRATE-MOUNTED CIRCUIT MODULE HAVING COMPONENTS IN A PLURALITY OF CONTACTING PLANES - In a circuit module having components that are fastened to a substrate, the substrate includes a carrier layer made of metal and having a first surface, a first insulating layer bordering directly on the carrier layer being situated on the first surface. The substrate also includes a first wiring layer bordering directly on the first insulating layer, which conducts electrically and is situated on the first insulating layer. The substrate includes a first contact plane, which runs along the first surface, at least one of the components being directly connected electrically to the carrier layer in the first contact plane.05-05-2011
20110067902HEAT 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
20110061901HEAT-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
20120118615METAL CLAD LAMINATE, METHOD OF MANUFACTURING THE SAME, AND HEAT-RADIATING SUBSTRATE - Disclosed herein is a metal clad laminate, a method of manufacturing the same and a heat-radiating substrate using the same. The metal clad laminate has increased adhesion because a layer of carbon nanoparticles is formed between bonding surfaces of upper and lower metal foils to a prepreg, and has improved heat conductive properties and mechanical properties because the prepreg has carbon fibers incorporated therein. Also, resin members having carbon nanofibers incorporated therein may be alternately stacked with metal layers, and metal layers may be inserted in the prepreg thus improving heat conductive properties, and the number of stacked layers may vary depending on the end use thereby controlling heat conductive properties and mechanical properties of the metal clad laminate.05-17-2012
20090008130COOLING OF SUBSTRATE USING INTERPOSER CHANNELS - A structure. The structure includes an interposer adapted to be interposed between a heat source and a heat sink and to transfer heat from the heat source to the heat sink. The interposer includes an enclosure that encloses a cavity. The enclosure is made of a thermally conductive material. The cavity includes a thermally conductive foam material. The foam material includes pores and includes at least one serpentine channel. Each serpentine channel has at least two contiguously connected channel segments. Each serpentine channel independently forms a closed loop or an open ended loop. The foam material is adapted to be soaked by a liquid filling the pores. Each serpentine channel is adapted to be partially filled with a fluid that serves to transfer heat from the heat source to the heat sink.01-08-2009
20100084166METHOD FOR FITTING AN ELECTRICAL COMPONENT TO A CONTACTING ELEMENT AND CONTACTING ELEMENT WITH AN ELECTRICAL COMPONENT - The invention relates to a method for equipping a contacting element (04-08-2010
20090255716HEAT RESISTANT SUBSTRATE INCORPORATED CIRCUIT WIRING BOARD - A circuit wiring board including a wiring substrate, and a heat resistant substrate accommodated in the wiring substrate and having a thermal expansion coefficient in a range between 3 ppm to 10 ppm and including a core substrate and a built-up wiring layer formed over the core substrate, the built-up wiring layer including conductive layers, interlayer resin insulating layers and a via hole conductor connecting the conductive layers through one of the interlayer resin insulating layers.10-15-2009
20110005810INSULATING SUBSTRATE AND METHOD FOR PRODUCING THE SAME - An insulating substrate 01-13-2011
20110114369HEAT DISSIPATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a heat dissipating substrate, including: a heat dissipating circuit layer formed of an electrolytic invar layer including an invar layer and electrolytic copper plating layers formed on both sides of the invar layer; insulation layers formed on both sides of the heat dissipating circuit layer such that the heat dissipating circuit layer is interposed between the insulation layers; first and second circuit layers formed on the insulation layers; and a first bump connecting the heat dissipating circuit layer with the first circuit layer and a second bump connecting the heat dissipating circuit layer with the second circuit layer. The heat dissipating substrate exhibits excellent heat dissipation efficiency and can be made thin.05-19-2011
20110186335CIRCUIT BOARD WITH HEAT DISSIPATING STRUCTURE AND MANUFACTURING METHOD THEREOF - The circuit board with a heat dissipating structure is provided. A first grounding conductor layer is formed on a first surface of a substrate. A first insulting layer is formed on the first grounding conductor layer and defines a number of circuit element pin openings and a plurality of heat dissipating openings therein so that the first grounding conductor layer is exposed from the circuit element pin openings and the heat dissipating openings. A number of solder balls are disposed in the circuit element pin openings and contacted with the first grounding conductor layer. A number of heat dissipating structures are disposed in the heat dissipating openings and contacted with the first grounding conductor layer. The heat dissipating structures and the solder balls have an identical material. The method for manufacturing the circuit board is also provided.08-04-2011
