Abstract: This invention provides a solder ball loading apparatus which enables fine solder balls to be loaded on pads while void is blocked from being caught into bump upon reflow. Inactive gas is supplied and the inactive gas is sucked from a loading cylinder located above a ball arrangement mask so as to gather solder balls. The gathered solder balls are rolled on the ball arrangement mask by moving the loading cylinder horizontally and the solder balls are dropped onto connecting pads on a multilayer printed wiring board through openings in the ball arrangement mask. Oxidation of the solder balls and mixture of voids upon reflow are prevented by loading the solder balls in the atmosphere of inactive gas.

Abstract: Disclosed are probe card needles manufactured using microfabrication technology, a method for manufacturing the probe card needles, and a probe card having the probe card needles. The probe needles are manufactured by forming, on a ceramic board, probe needle bases made of conductive metal, and a polymeric elastomer layer, by using photolithography and a photoresist, and continuously depositing conductive metal layers on the probe needle bases in such a manner as to be supported by the polymeric elastomer layer. The probe card comprises: a printed circuit board (PCB) which is connected to a test head for transmitting an electrical signal from a tester; a ceramic board located below the PCB and electrically connected to the PCB by a plurality of interface pins; a jig for mechanically holding the interface pins and the multilayer ceramic board to the PCB; and a plurality of probe needles attached to the lower surface of the multilayer ceramic board and making contact with electrical/electronic devices.

Abstract: According to one embodiment, a flexible optoelectronic interconnection module according to one embodiment includes a flexible electrical wiring board including an electrical wire and first electrical connection terminal, and a flexible optoelectronic interconnection board including an optical interconnection path, electrical wire, and second electrical connection terminal and mounted on a partial region of the flexible electrical wiring board. On the flexible optoelectronic interconnection board, an optical semiconductor element electrically connected to the electrical wire of the interconnection board and optically coupled with the optical interconnection path is mounted. The first and second electrical connection terminals are electrically connected by a conductive connecting member.

Abstract: LGA connectors are fabricated with buttons or spring contacts preformed to different heights to accommodate the initial topography of a typical module or PCB of a particular product type. This is accomplished during fabrication by measuring topographies of mating surfaces of a first electronic device and of a second electronic device; fabricating interposer contacts to form opposing non-planar sides having respective inverse topographies for contacting the mating surfaces; and sandwiching the interposer between the first and second electronic devices with the opposing sides in contact with respective mating surfaces.

Abstract: Provided is a probe card and method of fabricating the same. This method comprises forming soldering bumpers electrically connected to conductive patterns on a substrate, forming probes connected to the conductive patterns and supported by the soldering bumpers, and then melting the soldering bumpers to fixing the probes to the substrate. Forming the soldering bumpers includes a step of forming the soldering bumpers in the same pattern and size by means of a photolithography process.

Abstract: A distributor arrangement for electrical lines, having a housing and a multiplicity of sockets, situated on the housing and each having a contact carrier that has two or more electrical contact elements and an angle encoding feature for inserting plugs in an orientation determined by the angular position of the encoding elements. The distributor arrangement also has a motherboard arranged in the housing and having printed conductors to which the electrical contact elements are connected in an electrically conductive manner by an electrical connecting element. An electrical connecting member, in the form of a connecting board, is associated with the motherboard in one of a multiplicity of preselectable angular positions by the electrical connecting elements located at different radial distances from a center, each connecting element being connected in an electrically conductive manner to one of a plurality of contact sites situated on a circular arc about the center.

Abstract: A system to improve core package connections may include ball grid array pads, and a ball grid array. The system may also include connection members of the ball grid array conductively connected to respective ball grid array pads. The system may further include magnetic underfill positioned adjacent at least some of the connection members and respective ball grid array pads to increase respective connection members' inductance.

