| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 174117000 | Assemblies of noncircular section | 73 |
| 20100006321 | VIDEO/AUDIO SIGNAL TRANSMISSION CABLE - The present invention disclose a video/audio signal transmission cable comprising a first and a second conducting wires respectively having conductor and insulator, and the first and second conducting wires are neighborly installed, wherein each conductor has a core being made of steel material and being electroplated with a high conductive metal plating layer on the outside surface thereof; a first enclosing layer being made of insulation material is used to enclose the outsides of the first and second conducting wires; and a second enclosing layer being made of insulation material is used to enclose the outside of the first enclosing layer. It is then through the material characteristics of the core and high conducting metal plating layer to have the signal equalization effect during high frequency and low frequency transmissions thereby achieving the better quality and stable transmission effect. | 01-14-2010 |
| 20120273252 | Bus Bar Assembly and Method of Manufacturing Same - A bus bar assembly includes a first main conductor, a second main conductor, and an insulator member provided between the main conductors. The insulator member includes: (i) an insulator component, (ii) a first conductor layer provided on the top surface of the insulator component, and (iii) a second conductor layer provided on the bottom surface of the insulator component, wherein the first conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least a certain distance from the outer edge around the perimeter of the insulator component, wherein the second conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least the same certain distance from the outer edge of the insulator component, and wherein the certain distance is sufficient to cause the bus bar assembly to satisfy the creepage requirement of the assembly. | 11-01-2012 |
| 20120279754 | CONTINUOUSLY TRANSPOSED CONDUCTOR - The present invention relates to a Continuously Transposed Conductor ( | 11-08-2012 |
| 20130199819 | METHOD FOR PRODUCTION OF AN ELECTRICAL WINDING, AND ELECTRICAL CONDUCTOR - A method is specified for production of an electrical winding for an electrical appliance, in which the winding is embedded in a liquid which is used for cooling, A conductor is first of all produced, in which a multiplicity of insulated electrical individual conductors having a rectangular cross section are arranged in at least one stack, with their flat faces resting on one another. Winding material composed of insulating material is wound around the stack in order to produce common insulation, and the conductor is then shaped to form a single-part winding. A winding material in the form of ribbon or strip and composed of a plastic with impressed shape memory is used for winding around, and has a greater length than its original length, with this greater length being produced by stretching. The finishing winding is heated to a temperature at which the winding material becomes shorter in the winding direction. | 08-08-2013 |
| 20130233591 | ELECTRIC WIRE HOLDING STRUCTURE AND ELECTRIC WIRE HOLDING METHOD - An electric wire holding structure includes a plurality of electric wires each including a conductive part provided with a plurality of core wires and an insulating part covering the conductive part. The conductive part includes a rectangular conductive part which is formed at an end of the conductive part to have a rectangular outer shape in a section perpendicular to an extending direction of the electric wires. The rectangular conductive parts of the respective electric wires are bonded together by welding with ultrasonic vibration. The rectangular conductive parts of a plurality of the electric wires are piled in a brick laying manner to be bonded by welding. | 09-12-2013 |
| 20130333918 | WIRE CONSTRUCTS - A method for forming a wire construct includes forming a groove in a polymer having a mouth that is narrower than a width of a deeper portion of the groove and placing a substantial length of wire in the groove, the wire having a larger cross-sectional dimension than the mouth of the groove. Encapsulant is placed over the polymer. The wire construct is to be used for implantable stimulation leads, such as a cochlear stimulation lead or a neurostimulation lead. Two wire constructs can be assembled to form a multilayer wire construct. | 12-19-2013 |
| 20140262431 | MULTI-CABLE BREAKOUT ASSEMBLY - A multi-cable breakout assembly includes: a plurality of cables arranged in a rectangular array of M rows×N columns, wherein M and N are positive whole numbers greater than one; a first sleeve that encircles the plurality of cables; first and second ribbon members, the first ribbon member being threaded through the plurality of cables to separate the cables into M rows; and the second ribbon member being threaded through the plurality of cables to separate the cables into N columns; and a second sleeve that overlies an end of the first sleeve and the first and second ribbon members. | 09-18-2014 |
