Abstract: An apparatus for mounting semiconductor chips as flip chips on a substrate includes a chip supply, a pick-and-place system with a bonding head having a chip gripper, a flipping apparatus operable to rotate the chip from a first position to a second (flipped) position through an angle with a gripper and two cameras. The first camera determines a position of the chip before the flipping apparatus receives the chip and also determines a position of the flipped chip received by the chip gripper of the bonding head once the flipping apparatus has transferred the chip to it. The apparatus also comprises an optical switch, e.g., a rotatable mirror located in the field of view of the first camera. The mirror operates to rotate with the gripper of the flipping apparatus but at half the angle.

Abstract: A method for fabricating an interlayer conducting structure of an embedded circuitry is disclosed. In accordance with the method for fabricating an interlayer conducting structure of an embedded circuitry of the present invention, there is no laser conformal mask formed prior to laminating the first and second lamination plates. Instead, after the first and second lamination plates are laminated, a laser boring process is directly conducted to form a via hole. In such a way, even when there is an offset between the first and the second lamination plates in alignment, the risk of short circuit between different layers of lamination plates can be lowered without improving an interlayer offset value.

Abstract: An apparatus to manufacture a semiconductor package is provided. A die attaching process and/or a wire bonding process for first and second surfaces of a lead frame are sequentially performed inside the apparatus. Thus, time required for a semiconductor packaging process decreases and yield is increased.

Abstract: An improved wafer-to-wafer bonding method includes aligning an upper and a lower wafer and initiating a bond at a single point by applying pressure to a single point of the upper wafer via the flow of pressurized gas through a port terminating at the single point. The bond-front propagates radially across the aligned oppositely oriented wafer surfaces at a set radial velocity rate bringing the two wafer surfaces into full atomic contact by controlling the gas pressure and/or controlling the velocity of the motion of the lower wafer up toward the upper wafer.

Abstract: A positioning apparatus for transferring at least one electronic component, in particular a chip, from a first flat support to at least one predetermined location on a second flat support which extends parallel to the first support, comprising an ejection device for removing the component from the first support by means of an ejection movement, wherein a camera device is provided for detecting position data of the predetermined location, of the component to be removed from the first support and optionally of the ejection device, which together with the camera device are arranged essentially on an imaginary common straight line. A positioning method is also described.

Abstract: A method by which the height of an electronic component sucked and held by a nozzle can be detected with high accuracy and high efficiency is a component height measurement method applied to a mounter (100) equipped with a transfer head (8) having a component-sucking-and-holding nozzle (21), for transferring a component P and mounting the component P onto a board (3), and includes: lowering the component P to within the high-accuracy range of a first line sensor (13) for measuring the height of the component P; and measuring the height of the component P using the first line sensor (13).

Abstract: The invention is directed to an electronic component mounting apparatus which is applicable to a case in which component feeding devices need not be provided on both sides of a carrying device respectively for reasons of types of electronic components or a setting space and increases an operating rate of a beam to enhance production efficiency. An electronic component mounting apparatus has a carrying device carrying a printed board, a component feeding device supplying electronic components, a pair of beams movable in one direction by drive sources, and mounting heads each having suction nozzles and movable along the beams by drive sources.

Abstract: An apparatus for recognizing and processing information of electronic parts includes a seating unit on which electronic parts are seated and aligned and a part information processing unit disposed adjacent to the seating unit. The part information processing unit is configured to align the electronic parts using the seating unit, recognize a recognition surface of the electronic parts, obtaining part information of the recognized surface, and store the obtained part information.

Abstract: A method for assembling an image capturing device is provided. The image capturing device includes a light-pervious module, an image sensor and a binding material. The image sensor has a light sensing region for converting an imaging light into an electronic signal. The binding material is used for binding articles together and curable by a curing process. Firstly, the light-pervious module and the image sensor together are releasably bound together via the binding material, thereby defining a close space for accommodating the image sensor. Then, a testing process is performed to detect a clean condition of the close space. If particles present in the close space are detected, the light-pervious module is detached from the image sensor, a cleaning process is done to remove the particle, and the light-pervious module and the image sensor are releasably bound together to define the close space again. Afterwards, the binding material is cured.