Abstract: A DIMM riser card that includes a PCB having a first edge, a second edge, and one or more faces. The first edge of the PCB is configured for insertion into a main board DIMM socket. The first edge includes electrical traces that electrically couple to a memory bus. The DIMM riser card includes an angled DIMM socket mounted on one face of the PCB, where the angled DIMM socket is configured to accept a DIMM at an angle not perpendicular to the PCB and electrically couple the DIMM to the memory bus. The DIMM riser card includes a straddle mount DIMM socket mounted on the second edge of the PCB. The straddle mount DIMM socket is configured to accept a DIMM and electrically couple the DIMM to the memory bus through the electrical traces on the first edge of the PCB.

Abstract: In a package for a semiconductor device, a core substrate has two metal plates, each of which includes a first through hole, a second through hole, a projection, and an insulating layer formed on its surface. The metal plates are stacked in a manner that the projections of the mutual metal plates enter the second through hole of the metal plate on a partner side, and the first through holes of the metal plates form a through hole penetrating the core substrate. A tip end of each of the projections of the metal plates is exposed to a surface of the metal plate on the partner side to form a first terminal portion, and a second terminal portion is exposed from the insulating layer and formed on a surface of the metal plate on a side where the first terminal portion of the metal plate on the partner side is exposed.

Abstract: A resonant cavity with tunable nanowire. The resonant cavity includes a substrate. The substrate is coupleable to an optical resonator structure. The resonant cavity also includes a plurality of nanowires formed on the substrate. The plurality of nanowires is actuated in response to an application of energy.

Abstract: A printed circuit board and method of making a print circuit board having one or more holes that are controllably drilled to extend into the printed circuit board substrate to a predetermined depth intermediate first and second faces. A mechanical locating pin is received into each of the one or more holes to mechanically align a first component for electronically interfacing with the printed circuit board substrate. A second component is installed on the second face directly opposite of the one or more holes such that the second component is in electronic communication with conductive traces or interconnects formed on the second face directly opposite of the hole.

Abstract: An electrical connector adapted to receive a mating plug utilizes low-profile jack terminal contacts that can flex in their PCB-anchored base portions, which are substantially parallel to the PCB. Any bend in the distal connecting portion or in the intermediate transition portion of each terminal contact is gradual and forms an obtuse angle, thus minimizing stress concentrations. The contacts preferably are arranged in two oppositely facing and interdigitating rows of four contacts each. In one embodiment, the terminal contacts are anchored to the PCB by a contact cradle that constrains the base portion of each terminal contact at two spaced anchoring locations, allowing the base portion to flex therebetween. In another embodiment, the base portions of the terminal contacts are embedded in at least one elastomeric member, which is fitted to the PCB.

Abstract: A heat conduction board, include a heat dissipation member; a heat conduction member which is arranged on the heat dissipation member and conducts a heat thereto; a lead frame which is formed in a wire pattern shape, and is arranged on the heat conduction member; and a printed circuit board which mounts a second electronic component for controlling a first electronic component; wherein the first electronic component and the printed circuit board are soldered to the lead frame.

Abstract: A portable memory card including a molded plastic casing formed over a memory device and other circuits mounted on a substrate such that the molding material extends over side edges of the substrate to provide accurate width and thickness dimensions. Contact pads are formed on a lower surface of the PCBA substrate, which is exposed through a bottom of the casing. The PCBA is fabricated on a substrate carrier, then positioned inside of a mold assembly. During the molding process, a rod extends from an upper portion of the mold assembly and pushes the substrate against the lower surface. A vacuum is then applied to hold the substrate against the lower surface of the mold, and the rod is subsequently withdrawn from the mold cavity during injection of the molten molding material. A single cavity mold assembly provides molding material extends over front and back edges of the memory card.