20100025082ELECTRONIC COMPONENT BUILT-IN WIRING BOARD AND METHOD FOR RADIATING HEAT GENERATED AT THE SAME - An electronic component built-in wiring board includes: at least a pair of wiring patterns; an insulating layer disposed between the pair of wiring board; an electronic component embedded in the insulating layer; and a metallic body provided at least on or above a main surface of the electronic component in the insulating layer and thermally contacted with the electronic component.02-04-2010
20120037404PACKAGING SUBSTRATE HAVING A PASSIVE ELEMENT EMBEDDED THEREIN AND METHOD OF FABRICATING THE SAME - A packaging substrate includes: a dielectric layer unit having top and bottom surfaces; a positioning pad embedded in the bottom surface of the dielectric layer unit; at least a passive element having a plurality of electrode pads disposed on upper and lower surfaces thereof, the passive element being embedded in the dielectric layer unit and corresponding to the positioning pad; a first circuit layer disposed on the top surface of the dielectric layer unit, the first circuit layer having first conductive vias electrically connected to the electrode pads disposed on the upper surface of the passive element; and a second circuit layer disposed on the bottom surface of the dielectric layer unit, the second circuit layer having second conductive vias electrically connected to the electrode pads disposed on the lower surface of the passive element. Through the embedding of the passive element, the overall structure may have a reduced height.02-16-2012
20100012354THERMALLY CONDUCTIVE POLYMER BASED PRINTED CIRCUIT BOARD - A printed circuit board has a liquid crystalline polymer layer that is bonded to an electrically conductive layer that includes traces that electrically connect components mounted on the printed circuit board. The liquid crystalline polymer material is thermally conductive and dielectric. When the components produce heat, the liquid crystalline polymer layer absorbs and dissipates the heat produced by the electrical components mounted on the printed circuit board. The thermal equilibrium of the printed circuit board is lower than the maximum operating temperature of the components.01-21-2010
20120097431LIGHTWEIGHT CIRCUIT BOARD WITH CONDUCTIVE CONSTRAINING CORES - Prepregs, laminates, printed wiring board structures and processes for constructing materials and printed wiring boards that enable the construction of printed wiring boards with improved thermal properties. In one embodiment, the prepregs include substrates impregnated with electrically and thermally conductive resins. In other embodiments, the prepregs have substrate materials that include carbon. In other embodiments, the prepregs include substrates impregnated with thermally conductive resins. In other embodiments, the printed wiring board structures include electrically and thermally conductive laminates that can act as ground and/or power planes.04-26-2012
20120305292LIQUID-COOLED INTEGRATED SUBSTRATE AND MANUFACTURING METHOD OF LIQUID-COOLED INTEGRATED SUBSTRATE - There is provide a liquid-cooled integrated substrate which has reduced material cost and processing cost, is reduced in warpage (shape deformation) as an integrated substrate, and has excellent strength and heat radiation performance, and a manufacturing method of the liquid-cooled integrated substrate. There is provided a liquid-cooled integrated substrate 12-06-2012
20110155425Underfill film having thermally conductive sheet - An underfill film for an electronic device includes a thermally conductive sheet. The electronic device may include a printed circuit board, an electrical component, an underfill, and the thermally conductive sheet. The underfill is situated between the circuit board and the component. The thermally conductive sheet is situated within the underfill, and together with the underfill, constitutes the underfill film. The device may include solder bumps affixing the component to the circuit board, the underfill film having holes within which the solder bumps are aligned. There may be solder bumps on the underside of the circuit board promoting heat dissipation. There may be heat sinks on the circuit board to which the thermally conductive sheet is affixed promoting heat dissipation. The thermally conductive sheet may be affixed to a chassis promoting heat dissipation. The thermally conductive sheet thus promotes heat dissipation from the component to at least the circuit board.06-30-2011
20090166062PRINTED CIRCUIT BOARD ASSEMBLY - A printed circuit board assembly includes a printed circuit board, a carrier, a semiconductor chip mounted on the carrier, a plurality of tin balls soldered between the printed circuit board and the carrier for transmitting signals, and a heat sink glued to the semiconductor chip to dissipate heat. A pressing portion is formed on the bottom of the heat sink and does not make contact with the semiconductor chip. The pressing portion contacts with the periphery of the carrier to reinforce the tin balls located between the printed circuit board and the carrier.07-02-2009
