FUKUI PRECISION COMPONENT (SHENZHEN) CO., LTD. Patent applications |
Patent application number | Title | Published |
20150034364 | FLEXIBLE PRINTED CIRCUIT BOARD AND METHOD FOR MAKING SAME - An FPCB includes a flexible base, a wiring layer formed on a top surface of the base, a covering layer formed on the wiring layer, and a shielding layer formed on a portion of the covering layer. The wiring layer includes a grounding line. The covering layer defines an opening to expose the grounding line to the outside. A portion of the shielding layer fills into the opening. The shielding layer is electrically connected to the grounding line through the opening. | 02-05-2015 |
20140374153 | PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A PCB includes at least three single layer circuit boards laminated together. The single layer circuit boards include two outer circuit boards and at least one inner circuit board. Each single layer circuit board includes a dielectric layer and a conductive layer on a surface of the dielectric layer. The dielectric layer is selected from a material of thermoplastic resin. Each single layer circuit board defines at least one blind hole passing through the dielectric layer and is ended at the conductive layer. Each blind hole is filled with a filler material electrically connected to the conductive layer. The conductive layer of the at least one inner circuit board forms a first conductive circuit pattern, and the conductive layers of the outer circuit boards each form a second conductive circuit pattern. The second conductive circuit pattern is electrically connected to the first conductive circuit pattern by the filler material. | 12-25-2014 |
20140305683 | COMPACT RIGID-FLEXIBLE PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A compact rigid-flexible board includes two flexible PCBs, two rigid substrates, a third trace layer and a fourth trace layer. The first flexible PCB includes a first depressing portion, a first exposed portion and a third depressing portion, and a separated second exposed portion. The second flexible PCB includes fourth and fifth depressing portions, and a second exposed portion. The first rigid substrate includes sixth, seventh, and eighth depressing portions. The second rigid substrate includes ninth and tenth depressing portions. The third trace layer, the sixth, first, fourth, and ninth depressing portions and the fourth trace layer are stacked in sequence. The third trace layer, the seven, second, fifth, and tenth depressing portions, and the fourth trace layer are stacked in sequence. The third trace layer and the eighth and third depressing portions are stacked in sequence. | 10-16-2014 |
20140182900 | RIGID-FLEX PRINTED CIRCUIT BOARD AND METHOD FOR MAKING SAME - An RFPCB includes a reinforcement layer and at least two FPCBs spliced together to match the reinforcement layer in shape and size. The FPCBs are adhered onto the reinforcement layer. The reinforcement layer includes circuits connected with the FPCB and has portions removed to obtain a desired flexibility. | 07-03-2014 |
20140182899 | RIGID-FLEXIBLE PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A rigid-flexible printed circuit board includes a first circuit substrate, a third circuit substrate, and an adhesive sheet sandwiched between the first circuit substrate and the third circuit substrate. The first circuit substrate is a rigid circuit substrate. The third circuit substrate is a flexible circuit substrate, and includes an exposed area and two lamination areas. The exposed area is sandwiched between the two lamination areas. The first circuit substrate and the adhesive sheet are only laminated onto the two lamination areas. A dielectric layer of the first circuit substrate is a rigid epoxy glass cloth laminate, and a dielectric layer of the third circuit substrate is a flexible epoxy glass cloth laminate. | 07-03-2014 |
20140151092 | PCB WITH VISIBLE CIRCUIT AND METHOD FOR MAKING AND USING PCB WITH VISIBLE CIRCUIT - A printed circuit board (PCB) with visible circuit includes a circuited substrate, a first and second release films, and a first and second optical clear adhesive (OCA) layers. The first and second release films are pressed onto and are adhered to two opposite surfaces of the circuited substrate via the first and second OCA layers respectively, and the first and second OCA layers are made of polymethyl methacrylate (PMMA). | 06-05-2014 |
20140144685 | PRINTED CIRCUIT BOARD WITH CIRCUIT VISIBLE AND METHOD FOR MANUFACTURING SAME - A printed circuit board with circuit visible includes a wiring layer, a first adhesive layer, a first dielectric layer, and a cover film, which are stacked in described order, the wiring layer comprising at least one electrical contact pad. The cover film has at least one opening corresponding to the electrical contact pad. The cover film includes a second dielectric layer and a second adhesive layer. A flow initiation temperature of the first adhesive layer is in a range from 85 degrees centigrade to 90 degrees centigrade, and a hardening temperature of the first adhesive being lower than 150 degrees centigrade. | 05-29-2014 |
20140110152 | PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A printed circuit board includes a first outer electrically conductive pattern layer, a first insulation layer, a first inner electrically conductive pattern layer, a connection adhesive sheet, a second inner electrically conductive layer, a second insulation layer, a second outer electrically conductive pattern layer, and a identification mark, which are arranged in that order. The first outer electrically conductive pattern layer includes many first gold fingers. The second outer electrically conductive pattern layer includes many second gold fingers. The blind hole corresponds to the identification mark. The first outer electrically conductive pattern layer, the second outer electrically conductive pattern layer, and the at least one identification mark are simultaneously formed. | 04-24-2014 |
20140054079 | MULTILAYER FLEXIBLE PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A method for manufacturing a multilayer FPCB includes certain steps. A first printed circuit substrate is provided, the first printed circuit substrate includes a first copper layer and a first protective film, the film defining a first opening. A second printed circuit substrate is provided, this substrate includes a second copper layer and a second protective film. The second protective film defines a second opening. The first printed circuit substrate is laminated together with the second printed circuit substrate by an adhesive sheet. The adhesive sheet defines a third opening in communication with and aligned with the first opening and the second opening. The first copper layer is then etched to form a first outer wiring layer and the third copper layer is also etched to form a second outer wiring layer, thereby obtaining a multilayer FPCB. | 02-27-2014 |