Abstract: A cable assembly (100 comprises an insulative housing (1) having a recess (12) formed on a rear surface thereof; a plurality of contacts (2) disposed in the insulative housing; a printed circuit board (3) having a front portion received into the recess and electrically connected with the plurality of contacts, the printed circuit board having a first PCB and a second PCB stacked together in a manner of back to back; a shielding member (5) enclosing the housing and the printed circuit board; and a cable (4) having a plurality of conductive wires (41) extending into the shielding member and electrically connected to a rear portion of the printed circuit board.

Abstract: The Med-ic™ Electronic Compliance Monitor (ECM) addresses the problem of patient non-compliance with prescribed medication. The Med-ic™ ECM provides precise information about the patient's use of blister-packaged medication in clinical research and general pharmacy settings. Using an on-board central processing unit (CPU), the Med-ic™ ECM records the time each tablet or capsule is expelled from the blister package, keeping a record for later analysis. At the time of refilling or follow-up visit, the information is downloaded to the research assistant's, physician's or pharmacist's computer where it can be displayed graphically. The data can be stored for later analysis. Production of a Med-ic™ ECM Tag involves numerous steps. These steps incorporate certain methods and technologies to accomplish their objective, the steps being detailed in the specification.

Abstract: A lead pin includes a shaft portion, a connection head portion provided to a top end side of the shaft portion, and having a diameter which is larger than a diameter of the shaft portion, wherein the connection head portion includes a bonding surface on an opposite side to the shaft portion side, and the bonding surface includes a flat surface provided in a center part, a convex surface which is provided like a ring shape to an outside of the flat surface and rounded by a radius R like a convex shape, and a concave surface which is provided like a ring shape to an outside of the convex surface and rounded by a radius R like a concave shape.

Abstract: An electrical connector arrangement includes a storage device coupled to a connector housing. The storage device is configured to store physical layer information pertaining to the electrical connector arrangement. The storage device also has contacts that enable the physical layer information to be read from the storage device by a media reading interface. A connector assembly includes at least one receptacle assembly; a printed circuit board; and a media reading interface.

Abstract: A method for fabricating thin DITO or SITO touch sensor panels with a thickness less than a minimum thickness tolerance of existing manufacturing equipment. In one embodiment, a sandwich of two thin glass sheets is formed such that the combined thickness of the glass sheets does not drop below the minimum thickness tolerance of existing manufacturing equipment when thin film process is performed on the surfaces of the sandwich during fabrication. The sandwich may eventually be separated to form two thin SITO/DITO panels. In another embodiment, the fabrication process involves laminating two patterned thick substrates, each having at least the minimum thickness tolerance of existing manufacturing equipment. One or both of the sides of the laminated substrates are then thinned so that when the substrates are separated, each is a thin DITO/SITO panel having a thickness less than the minimum thickness tolerance of existing manufacturing equipment.

Abstract: A method for forming an electrical structure. The electrical structure comprises an interconnect structure and a substrate. The substrate comprises an electrically conductive pad and a plurality of wire traces electrically connected to the electrically conductive pad. The electrically conductive pad is electrically and mechanically connected to the interconnect structure. The plurality of wire traces comprises a first wire trace, a second wire trace, a third wire trace, and a fourth wire trace. The first wire trace and second wire trace are each electrically connected to a first side of the electrically conductive pad. The third wire trace is electrically connected to a second side of the electrically conductive pad. The fourth wire trace is electrically connected to a third side of said first electrically conductive pad. The plurality of wire traces are configured to distribute a current.

Abstract: A manufacturing method for an ultrasonic probe including the steps of forming a plurality of unit fixing plates. Laminating each unit fixing plates to one another to form a fixing base and inserting lead wires into grooves formed in the fixing base. Partially cutting away and smoothing both principal surfaces of the fixing base to expose lead wires. Fixing a piezoelectric plate to one principal surface of the fixing base and cutting out between the lead wires in a one dimension direction and a two dimension direction, to divide up said piezoelectric plate and the fixing base into a plurality of piezoelectric elements.