20120061127ELECTRICAL COMPONENT ASSEMBLY FOR THERMAL TRANSFER - Example electrical component assemblies are described. In some examples, the electrical component assembly may include a printed board and an electrical component on the printed board, the electrical component defining a first surface adjacent the printed board and one or more second surfaces other than the first surface. The assembly may also include a thermal bridge comprising a plurality of vias extending through the thermal bridge, and a thermally conductive member interposed between the one or more second surfaces of the electrical component and the thermal bridge. In some examples, the thermally conductive member extends at least partially through the plurality of vias of the thermal bridge. During operation of the electrical component, the assembly configuration may facilitate thermal transfer from a first direction defined by the thermally conductive member to a second direction defined by the thermal bridge to transfer thermal energy away from a surface of the electrical component.03-15-2012
20100096163WIRING BOARD AND METHOD OF MANUFACTURING THE SAME - A wiring board comprises a first pad which is provided on a first surface side of a substrate and on which a first electronic component is to be mounted, and a second pad which is provided on the first surface side of the substrate and on which a second electronic component having a larger amount of heat generation in an operation than that of the first electronic component is to be mounted, a first through electrode which penetrates the substrate and has one of ends connected electrically to the first pad, a second through electrode which penetrates the substrate and has one of ends connected electrically to the second pad, a through trench penetrating the substrate in a portion positioned between a first mounting region for the first electronic component and a second mounting region for the second electronic component, and a heat intercepting member provided in the through trench.04-22-2010
20110088928HEAT 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
20120160546Heat radiation board formed using electro-deposition coating and method of manufacturing the same - Provided are a heat radiation board and a method of manufacturing the same, and more particularly, to a heat radiation board formed using electro-deposition coating, in which a circuit is formed by forming a first insulating layer through anodizing and forming a second insulating layer through electro-deposition coating, and a method of manufacturing the same.06-28-2012
20100288536Ceramic circuit board and method of making the same - A ceramic circuit board for use in packaging an electronic element includes a ceramic-copper plate, and a heat-dissipating unit that is adapted for dissipating heat from the electronic element. The ceramic-copper plate includes a ceramic substrate that has opposite first and second surfaces, and a through-hole formed through the first and second surfaces, a top copper pattern that overlies the first surface of the ceramic substrate and that has at least two conducting portions spaced apart from each other, and a bottom copper layer that underlies the second surface of the ceramic substrate. The heat-dissipating unit includes a heat-dissipating layer that is disposed in the through-hole of the ceramic substrate above the bottom copper layer and that has a thermal conductivity larger than that of the ceramic substrate. A method of making the ceramic circuit board is also disclosed.11-18-2010
20100288535ELECTRONIC COMPONENT-EMBEDDED PRINTED CIRCUIT BOARD COMPRISING COOLING MEMBER AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is an electronic component-embedded printed circuit board, in which a cooling member connecting with an inner circuit layer of a printed circuit board is provided on one side of an electronic component, so that the heat radiation performance thereof can be improved and the thickness thereof can be decreased, and a method of manufacturing the same.11-18-2010
20100288537Circuit board module and method of making the same - A circuit board module includes a circuit board and a heat-dissipating device. The circuit board includes a ceramic substrate, and a circuit pattern formed on a surface of the ceramic substrate. The circuit board is sinter-bonded to a main body of the heat-dissipating device. A method of making the circuit board module is also disclosed.11-18-2010
20100206619PACKAGE SUBSTRATE STRUCUTRE WITH CAVITY AND METHOD FOR MAKING THE SAME - A package substrate structure includes a substrate with a first side and a second side opposite to the first side, a via connecting the first side and the second side, a cavity in the substrate and on the first side, and a patterned conductive layer disposed on at least one of the first side and the second side, filling the cavity and the via, and including a first conductive layer, a second conductive layer and a third conductive layer. The second conductive layer is different from at least one of the first conductive layer and the third conductive layer.08-19-2010
20120168206SUBSTRATE FOR ELECTRONIC DEVICE AND ELECTRONIC DEVICE - A substrate includes a plurality of through electrodes. The through electrode has a nanocomposite structure including a nm-sized carbon nanotube and is a casting formed by using a via formed in the substrate as a mold.07-05-2012
20120247815FASTENER AND ELECTRONIC ASSEMBLY HAVING THE SAME - An exemplary fastener includes a connecting member and a protecting member. The connecting member includes a head, and a connecting portion extending down away from the head. The protecting member includes a first engaging portion and a second engaging portion extending from the first engaging portion. The first and second engaging portions are coaxial. The connecting portion of the connecting member extends through the second engaging portion, the head of the connecting member is surrounded by the first engaging portion of the protecting member with a bottom surface of the head abutting a top end of the second engaging portion. A top end of the first engaging portion is above a top surface of the head and defines a receiving space above the head. The receiving space is adapted for receiving a tool therein.10-04-2012