Abstract: A method for manufacturing a board with a built-in electronic element, includes providing a support substrate including a support base and a metal foil, forming a protective film made of a metal material on the metal foil of the support substrate, forming a conductive pattern made of a metal material on the protective film by an additive method, placing an electronic element on the support substrate with the conductive pattern such that a surface of the electronic element where a circuit is formed faces the conductive pattern, covering the electronic element with an insulative resin, etching away the metal foil using a first etching solution such that the protective film is not dissolved by the first etching solution or that the protective film has an etching speed which is slower than an etching speed of the metal foil, and electrically connecting terminals of the electronic element and a part of the conductive pattern.

Abstract: An electric parts mounting apparatus includes rotary type multi-nozzle mounting heads. Each of the mounting heads has a plurality of suction nozzles disposed in a radial manner on a rotor mechanism, which rotates around a rotation shaft. A parts mount mechanism is configured such that the axial direction of the rotation shaft coincides with an arrangement direction of tape feeders. A shaft-to-shaft distance of the suction nozzles is set to be plural times as large as a pitch of the feeder arrangement. In a pick up process, a plurality of electronic parts can be simultaneously picked up from the tape feeders. In a parts mounting process, while one of the mounting heads mounts the part, the other mounting head can complete a nozzle changeover operation such that the suction nozzle holding an electronic part to be mounted next is moved to an operation position.

Abstract: In a component mounter of so-called alternate mounting, a component mounting condition determining method of determining a component mounting condition that equalizes operating times of a plurality of mounting heads is used. The component mounting condition determining method includes determining a component mounting condition such as to approximately equalize the operating times of the mounting heads based on the distance that each mounting head moves between one of a plurality of component supply units that supply components to the mounting heads and the board.

Abstract: A panel is mounted on the stage while the one end electrode of the FPC (flexible board) is mounted on the mounting part of one surface of the panel and the other surface of the panel is facing upward. A mounting method includes bending the other end side of the flexible board, after holding the other end portion including the other end electrode, which is positionally adjusted based on the position recognition result of the mounting portion the press tool recognizing the position of the other end electrode, matching the positions of the mounting portion and the other end electrode by relative positional adjusting, and mounting the other end electrode on the mounting portion by temporarily pressing the other end electrode on the mounting portion.

Abstract: 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.

Abstract: In an electronic component placement method in which electronic components are picked up from a plurality of component supply sections which supply electronic components using a plurality of mounting heads which are provided corresponding to the respective component supply sections, and the electronic components are transferred and mounted on a substrate in a same placing stage, in performing the component transferring and mounting operations, head interference areas which constitute exclusive operating regions to which only the specified mounting heads are allowed to access are set for every placing turn. Due to such a constitution, in the component placement operation, it is possible to rationally set the accessible region without causing the interference of one mounting head with another mounting head thus shortening a placing tact time by excluding wasteful standby times of the mounting heads.

Abstract: An inspection tool includes a camera for obtaining images of a wafer and a controller configured for performing light source flat field correction, optical image warping correction, and optical image scale correction of the images. In operation, separate inspection tools are calibrated separately to obtain a characteristic response with respect to imaging and/or illumination for each such inspection tool. A standard target is then imaged by each inspection tool and the response of each of the inspection tools is normalized to ensure uniformity of the output of each inspection tool with respect to the other inspection tools.

Abstract: 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.

Abstract: A wired circuit board assembly sheet has a plurality of wired circuit boards, distinguishing marks for distinguishing defectiveness of the wired circuit boards, and a supporting sheet for supporting the plurality of wired circuit boards and the distinguishing marks. Each of the distinguishing marks has an indication portion for indicating a specified one of the wired circuit boards.