Abstract: A system and method for installing a peripheral device on a printed circuit board (PCB) is provided. In the system and method, the PCB has a board connector portion and the peripheral device has a device connector portion. The method includes providing a connector adapter housing enclosing a first mating portion configured for mating with the board connector portion and a second mating portion configured for mating with the device connector portion. The method also includes engaging the second mating portion with the device connector portion to position the first mating portion to extend substantially perpendicular to the surface of the PCB. The method further includes depositing the peripheral on the PCB using a motion substantially perpendicular to the surface of the PCB, the motion engaging the board connector portion and the first mating portion.

Abstract: Housing for medical implant, such as cardiac pacemaker, defibrillator, cardioverter, etc. Housing including hollow housing and terminal body attached to hollow housing, which has electrical terminal(s), situated in an externally accessible cavity of the terminal body, for connecting an electrode line, and terminal body including a base body made of electrically insulating plastic, connected to hollow housing and carries electrical supply lines and electrical contacts, which are electrically connected thereto, for the electrical terminal so that the contacts are connected via the electrical supply lines to electrical components in the interior of the hollow housing, electrical supply lines being welded to the electrical contacts and the electrical supply lines and electrical contacts, which are welded to one another, being embedded in the base body and thus fixed in their final position, and the base body being glued to the hollow housing using an adhesive between hollow housing and terminal body.

Abstract: A method and structure for creating embedded metal features includes embedded trace substrates wherein bias and signal traces are embedded in a first surface of the embedded trace substrate and extend into the body of the embedded trace substrate. The bias trace and signal trace trenches are formed into the substrate body using LASER ablation, or other ablation, techniques. Using ablation techniques to form the bias and signal trace trenches allows for extremely accurate control of the depth, width, shape, and horizontal displacement of the bias and signal trace trenches. As a result, the distance between the bias traces and the signal traces eventually formed in the trenches, and therefore the electrical properties, such as impedance and noise shielding, provided by the bias traces, can be very accurately controlled.

Abstract: An electrical enclosure that includes a sidewall, a back and a top, defining an interior. The top of the enclosure is adapted to open and provide access to the interior. The enclosure includes a backplane mounted to the interior of the enclosure. The backplane has at least one cutout where the cutout is positioned on the backplane to align with an obstacle positioned on the enclosure sidewall and extending into the enclosure interior.

Abstract: An camera module includes a holder defined a space, a barrel positioned in the space of the holder, a first pillar extended from an outer surface of the barrel, a first spring connected adjacent ends of the barrel and the holder such that the barrel is hung in the holder, and a first piezoelectric actuator. The first piezoelectric actuator is fixed on an internal surface of the holder and capable of deforming along a central axis of the holder. The first piezoelectric actuator is coupled with the first pillar so as to move the barrel along the central axis of the holder.

Abstract: A method for connecting substrates having electrical conductive elements thereon, comprising: providing at least one spacer between the substrates; applying a conductive material to at least one of the electrical conductive elements; aligning the electrical conductive elements; and, connecting the substrates by urging them together, wherein the at least one spacer prevents lateral spreading of the conductive material on the substrates from bridging a distance between adjacent conductive elements during the connecting.

Abstract: In a method for forming bumps 19 on electrodes 32 of a wiring board 31, a fluid 14 containing conductive particles 16 and a gas bubble generating agent is supplied onto a first region 17 including the electrodes 32 on the wiring board 31. Then, a substrate 40 which has a protruding surface 13 having the same area as that of the first region 17 and formed on a main surface 18 of the substrate 40 having a larger area than that of the first region 17 is disposed so that the protruding surface 13 faces the first region 17 of the wiring board 31. Then, the fluid 14 is heated to generate gas bubbles 30 from the gas bubble generating agent contained in the fluid 14.

Abstract: An apparatus and method for crosstalk compensation in a jack of a modular communications connector includes a flexible printed circuit board connected to jack contacts and to connections to a network cable. The flexible printed circuit board includes conductive traces arranged as one or more couplings to provide crosstalk compensation.