20140054074 | PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A printed circuit board includes a first electrically conductive circuit pattern, a substrate layer, an adhesive sheet, and a second electrically conductive circuit pattern, which are arranged in the above described order. The printed circuit board includes a single layer electrically conductive circuit area. The adhesive sheet defines a first opening spatially corresponding to the single layer electrically conductive circuit area. The adhesive sheet includes a first inner sidewall surrounding the first opening. The second electrically conductive circuit pattern defines a second opening spatially corresponding to the single layer electrically conductive circuit area. The second electrically conductive circuit pattern includes a second inner sidewall surrounding the second opening. The first inner sidewall and the second inner sidewall are not completely coplanar. | 02-27-2014 |
20140053397 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD - A method for manufacturing a PCB includes certain steps. A printed circuit board sheet is provided. The printed circuit board includes an unwanted portion and a printed circuit board unit which includes a plurality of contact pads. An imaginary boundary line is defined between the printed circuit board unit and the unwanted portion. Each of the contact pads defines an outline. A nearest distance between the outline and the imaginary boundary line is less than 4 millimeters. The printed circuit board sheet is punched along the imaginary boundary line, forming one hollow portion or a plurality of through slots. A plurality of burrs is generated on an inner surface of the hollow portion or the through slots. The burrs are removed using a low-energy laser cutting process, thereby obtaining a printed circuit board. A laser power used in the low-energy laser cutting process is 5-8 watts. | 02-27-2014 |
20140027164 | PRINTED CIRCUIT BOARD WITH PATTERNED ELECTRICALLY CONDUCTIVE LAYER THEREIN VISIBLE AND METHOD FOR MANUFACTURING SAME - This disclosure relates to a printed circuit board comprising a light-pervious insulation layer, a patterned electrically conductive layer and a light-pervious overlay. The patterned electrically conductive layer includes a first black oxide layer, a copper layer and a second black oxide layer. The copper layer includes two opposite surfaces and a plurality of inner surfaces interconnecting the two opposite surfaces of the copper layer. The first black oxide layer is formed on one of the surfaces, and the second black oxide layer is formed on the other surface and the inner surfaces. The patterned electrically conductive layer is arranged on the light-pervious insulation layer. The light-pervious overlay is arranged on the second black oxide layer. A method for manufacturing the printed circuit board is also provided in this disclosure. | 01-30-2014 |
20130092420 | EMBEDDED MULTILAYER PRINTED CIRCUIT BOARD AND METHOD - An embedded multilayer printed circuit board includes first, second and third circuit substrates, and a flexible circuit substrate. The first circuit substrate includes a first base layer and a first electrically conductive layer. The second circuit substrate includes a second base layer and a second circuit layer. The second circuit substrate also defines a receiving hole. The third circuit substrate includes a third circuit layer, a third base layer, a fourth circuit layer, and an electronic element mounted on the third circuit layer. The third circuit layer and the fourth circuit layer are formed on the opposite sides of the third base layer. The electronic element is received in the receiving hole. | 04-18-2013 |
20120260501 | METHOD FOR MANUFACTURING RIGID-FLEXIBLE PRINTED CIRCUIT BOARD - A method for manufacturing a rigid-flexible printed circuit board includes following steps. First, a flexible PCB is provided. The flexible PCB includes a base and an electrical trace layer on the base. The flexible PCB includes a first region and a second region connected to the first region. The first and second regions define a borderline. Second, a protective film and a peelable layer are sequentially formed on the electrical trace layer in the first region and part of the second region. Third, a copper coil, an adhesive tape and the flexible circuit board are laminated together. Fourth, the copper coil in the second region is etched to form an outer electrical trace layer. Last, the copper coil in the first region is removed and the peelable layer and the adhesive tape are peeled off, thereby obtaining an R-F PCB. | 10-18-2012 |
20120160803 | METHOD FOR MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARD - A method for manufacturing a multilayer PCB comprises the following steps. First, a PCB substrate includes a first circuit layer is provided. The first circuit layer includes a mounting portion. A first solder-resistant layer is formed on the mounting portion and a protective adhesive film is attached on the first solder-resistant layer. Next, a first copper foil, a first adhesive layer, a second copper foil, and a second adhesive layer are laminated on the PCB substrate, and the first and second copper foils are etched to form circuit layers. Then a cavity is defined and the protective adhesive film is exposed in it. After removing the protective adhesive film, an electronic component is mounted in the cavity. As such, a multilayer PCB with the electronic component embedded in is obtained. | 06-28-2012 |
20120097326 | METHOD FOR MANUFACTURING RIGID-FLEXIBLE PRINTED CIRCUIT BOARD - A method for manufacturing a rigid-flexible printed circuit board includes certain steps. A flexible substrate including an exposed portion and an attaching portion is provided. An adhesive sheet defining an opening, and a rigid copper clad laminate are provided. The rigid copper clad laminate includes an insulating layer and a copper layer. A blind first slit is defined in the insulating layer. The flexible substrate, the adhesive sheet and the copper clad laminate are laminated. An outer circuit is formed in the copper layer. A second slit is defined in the copper clad laminate, and the second slit is in communication with the first slit. A portion of the copper clad laminate is removed to expose the flexible portion of the flexible substrate. | 04-26-2012 |