Abstract: Provided is a chip mounter for recognizing a Ball Grid Array (BGA) package through a chip mounter. The chip mounter includes a BGA package recognition apparatus which includes an image acquisition unit which acquires image information of a BGA package which includes a plurality of solder balls having n patterns (n?1), a pattern recognition unit which analyzes the image information and outputs information about the BGA package, and a storage unit which stores the information about the BGA package, wherein the pattern recognition unit recognizes the n patterns, selects n seeds respectively corresponding to the n patterns and performs a seed growing operation which groups solder balls which are continuously located adjacent to the seed and have the same pattern as the seed into the same group as the seed, with respect to each of the n seeds.

Abstract: The invention includes methods of utilizing removable mechanical precising mechanisms and/or optical-based precising mechanisms to align chips within sockets. The sockets can be configured so that compression of the sockets opens a clamping mechanism. A chip can be placed within a socket with a manipulator and aligned during compression of the socket. Subsequently, the compression of the socket can be released while the manipulator remains in contact with the chip to hold the chip in place until the clamping mechanism is retaining the chip in the socket. The chip can then be released from the manipulator. The invention also includes systems for utilizing removable nests to align various chip geometries within generic socket designs.

Abstract: A connecting structure of PCB using an anisotropic conductive film according to the present invention having members connected to each other by heat-compression using the anisotropic conductive film including an insulating adhesive as a base material and conductive particles dispersed in the insulating adhesive, wherein at least any one of the members has a flexible property, and a surface roughness value (Ra) of the member having a flexible property is 0.1 to 5.0 ?m due to dents formed by heat-compression.

Abstract: A vacuum bonding tool method for pick-and-place and bonding semiconductor chips onto a substrate or onto a previously mounted die to form a die stack includes a shank and a suction part. The shank has a vacuum conduit extending from a first end to a second end of the shank. The shank is adapted for cooperative engagement with the suction part at the second end, and the shank has a plate at the second end to support the suction part. The suction part has a surface for contacting a semiconductor chip during pick-and place operation. According to the invention, the suction part is made of an elastically deformable conductive or non-conductive material. In various embodiments, the chip contacting surface of the elastically deformable suction part flat overall, or is concave, of has a flat central region and concave regions.

Abstract: A method for component mounting which reduces the length of time that a component mounter called alternate mounting component mounter takes for mounting components is a method for component mounting used for a component mounter including plural mounting heads which alternately mount components onto a board. The method includes specifying, as a first mounting head, one of the plural mounting heads which moves a shortest distance to the board (S2), and mounting the components onto the board which is brought into the component mounter, the mounting starting from the first mounting head (S14).

Abstract: For determining the types of component holding members equipped to a plurality of holding-member equipping sections, a detection sensor having a detection optical axis in a direction intersecting with the arrayed direction of the respective holding-member equipping sections is used, and the respective holding-member equipping sections have a first detection position where interrupting of the detection optical axis is detectable only when a second component holding member is equipped and a second detection position where interrupting of the detection optical axis is detectable when the component holding member of any type is equipped. Consequently, by sequentially positioning the detection optical axis at the respective detection positions and detecting the presence of interrupting, the type of the equipped component holding member is determined only by the detection sensor.

Abstract: A connection device for an electric component 4 is constituted by two units 2 and 3, height position change means that changes the height position of one end 4a of the electric component 4 relative to the other end 4b is provided for a second unit 3, and the size and weight of a first unit 2 that connects the electric component 4 to a wiring board can be reduced. Therefore, the electric component 4 can be connected, under a low load, to a limited connection region of a wiring board.

Abstract: A method and apparatus is described for aligning a first article relative to a second article, for example for aligning a nanoimprint template with a semiconductor wafer. The method comprises the steps of: providing said second article with at least one flexible structure fixed relative thereto at least one point, providing a first article having at least one surface relief marking thereon, providing a detector for measuring an interaction of the flexible structure with the surface relief marking and generating detector signals relating to said interaction, identifying with the help of the detector signals the position of the flexible structure and thus of the second article with respect to the surface relief marking and generating relative movement between the first and second articles to achieve a desired alignment between the first and second articles defined by the surface relief marking. In this method and apparatus the flexible structure is brought into contact with the surface relief marking.

