Class / Patent application number | Description | Number of patent applications / Date published |
029841000 | With encapsulating, e.g., potting, etc. | 37 |
20080313895 | Manufacturing Method of Electronic Component - A method of manufacturing an electronic component minimizes the occurrence of voids and degradation of characteristics in a resin-sealed portion, while reducing the costs thereof. A sealing step for sealing surface acoustic wave elements by a sealing resin member formed from a resin film is performed by mounting the surface acoustic wave elements on a collective mounting substrate and the resin film in a bag with a gas-barrier property, and causing the resin film to infiltrate between the surface acoustic wave elements mounted on the reduce-pressured-packed collective mounting substrate to be hermetically sealed by the pressure difference between the inside and the outside of the bag. | 12-25-2008 |
20090056118 | METHOD OF MANUFACTURING A COMBINED MULTILAYER CIRCUIT BOARD HAVING EMBEDDED CHIPS - A method has acts of providing at least two multilayer circuit boards, combining the at least two multilayer circuit boards to form a combined multilayer circuit board, forming multiple outer conductive vias, circuits and contacts on the combined multilayer circuit board. Each multilayer circuit board is fabricated by steps of preparing a single-layer printed circuit board having multiple chip sections, attaching at least one chip to the corresponding chip section, attaching a frame having multiple enclosures to the single-layer printed circuit board, attaching a semi-fluid glue sheet to the frame, vacuum pressing a conductive layer on the semi-fluid glue sheet and forming multiple conductive inner vias through the multilayer circuit board. The at least two multilayer circuit boards are combined by steps of reversing one of the multilayer circuit boards and vacuum pressing other multilayer circuit boards on the reversed multilayer circuit board. | 03-05-2009 |
20090106974 | Method of producing an overmolded electronic module with a flexible circuit pigtail - A method of producing an overmolded electronic assembly including a circuit board and a flexible circuit interconnect by fixturing the assembly in a mold cavity such that a portion of the flexible circuit protrudes from the mold, and providing a compressible elastomeric interface between the mold and the flexible circuit to seal off the mold cavity and protect the flexible circuit from damage due to the clamping force of the mold. The portion of the flexible circuit within the mold cavity is pre-coated with a material that ensures good adhesion with the molding compound, and a heat exchanger thermally coupled to the portion of the flexible circuit that protrudes from the mold protects the flexible circuit from damage due to thermal conduction from the mold and mold compound. | 04-30-2009 |
20090119913 | Electronic Circuit Device and Production Method of the Same - An electronic circuit device comprises: a printed circuit board mounted with electronic components; a resin-molded portion formed of resin so disposed that the electronic components are covered therewith; a convex connector that has metal terminals for connection and is exposed from the resin-molded portion; and a sealing member wrapped around the resin-molded portion. | 05-14-2009 |
20090139085 | CIRCUIT SUBSTRATES, SEMICONDUCTOR DEVICE, SEMICONDUCTOR MANUFACTURING APPARATUSES, METHODS FOR MANUFACTURING CIRCUIT SUBSTRATES, AND METHODS FOR MANUFACTURING SEMICONDUCTOR DEVICES - A method is provided to control the height of bump electrodes and increase a clearance between edge sections of a semiconductor chip and lead terminals of a tape substrate. By pushing up on a tape substrate by a bonding stage, and applying suction to the tape substrate through a suction groove, boundary portions of a semiconductor chip mounting region are drawn into the suction groove, and curved sections are formed in the tape substrate at locations corresponding to edge sections of a semiconductor chip and inclined sections disposed in outer circumference sections of the curved sections are formed in the tape substrate. | 06-04-2009 |
20100122457 | APPLICATION METHOD AND APPARATUS FOR RESIN - An application method for resin includes applying resin to a first electronic component in an application chamber under a first internal pressure, moving a second electronic component into an internal pressure adjustment chamber under a second internal pressure which is higher than the first internal pressure and adjusting an internal pressure of the internal pressure adjustment chamber from the second internal pressure to the first internal pressure, and moving the second electronic component into the application chamber while moving the first electronic component into the internal pressure adjustment chamber after the step of application of the resin has been completed. | 05-20-2010 |