20120066903 | METHOD OF MANUFACTURING FPCB SUBSTRATE - A method for manufacturing a FPCB substrate includes the following steps. First, a FPCB material including an insulation layer and an electrically conductive layer formed on the insulation layer is provided. The electrically conductive layer has a first surface and an opposite second surface. The insulation layer has a third surface and an opposite fourth surface. The third surface comes into contact with the second surface. Secondly, a through hole extends from the first surface to the fourth surface is formed. The through hole includes a metal hole in the electrically conductive layer and an insulation hole in the insulation layer. Thirdly, the insulation hole is enlarged to expose a portion of the electrically conductive layer around the metal hole. Finally, the exposed portion is bent to form a hook which passes through the enlarged insulation hole and protrudes out from the fourth surface of the insulation layer. | 03-22-2012 |
20120055356 | METHOD FOR SCREEN PRINTING PRINTED CIRCUIT BOARD SUBSTRATE - A method for screen printing a printed circuit board substrate comprises the following steps. A printed circuit board substrate including a copper foil layer is provided. Pluralities of marks are formed on the copper foil layer. A plurality of printing screens are provided, each includes an screen pattern and an opening corresponding to a respective mark. Printing material is applied on the ith screen Si to form an ith printing pattern and cover the ith mark at the ith opening, the ith printing pattern conforms to the ith screen pattern; checking whether the ith mark is covered by the printing material when i is less than N. Printing material is applied on the (i+1)th screen S | 03-08-2012 |
20120023744 | METHOD FOR MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARD - In a method for manufacturing multilayer PCBs having n circuit layers, a double-sided flexible substrate strip is provided. The strip comprises a number of PCB units, each comprising m segments, wherein m=n/2 if n represents an even integer, and m=(n+1)/2 if n represents an odd integer. Each segment includes two foil portions. In a reel to reel process, the strip is treated to form n−2 foil portions of each PCB unit into traces, further remove one foil portion if n represents an odd integer. The other two foil portions are left untreated. Then the strip is cut to separate the PCB units from each other. The PCB unit is folded in such a manner that the traces are arranged between the other two foil portions. The folded PCB unit is laminated to form a multilayer substrate and traces are formed in the two foil portions. | 02-02-2012 |
20120011713 | METHOD FOR MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARD - In a method for manufacturing multilayer PCBs having n circuit layers, a flexible substrate strip is provided. The strip comprises a number of PCB units, each comprising n segmental portions. The strip is treated in a reel to reel process to form traces in n−2 segmental portions of each of the PCB units, the other two segmental portions are left untreated without traces. Then the strip is cut to obtain a number of separated PCB units. The PCB unit is folded in such a manner that the n−2 segmental portions having traces are arranged between the other two segmental portions without traces. The folded PCB unit is laminated to form a multilayer substrate and traces are formed in the two segmental portions. | 01-19-2012 |
20110308082 | METHOD FOR MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARD WITH PLATED THROUGH HOLES - A method for manufacturing multilayer printed circuit board includes steps below. A first copper clad laminate includes a central portion and a peripheral portion is provided. A group of concentric copper annular collars is formed by etching the peripheral portion. A second copper clad laminate and an adhesive layer is laminated on to the first copper clad laminate in a manner that the adhesive is sandwiched between the first copper clad laminate and the second copper clad laminate to form a multilayer substrate. A detection hole is formed run through the multilayer substrate. An offset distance is determined and plated through holes in the central portion of the multilayer substrate is formed based on the offset distance. | 12-22-2011 |
20110302775 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD - A method for manufacturing a printed circuit board with cavity includes following steps. First, a first substrate is provided. The first substrate includes a first electrically conductive layer defining an exposed portion and a laminating portion. Second, a second substrate is provided. The second substrate includes an unwanted portion corresponding to the exposed portion and a preserving portion. Third, a first annular bump surrounding the exposed portion is formed. Fourth, a second annular bump surrounding the unwanted portion is formed. Fifth, a first adhesive layer defining an opening is provided. Sixth, the first and second substrates are laminated to the first adhesive layer, the exposed portion and the unwanted portion are exposed in the opening, and the second annular bump is in contact with the first annular bump. Seventh, the unwanted portion is removed and a cavity is defined, the exposed portion is exposed in the cavity. | 12-15-2011 |
20110297644 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD WITH CAVITY - A method for manufacturing printed circuit board includes steps below. An inner substrate including a first electrically conductive layer is provided. A first electrically conductive pattern is formed in the first electrically conductive layer. The first electrically conductive pattern includes an exposed region and an attaching region. A protective layer is formed on the entire exposed region. A first adhesive layer and a second electrically conductive layer are laminated on a surface of the first electrically conductive pattern in the attaching region and a surface of the protective layer. A slit along a boundary of the exposed region passing through the second electrically conductive pattern and the first adhesive layer is defined. The second electrically conductive layer corresponding to the exposed region, the first adhesive layer corresponding to the exposed region and the protective layer is removed. | 12-08-2011 |