20120073864DIRECT MECHANICAL/ELECTRICAL PRINTED CIRCUIT BOARD INTERFACE - A printed circuit board is disclosed. The board has a first end having a plurality of fingers in a cooperating relationship with a second end of a second adjacent circuit board. The board has a second end having a second plurality of fingers in a cooperating relationship with a first end of a first adjacent circuit board. The board has a first portion of an electrical trace on at least one of the first plurality of fingers positioned to allow an electrical connection to the second end of the second adjacent circuit board, and a second portion of the electrical trace on at least one of the second plurality of fingers positioned to allow an electrical connection to the first end of the first adjacent circuit board.03-29-2012
20120073863ANODIZED HEAT-RADIATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is an anodized heat-radiating substrate. The anodized heat-radiating substrate is advantageous in that it has good radiation characteristics because an anodized oxide layer is formed on the entire surface of a metal layer. And, the anodized heat-radiating substrate is advantageous in that it has high-density/high accumulation characteristics because it forms multi-layered structure by using the connecting member.03-29-2012
20090020316METHOD OF MANUFACTURING CHIP ON FILM AND STRUCTURE THEREOF - A method of manufacturing a chip on film (COF) is provided, including: providing a flexible circuit board; and forming a plurality of leads on the flexible circuit board. Each of the leads has a thickness of 8 um˜15 um and a cross-section shape is substantially rectangular. A COF structure, having a flexible circuit board and a plurality of leads formed on the flexible circuit board, is provided. Each lead has a thickness of 8 um˜15 um, and lead widths of the leads are based on pitch widths of a plurality of bumps corresponding to the leads. A COF structure, having a flexible circuit board and a plurality of leads formed on the flexible circuit board. Each of the leads has a thickness of 8 um˜15 um, and a lead width of each of the leads is greater than a bump width minus 4 um.01-22-2009
20100294543HEAT 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
20120228008METHOD OF TRANSFERRING THIN FILM COMPONENTS AND CIRCUIT BOARD HAVING THE SAME - Various aspects of the present invention provide a transfer method for peeling off an MIM structure (comprising lower electrode/dielectric layer/upper electrodes) film formed on a supporting substrate and then transferring onto a transfer substrate with sufficiently uniform and low damage. Various aspects of the present invention also provide a thin film element provided with one or more thin film components which are transferred onto a substrate by using said method.09-13-2012
20120261166PRINTED CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - Disclosed herein are a printed circuit board and a method of manufacturing the same. The printed circuit board includes: a base substrate having a via hole for signal transfer and a via hole for heat radiation formed therein and having circuit layers formed on both surfaces thereof, the circuit layers including connection pads; a signal via formed in an inner portion of the via hole for signal transfer by performing a plating process using a conductive metal; and a heat radiation via formed in an inner portion of the via hole for heat radiation by performing a plating process using a conductive metal, wherein the heat radiation via is formed to have a diameter larger than that of the signal via.10-18-2012
20110226512Heatsink Device Having A Rapid Heatsink Effect - A heatsink device includes a heatsink body and at least one heatsink member. The heatsink member is made of a metallic material different from that of the heatsink body. The heatsink member is combined with the heatsink body by a friction welding machine without needing any solder, conducting paste, adhesive or bonding agent, so that the heatsink body is directly combined with the heatsink member without an obstruction located between the heatsink body and the heatsink member so as to enhance the heatsink effect of the heatsink device.09-22-2011
20120318564CIRCUIT BOARD AND RADIATING HEAT SYSTEM FOR CIRCUIT BOARD - In the a circuit board, a plurality of conductive layer regions coated with a conductor are separately formed on both sides of an insulating substrate, the conductive layer region formed on either side of an insulating region on each of the both sides of the insulating substrate. The plurality of the conductive layer regions include a plurality of through holes which penetrate through the insulating substrate and are coated with a conductor over an inner wall, the conductor in the through hole electrically conducts the coated conductor of the plurality of the conductive layer regions, one of the lead pins is connected to one of the separated conductive layer regions on the both sides based on the insulating region, and the other lead pin is connected to the other conductive layer region.12-20-2012