20100132190 | INJECTION TOOL FOR ENCAPSULATING ELECTRONIC CIRCUITS WITH LIGHT SOURCES, AND RELATED ENCAPSULATION PROCESSES - An injection tool for encapsulating an electronic circuit with a printed circuit board and at least one light source arranged thereon. The injection tool includes a support structure for supporting the electronic circuit within the injection tool and protection structure for protecting the light emitting surface of at least one light source from encapsulation material. At least one of the support and/or protection structures is mobile for compensating for dimensional tolerances in the electronic circuit. | 06-03-2010 |
20100212152 | MULTILAYER SUBSTRATE WITH BUILT-IN CHIP-TYPE ELECTRONIC COMPONENT AND METHOD FOR MANUFACTURING THE SAME - A multilayer substrate having a built-in chip-type electronic component includes a ceramic laminate having a plurality of ceramic layers, a chip-type electronic component disposed in the ceramic laminate and having an external terminal electrode, and a via conductor disposed in the ceramic layers in the lamination direction. The external terminal electrode of the chip-type electronic component is connected to the via conductor, and a connection step is provided in at least one of the upper and lower end surfaces of the via conductor. | 08-26-2010 |
20100242273 | Method of producing electronic device - A method of producing an electronic device includes a molding of a first casing to seal a first face of a circuit board and electronic parts mounted on the first face. The producing method further includes a mounting of electronic parts on a second face of the circuit board opposite from the first face, after the molding of the first casing is finished. The producing method further includes a molding of a second casing to seal the second face of the circuit board and the electronic parts mounted on the second face. The molding of the second casing integrates the first casing and the second casing with each other. | 09-30-2010 |
20100299918 | METHOD OF MANUFACTURING ELECTRONIC COMPONENT DEVICE - A recessed portion is formed in a predetermined position in a heat-spreading component. A thermoplastic resin serving as a thermal interface material (TIM) is stored in the recessed portion. Meanwhile, a large number of filamentous thermo-conductive elements serving as the TIM are arranged to stand side by side on a surface of the heat-spreading component in which the recessed portion is formed (or on an exposed surface of an electronic component). Then, the heat-spreading component is fixed onto a board in such a manner that the surface of the heat-spreading component in which the recessed portion is formed faces the board and that a clearance is adjusted between the electronic component and the heat-spreading component. Thereafter, the resin is heated to a softening point thereof into a fluidized state, and the resin is flowed and filled into the clearance between the electronic component and the heat-spreading component. | 12-02-2010 |
20110146068 | ELECTRICAL DEVICE HAVING BOARDLESS ELECTRICAL COMPONENT MOUNTING ARRANGEMENT - An electrical device such as an LED light assembly includes a conductive circuit and one or more electrical components connected to the circuit. The electrical components and the circuit are at least partially overmolded with a thermoplastic polymer material to encapsulate the components. The material utilized to cover the circuit and/or electrical components may also be utilized to form a housing or other structure of a finished part. | 06-23-2011 |
20110179642 | Chip capacitor embedment method - A method of embedding a chip capacitor in a printed circuit board including a first conductive layer and a dielectric layer placed on the first conductive layer includes removing the dielectric layer to form a cavity exposing the first conductive layer; seating a chip capacitor in the cavity; filling a filled material at a space excluding a space occupied by the chip capacitor in the cavity; forming a via penetrating the filled material and being connected to the chip capacitor; and stacking a conductive material to constitute a second conductive layer in surfaces of the via and the dielectric layer and in an surface of the filled material filled in the cavity. | 07-28-2011 |
20110203107 | METHOD FOR INTEGRATING AN ELECTRONIC COMPONENT INTO A PRINTED CIRCUIT BOARD - The invention relates to a method for integrating an electronic component into a printed circuit board, whereby the electronic component ( | 08-25-2011 |
20120017436 | Selective encapsulation of electronic components - A method for the selective encapsulation of electronic components on a printed circuit board comprising, in one embodiment, the steps of delivering the printed circuit board to an encapsulating nest at room temperature; damming the target areas with a dam resin having a latent curing agent and deposited in the shape of walls of predetermined heights, according to the desired fill heights; dispensing a fill resin to fill the dammed areas; and curing the dam and fill resins for a suitable amount of time. In a different embodiment, the invention comprises the additional steps of laying resin beads, each in a position corresponding to the footprint of each target component; and of positioning the target components over the beads and soldering the components. | 01-26-2012 |