20110297437 | ELECTRONIC COMPONENT DEVICE AND CONNECTOR ASSEMBLY HAVING SAME - An electronic component device for electrically and mechanically connecting to a lead wire includes a base and a cover. The base includes a receiving body, at least one electronic component, and two spaced stripping connectors. The receiving body defining an installation groove. The at least one electronic component and the stripping connectors are received in the receiving body. Each stripping connector is in electrically connected with the at least one electronic component. The stripping connector defines a stripping slot for extension of the core therethrough, which has a size smaller than or equal to the diameter of the core. The cover includes a pressing surface and an electrically insulating cutting body. The cutting body is used for cutting off the lead wire. The pressing surface is configured for pressing the lead wire into the stripping slot, thus making the core in electrical connection with the at least one electronic component. | 12-08-2011 |
20110284162 | APPARATUS FOR WET PROCESSING SUBSTRATE - An exemplary apparatus for wet processing a substrate includes a conveyor configured for conveying the substrate along a conveying direction and parallel spray pipes. The spray pipes are substantially parallel with the conveyor and substantially perpendicular to the conveying direction. Each spray pipe consisting of at least one spray nozzle faces the conveyor, and the number of the at least one nozzle of each spray pipe increases along the conveying direction. | 11-24-2011 |
20110247207 | METHOD FOR MANUFACTURING MULTILAYER FLEXIBLE PRINTED CIRCUIT BOARD - A method for manufacturing a multilayer FPCB which includes providing a first substrate, a second substrate and a binder layer; defining an opening on the binder layer; defining a first slit in the dielectric layer of the first substrate; laminating the first substrate, the binder layer and the second substrate; forming a second slit in the conductive layer of the first substrate, the second slit being created so as to align with the first slit, cutting the first substrate, the binder layer and the second substrate thereby forming a multilayer flexible printed circuit board having different numbers of layers in different areas. | 10-13-2011 |
20110095464 | FLEXIBLE PRINTED CIRCUIT BOARD HOLDER - A holder for holding a flexible printed circuit board includes a main body and at least one securing member. The main body includes a hook portion and a holding member, wherein one of the securing member and the holding member comprises at least one magnet, and the other comprises at least one magnetic portion, at least one magnet or combination thereof such that the securing member capable of being magnetically attached to the holding member. | 04-28-2011 |
20110024042 | APPARATUS FOR WET PROCESSING SUBSTRATE - An exemplary wet processing apparatus includes a conveyor, a spraying system, and a suction system. The conveyor is configured for conveying a substrate. The spraying system includes an upper spraying conduit above the conveyor and an upper spraying nozzle mounted on the upper spraying conduit. The suction system includes a suction conduit and a suction nozzle connected to the suction conduit. The suction nozzle is adjacent to the conveyor and configured for suction the wet processing liquid sprayed on the substrate. The suction conduit is connected to the spraying conduit in such a manner that the flowing of the wet processing liquid in the upper spraying conduit can create a negative pressure in the suction conduit to enable the suction nozzle to suck the wet processing liquid on the substrate. | 02-03-2011 |
20100129532 | METHOD FOR FORMING ELECTRICAL TRACES ON SUBSTRATE - A method for forming electrical traces on a substrate includes the steps of: providing a substrate; printing an ink pattern using an ink on the substrate, the ink including a aqueous medium containing silver ions and a heat sensitive reducing agent; heating the ink pattern to reduce silver ions into silver particles thereby forming an semi-finished traces; and forming a metal overcoat on the semi-finished traces by electroless plating thereby obtaining patterned electrical traces. | 05-27-2010 |
20100021653 | METHOD OF FORMING ELECTRICAL TRACES ON SUBSTRATE - An exemplary method for forming electrical traces on a substrate includes flowing steps. Firstly, a circuit pattern is formed on the substrate by printing a silver ions-containing ink. The ink comprises an aqueous carrier medium, and a silver halide emulsion soluble in the aqueous carrier medium. Secondly, an irradiation ray irradiates the circuit pattern to reduce the silver ions into silver to form a silver particle circuit pattern comprised of silver particles. Thirdly, a metal overcoat layer is electroless-plated on the silver particle circuit pattern thereby obtaining electrical traces. | 01-28-2010 |
20100021652 | METHOD OF FORMING ELECTRICAL TRACES - A method of forming electrical traces includes the steps of: providing a substrate; printing an ink pattern using a silver containing ink on the substrate, the ink comprising an aqueous carrier medium having dissolved therein a water-soluble light sensitive silver salt; irradiating the ink pattern to reduce silver salt therein to silver particles thereby forming an underlayer; and electroless plating a metal overcoat layer on the underlayer thereby obtaining electrical traces. | 01-28-2010 |
20100018638 | METHOD FOR MANUFACTURING FLEXIBLE PRINTED CIRCUIT BOARD - A method for manufacturing a flexible printed circuit sheet (FPCB), comprising: providing a flexible copper clad laminate (FCCL), the FCCL comprising an insulating layer and a copper layer disposed thereon; providing a reinforcing sheet, the reinforcing sheet comprising a base and a binder layer attached thereon; attaching the FCCL onto the binder layer of the reinforcing sheet with the copper layer exposed; forming electrical traces in the copper layer, thus obtaining a FPCB substrate; and removing the FPCB substrate from the reinforcing sheet. | 01-28-2010 |