Abstract: A method for manufacturing an interposer including a body and a plurality of probes connected to said body is disclosed. The method includes a step of manufacturing said body including the sub-steps of preparing a first substrate having one surface side and the other surface side and being capable of being processed by dry etching, forming a plurality of through holes in said first substrate by dry etching, and making said through holes into conductive holes capable of conducting electricity through a bottom-up fill process. The method also includes a step of manufacturing said plurality of probes and connecting the ends of said plurality of conductive holes on one surface side of said first substrate and a plurality of first probes on said second substrate.

Abstract: A method for manufacturing an integrated circuit device having antenna conductors is provided. The method includes the steps of providing a wafer with a plurality of integrated circuit components; forming a first antenna conductor on the surface of each integrated circuit component; forming a plurality of metal bumps above the first antenna conductor; coating an insulating layer to encapsulate the plurality of integrated circuit components and to cover the plurality of metal bumps; removing a portion of the insulating layer to expose a top portion of each metal bump; and forming a second antenna conductor on the insulating layer by screen printing.

Abstract: The formation of electronic assemblies is described. One embodiment includes providing a body and forming a first metal pad layer on a first surface thereof. A second metal pad layer is formed in contact with the first metal pad layer, the second metal pad layer having a denser pitch than the first metal pad layer. A dielectric layer is formed between the metal pads in the first and second metal pad layers. Vias extending through the body from a second surface thereof are formed, the vias exposing the first metal pad layer. An insulating layer is formed on via sidewalls and on the second surface, and an electrically conductive layer formed on the insulating layer and on the exposed surface of the first metal layer. Elements are coupled to the second metal pad layer and the electrically conductive layer coupled to a substrate. Other embodiments are described and claimed.

Abstract: Resilient spring contacts for use in wafer test probing are provided that can be manufactured with a very fine pitch spacing and precisely located on a support substrate. The resilient contact structures are adapted for wire bonding to an electrical circuit on a space transformer substrate. The support substrates with attached spring contacts can be manufactured together in large numbers and diced up and tested before attachment to a space transformer substrate to improve yield. The resilient spring contacts are manufactured using photolithographic techniques to form the contacts on a release layer, before the spring contacts are epoxied to the support substrate and the release layer removed. The support substrate can be transparent to allow alignment of the contacts and testing of optical components beneath. The support substrate can include a ground plane provided beneath the spring contacts for improved impedance matching.

Abstract: A medical electrical lead includes a lead body and a connector terminal. A conductor extends from the lead body to the connector terminal along a helical path through a transition zone.

Abstract: A method of manufacturing a flexible circuit electrode array that provides excellent adhesion between the polymer base layer and the polymer top layer and insulation of the trace metals and electrodes. A layer of polymer is laid down. A layer of metal is applied to the polymer and patterned to create electrodes and leads for those electrodes. A second layer of polymer is applied over the metal layer and patterned to leave openings for the electrodes, or openings are created later by means such as laser ablation. Hence the array and its supply cable are formed of a single body. Alternatively, multiple alternating layers of metal and polymer may be applied to obtain more metal traces within a given width.

Abstract: Articles and methods of manufacture are provided for using laser energy in an automated bonding machine to effect laser welding of ribbons to electronic components, particularly conductive ribbons comprising titanium for microelectronic circuits. Bonding and connection of microelectronic circuits with discrete heating avoids heat damage to peripheral microelectronic components. Bonding of flexible materials and low-resistance materials are possible, and are less dependant on substrate and terminal stability in comparison to other bonding methods. The ribbon-connections can forgo the use of blocks, bond pads, and bond pad arrays for attaching ribbon to a printed wiring board. Profile height of the ribbon-connection is decreased and the density of ribbons and bonding sites can be increased compared to ribbon-connections employing bonding pads.