20120042514 | Method for Embedding Electrical Components - A method for embedding at least one component into a dielectric layer. obtain a good result, it is provided that the method includes the following steps: a) Position and affix the at least one component on a carrier; b) Cast a liquid dielectric around the at least one component, thereby enclosing the at least one component completely; c) Harden the liquid dielectric to form a solid dielectric layer; and d) Apply, in particular by lamination thereon, another layer, in particular an electrically conductive layer. The use of a dielectric layer formed entirely of liquid dielectric, wherein the liquid dielectric is not converted into a solid state until the dielectric is processed. | 02-23-2012 |
20120042515 | METHOD OF PRODUCING CIRCUIT BOARD - The present invention has been made in consideration of the above-described situation, and provides a method of producing a circuit board that can bond a component to be mounted without slanting the component, and simplify the steps. The method of producing a circuit board includes forming a first adhesive layer by applying a first adhesiveness-imparting compound on the surface of terminal portions of a circuit board; attaching a core body on the first adhesive layer of the terminal portions; forming a second adhesive layer by applying a second adhesiveness-imparting compound on the surface of the core body; attaching first solder particles on the second adhesive layer of the surface of the core body; and forming a solder layer on the surface of the core body by melting the first solder particles. | 02-23-2012 |
20120186079 | METHOD OF PROTECTING PRINTHEAD DIE FACE - A method of assembling an inkjet printhead comprising providing a printhead chassis; providing a support surface; affixing a printhead die to a die location portion of the support surface; affixing a portion of an attachment surface of a flexible circuit to the support surface adjacent to the die location portion of the support surface; electrically connecting the printhead die to the flexible circuit; affixing a spacer member to a surface of the flexible circuit that is opposite the attachment surface; applying an encapsulating material in contact with the printhead die, the flexible circuit, and the spacer member; and curing the encapsulating material. | 07-26-2012 |
20120240396 | use of a control module for a transmission control installed in an automatic transmission - The use of a control module having at least one housing part and a multi-layer printed circuit board as the electrical connection between the inner space of the housing and components that are situated outside of the housing part is described. The multi-layer printed circuit board is the carrier for the electrical components of an electronic circuit, and is at the same time the thermal contacting to a housing part and/or a cooling element, particularly a hydraulic plate of the transmission, for a transmission control installed in an automatic transmission. | 09-27-2012 |
20120266462 | SEALED ELECTRONIC HOUSING AND METHOD FOR THE SEALED ASSEMBLY OF SUCH A HOUSING - Method for the sealed assembly of an electronic housing containing one or more electronic components, the method including: assembling the housing by bringing a support, to which the electronic components are fixed, in contact with a cover by means of a mixture including a paste and nanoparticles in suspension in said paste, the size of the nanoparticles ranging from 10 to 30 nm; and closing the housing in a sealed manner by heating the housing to a temperature T of between 150° C. and 180° C. making it possible to sinter the metal nanoparticles, while subjecting the housing to a pressure greater than 2.5×10 | 10-25-2012 |
20120285013 | Electronic Component-Embedded Board and Method of Manufacturing the Same - A method of manufacturing an electronic component-embedded board is provided which is capable of suppressing warpage without requiring complicated processes at low cost and which offers high productivity and economic efficiency. A worksheet includes insulating layers on one surface of an approximately rectangular substrate, and an electronic component and a plate-like frame member (member) embedded inside the insulating layer, wherein the plate-like frame member satisfying the relationship represented by the following formula (1): | 11-15-2012 |
20120291274 | PRINTED CIRCUIT BOARD HAVING ELECTRO-COMPONENT AND MANUFACTURING METHOD THEREOF - An electronic component embedded printed circuit board and a method of manufacturing the same are disclosed. The electronic component embedded printed circuit board in accordance with an embodiment of the present invention can include a first substrate, which has a cavity formed therein, a first electronic component, which is embedded in the cavity in a face-down manner, a second electronic component, which is stacked on an upper side of the first electronic component and embedded in the cavity in a face-up manner, and a second substrate, which is stacked on upper and lower surfaces of the first substrate. | 11-22-2012 |