20120080216Brazing Material, Heat Dissipation Base Using the Same, and Electronic Device - Provided are a brazing material capable of being restrained from protruding unnecessarily in a joint region; a heat dissipation base having a high reliability of electric insulation, and does not easily cause a short circuit even when the base dissipates heat repeatedly; and an electronic device wherein an electronic component is mounted on circuit members of this heat dissipation base. The brazing material comprises silver and copper as main components; at least one element A selected from indium, zinc, and tin; at least one element B selected from titanium, zirconium, hafnium, and niobium; and at least one element C selected from molybdenum, osmium, rhenium, and tungsten. In a heat dissipation base 04-05-2012
20120279761FIN-INTEGRATED SUBSTRATE AND MANUFACTURING METHOD OF FIN-INTEGRATED SUBSTRATE - There is provide a manufacturing method of a fin-integrated substrate capable of producing by simple process a fin-integrated substrate with heat radiating fins at fine pitches by a processing method in which warpage of a metal base plate and corrugation (wavy shape) of the heat radiating fins are suppressed. There is provided a manufacturing method of a fin-integrated substrate in which bonding of the metal circuit board to the ceramic substrate is performed by a molten metal bonding method, and formation of the plurality of heat radiating fins at a cut part that is a part of the metal base plate is performed by fixing by a jig to apply a tensile stress on a surface of the cut part where the heat radiating fins are to be formed, and performing grooving processing of forming a plurality of grooves by moving a multi-cutter composed of a plurality of stacked disc-shaped cutters, on the surface to which the tensile stress is applied, while rotating the multi-cutter.11-08-2012
20120279760PACKAGE CARRIER AND MANUFACTURING METHOD THEREOF - A manufacturing method of a package carrier is provided. A substrate having a first surface, a second surface, and an opening communicating the first and second surfaces opposite to each other is provided. A first adhesive layer is formed on the first surface of the substrate. The first adhesive layer and the substrate define a notch. A thermal-conductive element is configured in the notch and fixed into the notch via the first adhesive layer. A second adhesive layer and a metal layer located on the second adhesive layer are formed on the second surface of the substrate. The metal layer is connected to a bottom surface of the thermal-conductive element. The thermal-conductive element is located between the metal layer and the first adhesive layer. The first adhesive layer is removed to expose the first surface of the substrate.11-08-2012
20120138341HOLE IN PAD THERMAL MANAGEMENT - A device and method of heat sinking a surface mount device (SMD) component. In an example method through holes are formed in a printed circuit board (PCB), a first copper layer is electroless plated in the holes, a second copper layer is standard plated in the holes and surrounding surfaces of the PCB, a third copper layer is masked and pulse plated in the holes, the holes are filled with non-conductive material and then is sanded flush with the second copper layer. A fourth copper layer electroless plated on the PCB over the area of the holes, a fifth copper layer (or pad) plated on the PCB over the area of the holes, and a surface mount device is attached to the fifth copper layer.06-07-2012
20110253423PRINTED CIRCUIT BOARD WITH FINS AND METHOD FOR MANUFACTURING SAME - A printed circuit board includes an insulating layer, a signal trace, a ground trace, and a fin. The insulating layer has a first surface and an opposite second surface. The signal trace and the ground trace are formed on the first surface of the insulating layer. The first fin is directly formed on the ground trace. Also provided is a method for manufacturing the printed circuit board.10-20-2011
20130168136MULTILAYER PRINTED CIRCUIT BOARD - A multilayer printed circuit board includes an insulating substrate, circuit layers arranged in the insulating substrate, an electronic component, an electrode disposed on the circuit layer exposed from a surface of the insulating substrate and including a soldered portion at which a terminal of the electronic component is soldered, an internal layer conductor disposed on the circuit layer located inside the insulating substrate and defining through holes in a radial manner centering on the soldered portion, a heat releasing conductor disposed on the circuit layer next to the circuit layer on which the internal layer conductor is disposed, and connection vias inserted in the through holes and coupling the electrode and the heat releasing conductor so as to enable a heat transfer between the electrode and the heat releasing conductor. The internal layer conductor and the heat releasing conductor overlap a whole area of the soldered portion.07-04-2013