20090304911 | METHOD OF FORMING CIRCUITS ON CIRCUIT BOARD - A method of forming a circuit on a circuit board includes the following steps. Firstly, a surface of an insulating substrate is hydrophilically treated. Secondly, a first circuit layer having a number of electrical traces is formed on the hydrophilically treated surface, the first circuit layer is comprised of a soluble palladium salt. Thirdly, the soluble palladium salt of the first circuit layer is reduced into metallic palladium, thereby obtaining a second circuit layer comprised of metallic palladium. Lastly, an electrically conductive layer is formed on the second circuit layer. | 12-10-2009 |
20090301763 | INK, METHOD OF FORMING ELECTRICAL TRACES USING THE SAME AND CIRCUIT BOARD - An exemplary ink for forming electrical traces includes a plurality of noble-metal-coated diacetylene vesicles formed by combining a noble-metal-ions-containing aqueous solution with diacetylenic monomers each including a hydrophilic group and a lipophilic group. The noble metal ions are attracted to an external surface of each of the diacetylene vesicles. | 12-10-2009 |
20090291230 | INK AND METHOD OF FORMING ELECTRICAL TRACES USING THE SAME - A silver-containing ink includes an aqueous carrier medium having both a silver salt and an amine sensitizer for the silver salt dissolved therein, and a light sensitive reducing agent dispersed in the aqueous carrier medium. The amine sensitizer includes at one or more amine group; and the light sensitive reducing agent is capable of reducing the silver in the silver-containing ink to silver particles when irradiated. | 11-26-2009 |
20090286006 | INK AND METHOD OF FORMING ELECTRICAL TRACES USING THE SAME - An exemplary ink for forming electrical traces includes an aqueous carrier medium, a palladium salt and a reducing agent. The palladium salt is capable of being dissolved in the aqueous carrier medium. The reducing agent is configured for reducing the palladium ions into palladium particles under an irradiation ray. | 11-19-2009 |
20090246357 | METHOD OF FORMING CIRCUITS ON CIRCUIT BOARD - A method of forming a circuit on a circuit board includes the steps of: forming a first circuit pattern made of a nano-scale metal oxide material on a surface of an insulating substrate; reducing the nano-scale metal oxide material into a nano-scale deoxidized metal material, thus obtaining a second circuit pattern; and forming an electrically conductive metal layer on the second circuit pattern. | 10-01-2009 |
20090242246 | PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING SAME - A printed circuit board includes a substrate having a surface, a circuit layer having a plurality of electrical traces formed on the surface, and an electrically conductive metal layer formed on the circuit layer. The circuit layer is comprised of a composite of carbon nano-tubes and metallic nano-particles. | 10-01-2009 |
20090241333 | METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD HAVING DIFFERENT THICKNESSES IN DIFFERENT AREAS - A method for manufacturing a printed circuit board (PCB) having different thicknesses in different areas includes: providing a first substrate having two lateral unwanted portions bounded two imaginary boundary lines, a binder layer having a through opening and a second substrate having a mounting area for mounting electronic elements; forming two slots bounded the imaginary boundary lines in an intermediated unwanted portion of the first substrate corresponding to the mounting area; laminating the first and second substrates, and the binder layer with the mounting area exposed via the through opening; filling the two slots and the through opening with a filling material, thereby obtaining a semifinished PCB board; cutting the semifinished PCB board along the imaginary boundary lines to remove the two lateral unwanted portions and a portion of the second substrate corresponding to the two lateral unwanted portions; and removing the intermediate unwanted portion and the filling material. | 10-01-2009 |
20090217520 | METHOD FOR FORMING SOLDER LUMPS ON PRINTED CIRCUIT BOARD SUBSTRATE - In this present invention, a method for forming solder lumps on printed circuit board (PCB) substrate is provided. A PCB substrate including a number electrical traces and solder pads formed on a substrate surface thereof is provided. A liquid photoresist is applied onto the PCB substrate such that a photoresist layer defining a number of openings thereof is formed and each of the solder pads is exposed via each of the openings. A solder masses are filled into each of the openings. The solder masses are reflowed and the photoresist layer is removed. | 09-03-2009 |
20090183823 | METHOD FOR MANUFACTURING RIGID-FLEXIBLE PRINTED CIRCUIT BOARD - A method for manufacturing a rigid-flexible printed circuit boards includes following steps. Firstly, a flexible substrate is provided. Secondly, at least one slit is defined in the flexible substrate. Thirdly, a rigid substrate having a structure corresponding to the flexible substrate is provided. Fourthly, the flexible substrate is laminated to the rigid substrate to obtain a laminated substrate. Fifthly, part of the rigid substrate is removed. Sixthly, the laminated substrate is cut along an imaginary boundary line to remove waste portion of the laminated substrate. Thus, a rigid-flexible printed circuit board is obtained. | 07-23-2009 |
20090175713 | BOARD INVERTER - The present invention relates to a board inverter and a boarding inverting system. The board inverter includes a support, a first board picking device, an second board picking device and a controller. Each of the first board picking device and the second board picking device includes a driving mechanism and a first board picking device. The driving mechanism comprises a first linear driving means mounted on the support, a second linear driving means mechanically coupled to the first linear driving means, and a rotary driving means attached to the second linear driving means. The controller is connected to all the power supply members. The controller controls the motion of the first board picking device and the second board picking device such that the first board picking device and the second board picking device cooperatively inverting workpieces transmitted on a production line. The board inverter can be installed on a production line without altering the arrangement of existing production line. | 07-09-2009 |