20130118009 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD - A method for manufacturing a printed circuit board includes the following steps. First, a first copper foil having first and second surfaces is provided. Second, the first copper foil is etched to remove portions of the first copper foil to convert the first copper foil into an intermediate structure having a substrate and first protrusions. Each first protrusion is exposed at the first surface. Third, a first insulation material fills into gaps between the first protrusions. Fourth, a second copper foil is laminated on the first surface. Fifth, the intermediate structure is etched from the second surface to remove portions of substrate to convert the substrate into second protrusions. Sixth, a second insulation material is infilled into gaps between the second protrusions. Seventh, a third copper foil is laminated on the second surface. Finally, the copper foils are patterned to be second and third patterns. | 05-16-2013 |
20130118010 | Packaging for Low-Cost, High-Performance Microwave and Millimeter Wave Modules - Microwave or millimeter wave module packaging having a module with a baseplate, transition board and cover. The baseplate includes microwave or millimeter wave components attached thereto. The transition board includes a first connector attached to a first side thereof and operatively connected to the components, and a second connector attached to a second side thereof and operatively connected to the components through the board. The cover and baseplate form a cavity containing the board and components, and the second connector may be operatively connected to a third connector such as a printed circuit board disposed outside of the cavity and on a higher level assembly. The transition board may further include a fourth connector operatively connected to the components for providing a signal to an external component or device or receiving a signal from an external component or device. | 05-16-2013 |
20130185934 | RESIN COMPOSITION SHEET FOR ENCAPSULATING ELECTRONIC PARTS AND METHOD OF PRODUCING ELECTRONIC PART APPARATUS USING THE SHEET - A resin composition sheet for encapsulating electronic parts and a method of producing an electronic part apparatus using the sheet are provided. The method includes: loading, on a substrate, a resin composition sheet for encapsulating electronic parts including a thermosetting resin composition containing an epoxy resin, a phenol resin, an inorganic filler, and a curing accelerator, having a lowest viscosity in a specific range, and a thickness in a specific range; heating the substrate in a chamber in a decompressed state to sag an end portion of the sheet until it is in contact with a surface of the substrate; and releasing a pressure in the chamber to cause the sheet to adhere onto the substrate due to a difference between a pressure in the space between the sheet and the substrate, and the pressure in the chamber after the release, followed by thermal curing. | 07-25-2013 |
20130219712 | METHOD OF MANUFACTURING MULTILAYER WIRING BOARD - Embodiments disclosed herein include a method of manufacturing a multilayer wiring board that includes the steps of forming, on a support substrate, a laminate in which insulating layers and conductor layers are alternately laminated, accommodating a semiconductor chip in an opening of a prepreg which is formed on the surface of the laminate and that includes a sheet-like glass fiber impregnated with resin, and heating and pressurizing the surface of the prepreg in a state where the semiconductor chip is accommodated in the opening. | 08-29-2013 |
20130291380 | ENCAPSULATING PACKAGE, PRINTED CIRCUIT BOARD, ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING ENCAPSULATING PACKAGE - The present invention is: a package main body section having a hollow section; and an electronic device provided in the hollow section in the package main body section, in the package main body section, there being formed a through hole, through which the hollow section communicates with outside of the package main body section, and in the through hole, there being provided a sealing section in which a vicinity of the through hole is partly heated and a constituent material of the package main body section is melted to thereby block the through hole. | 11-07-2013 |
20130305529 | STRETCHABLE ELECTRONICS MODULES AND CIRCUITS - A method of manufacturing a flexible electronics module includes mounting at least two functional components onto a flexible substrate, forming electrical interconnects configured to provide connection between the two functional components, and perforating the flexible substrate with cuts configured to increase stretchability of the substrate. | 11-21-2013 |
20130326872 | Thermometer Having Molded Probe Component - A medical measurement device, such as an electronic thermometer, having a probe. The probe includes a molded plastic substrate having a conductive circuit pattern formed directly on its surface. The circuit pattern extends at least from a first end margin of the molded plastic substrate to a second end margin opposite the first. The device also includes a sensor mounted on the molded plastic substrate for detecting a physiological parameter, such as temperature. The sensor is positioned on the molded plastic substrate at the first end margin by at least one positioning element integrally formed in the substrate. The conductive circuit pattern provides an electrical connection between the sensor and a processor. | 12-12-2013 |