Abstract: A fabrication method of a package structure includes: preparing a metal plate having first and second surfaces and defined with an active region; forming a wiring layer with conductive traces and first electrical contact pads on the first surface; forming third electrical contact pads corresponding to the first electrical contact pads on the second surface; forming a first encapsulant on the first surface; forming on the second surface an open area to penetrate the metal plate, wherein the metal plate form conductive posts between the first and third electrical contact pads; mounting in the open area a chip electrically connected to the wiring layer; forming a second encapsulant in the open area, the wiring layer and the third electrical contact pads; forming first and second openings in the first and second encapsulants to expose the third electrical contact pads, respectively; and cutting the metal plate to remove the metal layer.

Abstract: Positioning recognition marks are read by movable recognition device for positioning objects to be bonded to each other. An alignment method includes a step of reading the recognition marks during movement of the recognition device before its complete stop, and a step of identifying absolute positions of the recognition marks by correcting the mark recognition positions having been read based on a position feedback signal of the moving recognition device. A mounting method using the alignment method is also disclosed. It is possible to maintain a high alignment accuracy, eliminate necessity of assuring a settling time for complete stop of the movable recognition device, and significantly reduce the alignment time and mounting tact.

Abstract: A plurality of reference electronic components (M1, M2) marked in advance are identified and recognized, and the positions of the plurality of the reference electronic components (M1, M2) positioned in the vicinity of an electronic component to be taken out (2a) and component arrangement information in a wafer mapping file (MF) stored in a storage device (11f) are used to calculate the position of the electronic component to be taken out (2a).

Abstract: A challenge to be met by the present invention is to provide an electronic component mounting apparatus and an electronic component mounting method that enable a reduction in the frequency of operation required with switching of a component type, to thus enhance productivity.

Abstract: A circuit board component installation tool includes a tool head having a surface receptive of a press; a seating member connected to the tool head and receptive of at least one circuit board component; and a post attached to and extending from a side of the tool head to ensure proper orientation of the tool with respect to the circuit board component or proper orientation of the component with respect to the circuit board.

Abstract: A method is provided to manufacture a precise multi-pole magnetic component for using in magnetic encoders. A special layout of the circuit pattern is designed and formed on a printed circuit board (PCB). Alternate and regular magnetic field is induced according to Ampere's law after a current flowing through the circuit on the PCB. The multi-pole magnetic component with fine magnetic pole pitch is achieved by forming the high-density circuit patterns on a substrate using the PCB technology.

Abstract: The invention provides for a method of attaching printhead integrated circuitry to a carrier. The method includes scanning a wafer having a number of circuitry dies formed thereon to demarcate respective dies, aligning a die picker with a dice on the wafer according to a wafer substrate mapping scheme, and removing the dice from the wafer with the die picker. The method further includes the steps of transporting the dice to a placement station operatively positioning the carrier, aligning the dice with the carrier; and heat bonding the dice to the carrier.

Abstract: According to one embodiment, a connector for a composite structure includes at least one conducting element that is coupled to a node of an electrical circuit embedded in a composite structure. The composite structure has two opposing surfaces in which the conducting element is disposed essentially between the surfaces of the composite structure.

Abstract: A mounting apparatus includes a stage device on which an installation substrate and a component are placed, a suction head provided vertically above the stage device, the suction unit moving in a direction perpendicular to the stage device, a contact attached to the suction head that comes into contact with an electrode of the component, a camera provided vertically above the suction head, the camera moving in a direction perpendicular to the suction head, and a control unit that controls operation of the stage device, operation of the suction head, application of electricity to the contact, and operation of the camera.