20090159559 | METHOD OF MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARD HAVING BURIED HOLES - A method for manufacturing a multilayer printed circuit board includes the following steps. A number of laminate units are provided. Each of the laminate units includes an electrically conductive layer with a circuit pattern defined therein, and a release layer releasably attached to the electrically conductive layer. A number of insulation layers are provided. Each of the insulation layers definies a metalized through hole therein. The electrically conductive layers and the insulation layers are stacked alternately one on another such that adjacent electrically conductive layers are insulated by one insulation layer and the metalized through holes electrically connects the circuit patterns of the adjacent electrically conductive layers. In the stacking step, the release layer is removed from the laminate unit after the electrically conductive layer is stacked onto the respective insulation layer, thereby obtaining a pre-laminated multilayer printed circuit board. The stacked electrically conductive layers and the insulation layers are laminated together to achieve a multilayer printed circuit board. | 06-25-2009 |
20090159317 | PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING THE SAME - An exemplary method for manufacturing printed circuit boards is provided. In the method, a substrate having a first surface and a second surface on an opposite side of the substrate to the first surface is provided. A number of through holes in the substrate between the first surface and the second surface are formed. An electrically conductive paste is applied to the substrate to fill the through holes defined in the substrate to form a plurality of filling members and be printed on at least one of the first surface and the second surface of the substrate to form a number of electrical traces. The filling members located in the through hole in the substrate and the electrical traces printed on the substrate are cured. | 06-25-2009 |
20090120671 | FPCB SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A flexible printed circuit board substrate includes an electrically conductive layer, an insulation layer, and a hook. The electrically conductive layer has a first surface and a second surface at an opposite side thereof to the first surface. The insulation layer having a third surface and a fourth surface at an opposite side thereof to the third surface. The third surface of the insulation layer combines with the second surface of the electrically conductive layer. A through hole is defined in the electrically conductive layer and the insulation layer extending from the first surface of the electrically conductive layer to the fourth surface of the insulation layer. The hook extends from the electrically conductive layer and passes through the through hole to protrude from the fourth surface of the insulation layer. | 05-14-2009 |
20090088881 | SIMULATION SYSTEM AND METHOD FOR MANUFACTURING PRINTED CIRCUIT BOARD - An exemplary simulation system for manufacturing a printed circuit board is provided. The simulation system includes at least one simulation sub-system. The simulation sub-system includes an input module, a storing module, a processing module, and an output module. The input module is configured for acquiring a number of processing parameters associated with steps of a process for manufacturing the printed circuit board. The storing module is configured for storing a number of simulation functions relating to the steps of the process for manufacturing the printed circuit board. The processing module is configured for selecting and performing the corresponding simulation function according to the acquired parameters, thereby obtaining a simulation result. The output module is configured for output the simulation result. | 04-02-2009 |
20090050677 | METHOD OF WELDING ELECTRONIC COMPONENTS ON PCBS - An exemplary method of welding electronic components on PCBs is disclosed. Firstly, a metal tray including a number of supporting areas is provided. At least one through hole is formed in each of the supporting areas. Secondly, solder pastes are applied onto welding pads of PCBs. Thirdly, electronic components are mounted on the welding pads. Fourthly, PCBs are placed on the metal tray in a manner that each printed circuit board is placed in a corresponding supporting area and the welding pads being above the through hole. Finally, the solder pastes are heated to weld the electronic components on the printed circuit board. By doing so, the heat can pass through the through holes in each supporting area directly and fully melt the solder paste. As a result, welding defects can be reduced. | 02-26-2009 |
20090045151 | APPARATUS FOR HOLDING PRINTED CIRCUIT BOARDS - In one embodiment, a holder for holding printed circuit boards includes a base plate with a plurality of holding unit formed thereon. Each of the holding units includes a spring member, a securing member, and a blocking structure. The spring member includes a first end and a second end. The first end is attached to the base plate. The securing member is slideably mounted on the base plate. The securing member includes a connecting end and a securing end. The connecting end is connected with the second end of the spring member. The blocking structure is located on the base plate. The spring member is configured for pressing the securing member to move toward the blocking structure such that a printed circuit board is retainable between the securing end of the securing member and the blocking structure on the base plate. The holder is capable of holding printed circuit boards in batches. | 02-19-2009 |
20090042370 | METHOD OF CUTTING PCBS - The present invention relates to a method of cutting PCB module using a laser. The method includes steps of: providing a coverlay film, the coverlay film including at least one opening defined therein; attaching the coverlay film onto the PCB module such that the through holes of the PCB module are covered by the coverlay film and the laser cutting area thereof is exposed via the at least one opening; applying a laser beam to the exposed laser cutting area of the PCB module to cutt the PCB module; and removing the coverlay film. A high positioning precision of the PCB module and better cutting result can be obtained. | 02-12-2009 |
20090039895 | METHOD OF DETECTING FAULTY VIA HOLES IN PRINTED CIRCUIT BOARDS - A method of detecting faulty via holes of a printed circuit board. The printed circuit board including a number of electric trace segments. The method includes steps of: providing a testing system, the testing system comprising a processor, a storing means and a resistance measuring device, the storing means for storing a function Y | 02-12-2009 |