20140041214 | PANELIZED PROCESS FOR SMT SENSOR DEVICES - A method is presented for forming multiple surface mount technology (SMT) sensor packages in a panel for separation into individual SMT sensor packages. A base plate is mapped as a grid of sensor footprints, and each footprint is populated with electronic and sensor components. A cover plate including window elements is mapped to a similar grid. The cover plate is bonded to the base plate, such that the window elements are positioned to allow incident electromagnetic radiation upon corresponding sensors mounted on the printed circuit board. Each sensor footprint is sealed within a recess or cell beneath the cover. The sensor circuits may be tested before and/or after being separated into individual SMT sensor packages. | 02-13-2014 |
20140259657 | PATTERNED OPHTHALMIC LENSES WITH INSERTS - This invention discloses methods and apparatus for providing a colorant pattern on Multi-piece ophthalmic Inserts and ophthalmic lenses comprising Inserts. In some embodiments, an ophthalmic lens is cast molded from a silicone hydrogel and the lens includes a sealed and encapsulated Multi-piece ophthalmic Insert portion with a colorant pattern. | 09-18-2014 |
20140345125 | METHOD OF FABRICATING PACKAGING SUBSTRATE HAVING A PASSIVE ELEMENT EMBEDDED THEREIN - 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. | 11-27-2014 |
20140345126 | METHOD OF FABRICATING PACKAGING SUBSTRATE HAVING A PASSIVE ELEMENT EMBEDDED THEREIN - 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. | 11-27-2014 |
20150296631 | CONNECTION USING CONDUCTIVE VIAS - In one embodiment, a meta-module having circuitry for two or more modules is formed on a substrate, which is preferably a laminated substrate. The circuitry for the different modules is initially formed on the single meta-module. Each module will have one or more component areas in which the circuitry is formed. A metallic structure is formed on or in the substrate for each component area to be shielded. A single body, such as an overmold body, is then formed over all of the modules on the meta-module. At least a conductive vertical interconnect access structure (vias) associated with each component area to be shielded is then exposed through the body by a cutting, drilling, or similar operation. Next, an electromagnetic shield material is applied to the exterior surface of the body of each of the component areas to be shielded and in contact with the exposed conductive vias. | 10-15-2015 |
20150327373 | METHOD OF MANUFACTURING A MULTICHIP PACKAGE STRUCTURE - A method of manufacturing a multichip package structure includes: providing a substrate body; placing a plurality of light-emitting chips on the substrate body, where the light-emitting chips are electrically connected to the substrate body; surroundingly forming surrounding liquid colloid on the substrate body to surround the light-emitting chips; naturally drying an outer layer of the surrounding liquid colloid at a predetermined room temperature to form a semidrying surrounding light-reflecting frame, where the semidrying surrounding light-reflecting frame has a non-drying surrounding colloid body disposed on the substrate body and a dried colloid outer layer totally covering the non-drying surrounding colloid body; and then forming a package colloid body on the substrate body to cover the light-emitting chips, where the semidrying surrounding light-reflecting frame contacts and surrounds the package colloid body. | 11-12-2015 |
20160044793 | LIGHTING APPARATUS FOR VEHICLE AND MANUFACTURING METHOD FOR THE SAME - A lighting apparatus for a vehicle may include a flexible printed circuit board of which at least one lighting source may be mounted on an upper surface of the flexible printed circuit board, and a cover which may be made of flexible material, and connected on the printed circuit board for the at least one lighting source to be disposed within the cover, wherein the cover distributes a light emitted from the at least one lighting source to an upper direction of the cover. | 02-11-2016 |
20160255751 | PROCESS OF AN EMBEDDED COMPONENT STRUCTURE | 09-01-2016 |
20160381808 | Method of Reducing the Thickness of an Electronic Circuit - Disclosed is a method of reducing the thickness of an electronic circuit comprising a printed circuit and electronic components. The method includes the following operations: mounting electronic components in die form on the printed circuit, putting an insulating layer into place on the electronic components, and putting a conductive layer on the insulating layer. Various embodiments include an electronic circuit obtained by such a method; a thin plastic card, such as in a credit card format, including such an electronic circuit; and a bank card including such an electronic circuit. | 12-29-2016 |