Abstract: An apparatus for manufacturing a semiconductor device, includes: a collet; an alignment stage; and a sheet feeding mechanism. The collet is configured to suck a surface of a semiconductor chip. The surface is on opposite side of a bonding surface to be bonded to a bonding target. The bonding surface is provided with a film-like adhesive layer. The collet includes a heater for heating the adhesive layer. The alignment stage is configured to support the semiconductor chip and to correct position of the semiconductor chip. The sheet feeding mechanism is configured to feed a release sheet onto the alignment stage.

Abstract: An electronic component mounting apparatus includes a component feeding device that supplies an electronic component to a pickup position, a suction nozzle that picks up the electronic component supplied to the pickup position and mounts the picked up electronic component on a printed board, a height level detection device that measures height levels of the printed board positioned in a mounting position, a monitor graphically that displays a warping state of a sample printed board positioned in the mounting position based on height level measurements by the height level detection device on predetermined positions of the sample printed board, a setting device that sets measurement positions for actual mounting operations using the monitor, a converting device that converts the set measurement positions into coordinates on the printed board, and a memory that stores the converted coordinates of the set measurement position.

Abstract: The present invention provides a substrate holding method capable of contributing to improvement in performance of an electronic part. A plastic film is adhered to a holding frame by using an adhesive tape having a proper gas releasing characteristic such that total quantity of gas detected when analysis using gas chromatograph mass spectrometry (dynamic HS-GC-MS) is conducted under test conditions of 180° C. and 10 minutes is 100.5 ?g/g or less in n-tetradecane. In the case where the plastic film held by the holding frame is subjected to a process of manufacturing an electronic part (for example, a solar battery), even when a process accompanying generation of heat during the manufacturing process (for example, a film forming process such as plasma CVD) is performed on the plastic film, a release amount of unnecessary gas released from the adhesive tape due to the influence of the heat is suppressed, so that deterioration in the performance of the electronic part caused by the unnecessary gas is suppressed.

Abstract: In electronic component mounting for a plurality of individual substrates held on a carrier, solder position deviation data is calculated for each individual substrate based on a mark position recognition result on a carrier after solder printing, a solder position recognition result, and electrode position information indicating the position of an electrode on each individual substrate, an operation of calculating position correction data, which is used to correct the positional deviation to mount electronic components at proper positions, is performed for each individual substrate based on the calculated solder position deviation data and the calculated position correction data is feed-forwarded to an electronic component mounting apparatus, and an electronic component mounting operation of a component mounting mechanism is controlled based on the mark position recognition result and the position correction data.

Abstract: A component mounting system includes first to third (pickup, transfer, and placement) stations. A component supplied at a component supply is picked up by a transport head at the pickup station and then transferred to a placement head at the transfer station. The placement head carries the component to the placement station where the component is placed and mounted onto a substrate such as a circuit board. The component, when held by the placement head, is recognized by an imaging device at or in the vicinity of the transfer station.

Abstract: The present invention provides a printed circuit board that can suppress the positional displacement of parts mounted thereon. The printed circuit board includes resist formed on the surface of the printed circuit board, lands for receiving respective parts to be mounted, the lands being arranged off openings free from the resist, and lands for alignment, respectively alignment marks being formed on the land for alignment by means of solder.

Abstract: The apparatus for transferring the semiconductor chip includes: a holder member including a first vacuum hole connected to a vacuum line; a plate member including at least one second vacuum hole corresponding to the first vacuum hole and redistributed to edges of the plate member, the plate member combined with the holder member; and an absorption member including at least one third vacuum hole corresponding to the second vacuum hole and a groove connected to the third vacuum hole, the absorption member combined with the plate member and the holder member.

Abstract: A component-embedded board fabrication method includes detecting, before the board is covered with a first insulating layer, the actual position of a first electronic component formed on a surface of the board, calculating a displacement between the design position of the first electronic component on the surface of the board and holding the displacement as first displacement data, and correcting, based on the first displacement data, design data to be used for processing the board after the board is covered with the first insulating layer.