20090038828 | FLEXIBLE PRINTED CIRCUIT BOARD SUBSTRATE AND FLEXIBLE PRINTED CIRCUIT BOARD FABRICATED USING THE SAME - The present invention relates to a flexible printed circuit board substrate and FPCB made from the flexible printed circuit board substrate. In one embodiment, a flexible printed circuit board substrate includes a dielectric layer, a rolled copper foil and an electroplated copper foil disposed on two opposite surfaces of the dielectric layer respectively. The contact fingers are made from electroplated copper foil, as a result, the contact fingers are stronger than that made from rolled copper foil. Furthermore, electroplated copper foils are cheaper than rolled copper foils. | 02-12-2009 |
20090035566 | ADHESIVE LAYER AND PRINTED CIRCUIT BOARD ASSEMBLY HAVING THE SAME - An exemplary adhesive layer includes an adhesive main body having a first adhesive surface and a second adhesive surface on an opposite side of the adhesive main body to the first adhesive surface. The adhesive main body defines a number of through-holes between the first adhesive surface and the second adhesive surface therein. The through-holes are filled with an inner adhesive that has a higher adhesion than the adhesive main body. Adhesiveness of the first adhesive surface and the second adhesive surface of the adhesive main body can be improved, thereby preventing a printed circuit board having the adhesive layer from distortion. | 02-05-2009 |
20090033925 | VISUAL INSPECTION APPARATUS FOR FLEXIBLE PRINTED CIRCUIT BOARDS - An exemplary visual inspection apparatus for a flexible printed circuit board includes a frame, an inspection station, a control system, a roller system and a power system. The inspection station is disposed on the frame. The inspection station has an inspection surface for placing the flexible printed circuit board thereon for visual inspection. The roller system includes a first roller for unwinding a flexible printed circuit board therefrom and a second roller for winding up the flexible printed circuit board therearound. The power system includes a driving device and a braking device. The driving device includes a torque motor engaging with the second roller to drive the second roller to roll. The braking device includes a detent engaging with the first roller to stop rolling of the first roller. The control system electrically connects to the power system for controlling the power system. | 02-05-2009 |
20090027072 | APPARATUS FOR TESTING CHIPS WITH BALL GRID ARRAY - An exemplary an apparatus for testing chips with ball grid array comprised of a number of solder balls is provided. The apparatus includes a main printed circuit board, a supporting board and a testing device. The main printed circuit board has a edge connector. The supporting board defines a number of electrically conductive through holes arranged in an array corresponding to the ball grid array. One end of each of the electrically conductive through holes is configured for electrically connection to the main printed circuit board, the other end of the electrically through holes is configured for receiving and electrically connecting the corresponding solder ball of the ball grid array. The testing device has a socket connector for insertion of the edge connector therein. The testing device is configured for testing the chip. | 01-29-2009 |
20090014204 | FLEXIBLE PRINTED CIRCUIT BOARD - A flexible printed circuit board includes a base and a coverlay. The base includes a main portion and a distal portion connecting with the main portion. The distal portion has a first part and a second exposed part. The coverlay is formed on the base and covers the main portion and the first part of the distal portion. The second exposed part of the distal portion is uncovered by the coverlay. The coverlay includes a curved edge serving as an interface between the first part and second part of the distal portion. | 01-15-2009 |
20090001641 | FLEXIBLE PRINTED CIRCUIT BOARD HOLDER - In one embodiment, a holder for holding a flexible printed circuit board includes a main body and at least one securing member. The main body includes a hook portion and a holding member, wherein one of the securing member and the holding member comprises at least one magnet, and the other comprises at least one magnetic portion, at least one magnet or combination thereof such that the securing member capable of being magnetically attached to the holding member. | 01-01-2009 |
20090000115 | SURFACE MOUNTING APPARATUS AND METHOD - An exemplary method for surface mounting an electronic component onto a pad of a printed circuit board is provided. The electronic component and the printed circuit board are located onto a platform. An outline image of the electronic component is captured using a first image sensing device. Coordinates of a geometrical center of the electronic component are determined using a central processing device. An outline image of the pad is captured using a second image sensing device. Coordinates of a geometrical center of the pad are determined using the central processing device. The electronic component is moved onto the pad using a picking-up/placing device according to the coordinate of the geometrical center of the electronic component and the coordinate of the geometrical center of the pad. The electronic component can be registered with the pad exactly using the method. | 01-01-2009 |
20080314719 | COVERLAY PROCESSING SYSTEM - A coverlay processing system includes a processing device and a conveyance device. The conveyance device is configured for moving the coverlay to the process device. The conveyance device includes a pulling member, a first securing member, a detector and a controller. The pulling member is configured for driving the coverlay. The first securing member is configured for stopping moving the coverlay. The detector is configured for detecting a moving state of the coverlay and is connected to the controller. The controller is connected to the processing device for managing the operation of the processing device. | 12-25-2008 |