20130175072REDUCING THERMAL GRADIENTS TO IMPROVE THERMOPILE PERFORMANCE - With infrared (IR) sensors, repeatability and accuracy can become an issue when there are thermal gradients between the sensor and an underlying printed circuit board (PCB). Conventionally, a large thermal mass is included in the sensor packaging to reduce the effect from such thermal gradients, but this increase costs and size of the sensor. Here, however, a PCB is provided that includes an isothermal cage included therein that generally ensures that the temperature of the underlying PCB and sensor are about the same by including structural features (namely, the isothermal cage) that generally ensure that the thermal time constant for a path from a heat source to the thermopile (which is within the sensor) is approximately the same as thermal time constants for paths through the PCB.07-11-2013
20130168137Method of Fabricating PCB Board and PCB Board - A method of fabricating a printed circuit board is disclosed. The method includes opening a first window in a first base board and opening a second window in a second base board and a resin layer. The resin layer is between the second base board and the first base board. The method further includes bonding the first base board and the second base board through the resin layer; placing a heat dissipating conductor in the first window in the first base board through the second window; placing a resin portion on the first base board in the second window; embedding a sub-board in the second window of the second base board; and bonding the sub-board with the first base board through the resin portion.07-04-2013
20130092421FLEXIBLE CIRCUIT BOARD - The present invention provides a flexible circuit board with a heat dissipation layer on which bending processing can be carried out easily, while achieving its slimming down, and which can maintain the flatness of the heat dissipation layer. The flexible circuit board, at least, has a wiring layer 04-18-2013
20130126215PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a printed circuit board including: a substrate; a circuit pattern formed on a surface of the substrate; a dummy pattern formed on the surface of the substrate, where the circuit pattern is not formed, to be spaced apart from the circuit pattern by a predetermined interval; and a plurality of heat radiating vias formed along an outer edge of the substrate to electrically connect the dummy patterns through the substrate, and it is possible to suppress generation of electromagnetic waves or shield the electromagnetic waves and improve heat radiating characteristics at the same time.05-23-2013
20130153268FASTENING APPARATUS FOR HEAT SINK - A fastening apparatus for fastening a heat sink having a base to a circuit board includes two fasteners, two nuts, and two springs. Each fastener includes a head, a threaded pole extending down from a bottom of the head, and two spaced latching arms extending down from a bottom end of the threaded pole, for extending through the base and the circuit board to engage with a bottom surface of the circuit board. The nuts are respectively placed around and are engaged with the threaded poles, and movable up and down relative to the threaded pole. The springs are respectively placed around the threaded poles between the base and the corresponding nuts.06-20-2013
20110272179Printed Circuit Board with Embossed Hollow Heatsink Pad - A printed circuit board includes a dielectric layer having a first surface and an opposing second surface and a circuit layer laminated to the first surface of the dielectric layer. Cut-out windows provide openings through the dielectric and circuit layers. A thermally conductive layer is laminated to the second surface of the dielectric layer. The thermally conductive layer includes at least one sinkpad that passes through the cut-out windows. The sinkpad is an embossed, hollow feature of the thermally conductive layer. A surface of the sinkpad may be substantially coplanar with a surface of the circuit layer and be prepared for compatibility with a solder reflow process. A heat generating electronic component may be electrically coupled to the circuit layer and thermally coupled to the sinkpad of the thermally conductive layer to form an electronic assembly.11-10-2011
20110284271HEAT SINK - A heat sink capable of being surface-mounted, the heat sink having a 3D shape and comprising a body made of metal, having a rear side which is horizontal and a front side which is at least partially horizontal, such that the front side is partially surface-mounted on a conductive pattern of a printed circuit board (PCB) by pick-and-place and the rear side is attached to the conductive pattern by reflow-soldering.11-24-2011
20110303437HEAT-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 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.12-15-2011
20120024575THERMAL PAD AND METHOD OF FORMING THE SAME - A thermal pad (02-02-2012
20130206459RADIANT HEAT CIRCUIT BOARD, HEAT GENERATING DEVICE PACKAGE HAVING THE SAME, AND BACKLIGHT UNIT - Provided is a radiant heat circuit board for mounting a plurality of heat generating devices. The radiant heat circuit board includes a metal plate including an integrated metal projection to which the plurality of heat generating devices are attached, an insulation layer exposing the integrated metal projection, the insulation layer being disposed on the metal plate, and a plurality of electrode pads disposed on the insulation layer, the plurality of electrode pads applying a voltage into each of the heat generating devices. Thus, a radiant projection may be disposed between the heat generating devices to improve heat radiation.08-15-2013

Patent applications in class With cooling means