Abstract: An ablation probe and method of manufacturing the ablation probe are provided. The probe comprises a probe shaft and a unibody electrode element. The unibody electrode element comprises a common electrode base located at the distal end of the shaft, and a plurality of electrode tines distally extending from the electrode base. The electrode element may be created by forming divisions (such as slits or slots) from a first end of an electrically conductive elongate member towards an opposing second end of the elongate member. Alternatively, the divisions can be formed from a first end of an electrically conductive sheet towards an opposing second end of the sheet, and then bent or rolled to form the elongate member. In either case, the common electrode base can either be separately mounted to a probe shaft, or the probe shaft can be formed from the elongate member, in which case, the electrode base will be integrated with the probe shaft as a unibody structure. The electrode tines can be optionally shaped, e.g.

Abstract: A method of self-assembly of components on a surface of a substrate includes obtaining a first component and a second component. The first component type is assembled onto the substrate by programming the surface. The second component type is assembled by reprogramming the surface. A third component, next to the first and second components, is assembled following the step of assembling the first and second components. The first, second, and third components are all different types of components. docking sites on the substrate can be used that contain alignment pedestals. One component delivery system employ a liquid-liquid interface to deliver and concentrate components with correct pre-orientation.

Abstract: A method of manufacturing a multilayer wiring structure is disclosed. The method comprises a step of forming a via post on a first metal wiring element, a step of printing an interlayer insulation film on the first metal wiring element, with use of a screen mask having a non-ejection area slightly larger than a head of the via post, such that the interlayer insulation film has an upper surface at the level lower than the head of the via post, while generally aligning the non-ejection area with the head of the via post, a step of curing the interlayer insulation film, and a step of forming a second metal wiring element in contact with the via post on the interlayer insulation film such that the first metal wiring element and the second metal wiring element are connected through the via post.

Abstract: In a method of partially attaching an additional attaching material for various types of printed circuit boards, the method attaches an additional attaching material partially onto circuit blocks after circuits of the circuit blocks are made on a flexible, rigid or mixed printed circuit board or an insulating layer is coated. The method sets an attaching material on a shaping material that covers the circuit blocks, uses a depth control tool to cut away areas not corresponding to those requiring to be attached onto the necessary circuit blocks, aligns the corresponding positions of the circuit blocks to perform pseudo attachment and pressing, and tears away the shaping material from the attaching material, so as to attach additional attaching materials properly onto the predetermined positions of the circuit blocks without requiring to attach the circuit blocks one by one, and achieve the effect of saving manufacturing time and avoiding misalignment.

Abstract: A method for detecting a condition of a nozzle member of a multi-nozzle type component mounting head, in which it is determined that a nozzle is pressed against a load cell when the difference between a measured vertical position of the nozzle and a reference positional information of the nozzle is equal to or greater than a determined value and the measured vertical position of the nozzle is at a lower level position than the reference positional information, and when it is determined that the nozzle is pressed against the load cell, measuring the output value of the load cell.

Abstract: A component mounting apparatus has a stage 41 with a fixed height position for holding a substrate 5, and a mounting head 48 that releasably holds a component 2, is moved downward toward the stage 41 from a first reference height position HB1 fixedly positioned above the stage 41, and mounts the held component 2 on the substrate 5 or an already mounted component 2. A controller 14 has a mounting reference height calculation unit 103 for calculating a mounting reference height Hn corresponding to a distance from the first reference height position HB1, and a first target movement height calculation unit 104 for calculating a first target movement height ZTAGn based on at least the mounting reference height Hn and a thickness PTn of the component 2 held by the mounting head 48.

Abstract: An offset measuring mechanism and method used in a bonding apparatus, in which the object plane of a position detection camera is set on a hypothetical bonding working plane, and the image of imaging elements within the imaging plane is projected onto a bonding working plane. Furthermore, the tip end of a bonding tool is aligned with the bonding working plane. The object plane of the offset measuring camera is set on the bonding working plane, and the image on the bonding working plane is projected onto the imaging elements of the imaging plane of the offset measuring camera. The imaging elements detect the projected image of the imaging elements of the position detection camera or the image of the tip end of the bonding tool and output this data to the image position measuring part or tool position measuring section of the control block.