Abstract: Methods and associated structures of forming a microelectronic device are described. Those methods may include amorphizing at least one contact area of a source/drain region of a transistor structure by implanting through at least one contact opening, forming a first layer of metal on the at least one contact area, forming a second layer of metal on the first layer of metal, selectively etching a portion of the second metal layer, annealing the at least one contact area to form at least one silicide, and removing the unreacted first metal layer and second metal layer from the transistor structure and forming a conductive material in the at least one contact opening.

Abstract: A method of producing a busbar structure includes a busbar arranging step for arranging a plurality of the busbars at predetermined positions in a cavity which is formed between a fixed mold and a movable mold which can be clamped and opened with respect to the fixed mold, and clamping the two molds, a resin filling step for filling molten resin into the cavity in which the busbars have been arranged, and a busbar fixing step for hardening the molten resin which has been filled thereby to fix the busbars at predetermined positions with the hardened resin, and opening the two molds. Interposed pins to be interposed between the busbars which are arranged in close proximity to each other are detachably disposed in an engaged part of the movable mold, and removed from a molded product when the two molds are opened.

Abstract: A method of manufacturing a printed wiring board including preparing a high-dielectric capacitor sheet including a ceramic high-dielectric layer sandwiched by upper and lower electrode sheets, attaching the high-dielectric capacitor sheet to a first insulating layer, forming through holes for the upper and lower electrode sheets such that the through holes penetrate through the ceramic high-dielectric layer and upper and lower electrode sheets, forming a second insulating layer which fills the through holes and covers an upper surface of the high-dielectric capacitor sheet, forming an upper electrode connecting first hole, an upper electrode connecting second hole and a lower electrode connecting hole, filling the upper holes with conductive material such that the upper electrode connecting first hole and the upper electrode connecting second hole are connected to form an upper electrode connection portion, and filling the lower electrode connecting hole with conductive material to form a lower electrode conn

Abstract: The present invention is directed to a probe head having a probe contactor substrate with at least one slot that passes through the probe contactor substrate, at least one probe contactor adapted to test a device under test, with the probe contactor being coupled to the a top side of the probe contactor substrate and electrically connected to a terminal also disposed on top of the probe contactor substrate, and a space transformer having at least one bond pad coupled to a top side of the space transformer, and a bond interconnect which electrically couples the bond pad to the terminal through the slot in the probe contactor substrate.

Abstract: A device for fitting printed circuit boards (5) with contact pins (7), comprising at least one insertion device (1) for inserting at least one contact pin (7) into a printed circuit board (5), at least one measuring device (3) for measuring the angle of insertion (?) between the at least one inserted contact pin (7) and the printed circuit board (5), wherein the measuring device (3) comprises a sensor assembly (9) having at least two sensors (11) arranged at different heights above the printed circuit board (5) in such a way that the contact pins (7) can be detected by the sensors (11). At least one of the sensor assemblies (9) and the printed circuit board (5) are capable of being displaced in a plane parallel to the printed circuit board (5).

Abstract: A probe card assembly comprises multiple probe substrates attached to a mounting assembly. Each probe substrate includes a set of probes, and together, the sets of probes on each probe substrate compose an array of probes for contacting a device to be tested. Adjustment mechanisms are configured to impart forces to each probe substrate to move individually each substrate with respect to the mounting assembly. The adjustment mechanisms may translate each probe substrate in an “x,” “y,” and/or “z” direction and may further rotate each probe substrate about any one or more of the forgoing directions. The adjustment mechanisms may further change a shape of one or more of the probe substrates. The probes can thus be aligned and/or planarized with respect to contacts on the device to be tested.