20080308042 | APPARATUS FOR PLASMA-PROCESSING FLEXIBLE PRINTED CIRCUIT BOARDS - The present invention relates to an apparatus for plasma-processing of flexible printed circuit boards (FPCBs). The apparatus includes a plasma-discharging chamber, two electrodes arranged in the chamber for generating plasma in the chamber, a frame, and two elongated holding arms disposed on the frame. The frame includes a number of spaced parallel first bars and a number of spaced parallel second bars. The first bars intersecting with the second bars. The elongated holding arms are substantially parallel with each other. Each of the arms has an inner sidewall. The inner sidewalls of the elongated holding arms are opposite to each other. An elongated recess is defined in each of the inner sidewalls proximate to the frame. The apparatus can ensure uniform plasma-processing and protect FPCBs from being burned. | 12-18-2008 |
20080302258 | SCREEN PRINTING STENCIL AND METHOD FOR MANUFACTURING THE SAME - An exemplary screen printing stencil includes a frame, a screen mesh and a metal foil. The screen mesh is stretched tightly in the frame. The metal foil is attached on a surface of the screen mesh. A screen printing pattern is defined on the metal foil by a laser machining process. A machining tolerance of the screen printing pattern is either in a range from 0.005 to 0.02 millimeters or in a range from −0.02 to −0.005 millimeters. The screen printing stencil can be used in a screen printing process of manufacturing a printed circuit board, thereby improving quality of the printed circuit board. | 12-11-2008 |
20080286122 | GAS-DRIVEN LIQUID PUMP - A gas-driven liquid pump includes a gas source, a tank, a pumping pipe, at least one gas conveying pipe, and at least one liquid conveying pipe. The pumping pipe includes a gas input end, a liquid output end and a suction portion located between the gas input end and the liquid output end. An inner diameter of the pumping pipe gradually decreases from the gas input end to the suction portion, and the inner diameter of the pumping pipe gradually increases from the suction portion to the liquid output end. At least one gas conveying pipe is configured for connecting the gas source and the gas input end of the pumping pipe. One end of the liquid conveying pipe is connected to the tank, and another end is engaged with the suction portion of the pumping pipe. | 11-20-2008 |
20080285241 | FLEXIBLE PRINTED CIRCUIT BOARD - A flexible printed circuit board includes a flexible base, a working trace region, and at least one reinforcement trace. The working trace region and the at least one reinforcement trace are formed on the flexible base. The working trace is formed by a number of working traces. In the flexible base, the at least one reinforcement trace is disposed at a periphery of the working trace region. | 11-20-2008 |
20080283289 | PRINTED CIRCUIT BOARDS - The present invention relates to a printed circuit board. In one embodiment, a printed circuit board includes a dielectric layer and a conductive trace formed on the dielectric layer. The conductive layer includes a first conductive portion, a connecting portion and a second conductive portion. The connecting portion includes a first end and a second end. The first end is connected to the first conductive portion; the second end is connected to the second conductive portion. A width of the connecting portion gradually decreases from the first end to the second end. Reflection and cross talk of signals transmitted in the presented printed circuit board can be reduced. | 11-20-2008 |
20080266819 | MOUNTING SUPPORT FOR A FLEXIBLE PRINTED CIRCUIT BOARD AND RETAINING APPARATUS HAVING THE SAME - An exemplary mounting support for a flexible printed circuit board is provided. The flexible printed circuit board has a side surface and at least one electronic component mounted on the side surface. The mounting support includes a first surface for contacting with the side surface of the flexible printed circuit board and a second surface on an opposite side of the mounting support to the first surface. The mounting support has at least one first recess defined in the first surface for receiving the at least one electronic component therein and at least one through-hole defined through the first surface and the second surface. The mounting support has at least one second recess defined in the second surface. The mounting support can fix a double surface mounted flexible printed circuit board flatly, thereby enhancing laser processing precision. | 10-30-2008 |
20080250637 | METHOD FOR MANUFACTURING MULTILAYER FLEXIBLE PRINTED CIRCUIT BOARD - A method for manufacturing a multilayer FPCB includes the steps of: providing a first substrate, a second substrate and a binder layer; defining an opening on the binder layer; defining a first slit in the dielectric layer of the first substrate; laminating the first substrate, the binder layer and the second substrate; forming a second slit in the conductive layer of the first substrate, the second slit is configured to be aligned with the first slit, cutting the first substrate, the binder layer and the second substrate thereby forming a multilayer flexible printed circuit board having different numbers of layers in different areas. | 10-16-2008 |
20080248258 | MOUNTING SUPPORT FOR RETAINING A FLEXIBLE PRINTED CIRCUIT BOARD - An exemplary mounting support for retaining a flexible printed circuit board is provided. The flexible printed circuit board has a first portion and a second portion. A thickness of the first portion is greater than that of the second portion. The mounting support includes a supporting platform and an adhesive layer disposed on the supporting platform. The adhesive layer includes a first adhesive portion mating with the first portion, and a second adhesive portion mating with the second portion. A thickness of the first adhesive portion is less than that of the second adhesive portion. A thickness difference between the first adhesive portion and the second adhesive portion is equal to a thickness difference between the first portion and the second portion. | 10-09-2008 |
20080230168 | LAMINATOR AND LAMINATING METHOD - A laminator is configured for laminating a film sheet on a respective surface of a plurality of substrates. The laminator includes a pressure roller, a first conveyance device, a second conveyance device, and a distance measuring system. The first conveyance device is provided for controllably conveying substrates to the pressure roller. The second conveyance device is provided for controllably conveying substrates to the first conveyance device. The distance measuring system is provided for measuring a space between the substrate on the first conveyance device and the sequential substrate on the second conveyance device, adjacent to the first substrate. | 09-25-2008 |