Abstract: The method for manufacturing an electronic parts module includes an adhesive layer forming process forming an adhesive layer including solder particles on the circuit forming surface in range covering at least the first land part and the second land part; a passive element mounting process positioning a terminal of the passive element on the first land part and sticking the passive element to the base wiring layer through the adhesive layer; an active element mounting process, after the passive element mounting process, positioning a terminal of the active element on the second land part and sticking the active element to the base wiring layer through the adhesive layer; a pressing process solidifying the adhesive layer and melting the solder particles by laminating and thermally pressing a thermosetting sheet onto the circuit forming surface so as to form the resin sealing layer.

Abstract: The manufacturing method for an electronic parts module includes forming an adhesive layer including solder particles on the circuit forming surface in range covering at least the first and the second land parts, positioning a terminal of the active element on the second land part, sticking the active element to the base wiring layer through the adhesive layer by heating and pressing the active element onto the base wiring layer with a thermally pressing tool, and releasing the heating and pressing with the thermally pressing tool while the adhesive layer is semi-solidified, thereafter positioning a terminal of the passive element on the first land part and sticking the passive element to the base wiring layer through the adhesive layer, and solidifying the adhesive layer and melting the solder particles by laminating and thermally pressing a thermosetting sheet onto the circuit forming surface to form the resin sealing layer.

Abstract: A method of fabricating a paste bump for a printed circuit board, provides preparing a base plate; printing a conductive paste on the base plate and drying the conductive paste on the base plate, thus forming a first paste bump; flattening an upper surface of the first paste bump through coining; and printing a conductive paste on the first paste bump and drying the conductive paste on the first bump, thus forming a second paste bump, wherein the printing a conductive paste on the base plate and drying the conductive paste on the base plate includes placing a first mask having a hole having a first size on the base plate; applying a conductive paste on the first mask, and pressing the conductive paste using a squeegee; filling the hole having a first size in the first mask with the conductive paste, and sticking a bottom of the conductive paste to the base plate; and removing the first mask and drying the conductive paste, thus forming the first paste bump.

Abstract: In an optical transceiver module, the bottom surface of the lid is temporarily attached to the top surface of the submount assembly in a pre-alignment position prior to performing the solder flowing process in order to prevent the lid from shifting position during the solder flowing process. The solder flowing process is then performed to melt the solder. When the solder melts, the surface tension of the melted solder pulls the lid into its ultimate, or permanent, aligned position. The solder is then cooled, causing it to harden, thereby securing the lid to the submount assembly in its ultimate, permanently aligned position. The hardened solder between the top surface of the submount assembly and the bottom surface of the lid forms a hermetic seal that encloses components on the transmit side of the transceiver module in a hermetically-sealed environment.

Abstract: An assembly, in particular for interfacing an embedded element, in particular a waveguide, at the surface of a substrate, such as a composite panel which forms part of a vehicle, typically an aircraft, to an external module, consolidation tooling for mounting an assembly to a substrate, and a method of mounting an assembly to a substrate.

Abstract: Exemplary embodiments provide interconnects and methods for interconnecting an electrical device array with a flexible circuit by filling a chemically-etched or laser-ablated integral stencil with conductive materials

Abstract: A capacitor capable of being incorporated into a packaging substrate, which capacitor includes a high-dielectric-constant layer, and an upper electrode layer and a lower electrode layer sandwiching the high-dielectric-constant layer from the upper side and the lower side. A packaging substrate containing the capacitor, and a method for producing the same are also provided.

Abstract: A capacitor device includes a capacitor Q constituted by a lower electrode (12) formed on a substrate (10), a dielectric film (14), and an upper electrode (16); an insulating film (18) covering the capacitor Q; a first contact hole (18a) formed in the insulating film (18) on a connection portion (16a) of the upper electrode (16); an electrode pad (20) for preventing a diffusion of solder, formed in the first contact hole (18a); and a solder bump (22) electrically connected to the electrode pad (20), and the upper electrode (16) has a protrusion portion (16a) protruding from the dielectric film (14), and is connected to the first contact hole (18a) on the protrusion portion (16a).