| 20160189824 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a thermosetting resin formed on the outer periphery thereof, the thermosetting resin having a glass transition temperature of 100° C. or more and 200° C. or less and having a urethane bond; and a layer of a thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20160189826 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a first thermoplastic resin formed on the outer periphery thereof, the first thermoplastic resin being a non-crystalline resin having no melting point or a crystalline resin having an amide bond; and a layer of a second thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20080196924 | LAMINATED BUS BARS AND METHODS OF MANUFACTURE THEREOF - A method of assembling a multilayer bus bar assembly includes coating a dielectric layer with a molten reactive hot-melt adhesive, placing the dielectric layer between first and second subassemblies, wherein the first and second subassemblies comprise a conductive element, adhering the molten reactive hot-melt adhesive to the subassemblies by applying a pressure of at least about one bar to the multilayer bus bar assembly for at least about one minute prior to the adhesive cooling to room temperature to provide a bonding strength between the dielectric material and a selected one of the first and second subassemblies of at least 1500 Newtons on a 25 millimeter by 25 millimeter sample when tested in accordance with ASTM D-1062. | 08-21-2008 |
| 20080245548 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a base, an adhesive layer, and a carbon nanotube layer. The adhesive layer is configured for being sandwiched between the base and the carbon nanotube layer. And a method for making the conductive tape includes the steps of: fabricating at least one carbon nanotube film and an adhesive agent; coating the adhesive agent on a base and drying the adhesive agent on the base so as to form an adhesive layer; and forming a carbon nanotube layer on the adhesive layer and compressing the carbon nanotube layer so as to sandwich the adhesive layer between the carbon nanotube layer and the base. | 10-09-2008 |
| 20080230254 | TRANSMISSION CABLE - A transmission cable and method for manufacturing same are provided. A plurality of signal lines are formed on one side of an insulating layer and ground lines are formed between the signal lines. The ground lines are electrically connected with a shield layer formed on a back surface of the insulating layer through metal bumps formed and embedded in the insulating layer. Insulating layers and shield layers may be formed on opposite sides sandwiching the signal lines and the ground lines. In this case, the ground lines are electrically connected with the shield layers, respectively, through metal bumps on both sides thereof. Consequently, a highly reliable transmission cable capable of high rate transfer and large capacity transfer can be provided. | 09-25-2008 |
| 20080296044 | FLEXIBLE FLAT CABLE - A flat cable includes a plurality of flat cores arranged at an interval, an insulating layer covering integrally each core, and an adhesive sheet. Both surfaces of the insulating layer are provided with a plurality of grooves to correspond to the cores respectively. The distal end of each core extends beyond the insulating layer and each has a connecting portion. Each connecting portion has two flat surfaces. One of the flat surfaces is used for electrical connection, and the other is adhered to the adhesive sheet. The adhesive sheet is adhered from the distal end of each connecting portion to a portion of the insulating layer. Further, an external surface of the adhesive sheet is colored. | 12-04-2008 |
| 20080308295 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a adhesive layer and a plurality of carbon nanotubes. The adhesive layer has a first surface and an opposite second surface. The carbon nanotubes are substantially embedded in parallel in the adhesive layer and perpendicular to the first surface and the second surface. Each of the carbon nanotubes has two opposite ends extending out of the two opposite surfaces of the adhesive layer respectively. Further, a method for making the above-described conductive tape is also included. | 12-18-2008 |
| 20090101388 | FLAT CABLE ASSEMBLY FOR USE IN POWER SUPPLY APPARATUS - A flat cable assembly includes a plurality of power cables and a bonding medium. The plurality of power cables are parallel with each other, wherein every two adjacent power cables are separated from each other. The bonding medium is used for boding every two adjacent power cables together, thereby cooperatively forming the flat cable assembly having a first surface and a second surface. A first gap is formed between the first surface and the bonding medium and a second gap is formed between the second surface and the bonding medium. | 04-23-2009 |
| 20090266578 | FLEX CABLE WITH BIASED NEUTRAL AXIS - Systems and methods for biasing a neutral axis of a flex cable in a hard drive are discussed. The hard drive comprises a flex cable, a read/write head, and a control card. The flex cable comprises a base film, adhesives, a conductive trace, a cover film, and a neutral axis. The neutral axis is configured to be biased so that stresses in the conductive trace are more compressive and less tensile than stresses without a biased neutral axis. | 10-29-2009 |
| 20100084160 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-08-2010 |
| 20130037303 | FLEXIBLE FLAT CABLE - A flexible flat cable, including a plurality of preprocess conductors and a insulating layer, wherein the insulating layer includes upper and lower insulating layers, each of the preprocess conductors has upper and lower faces and an original width, and the upper and lower faces are being flat and attached tightly and closely to the upper and lower insulating layers, respectively. Ends of the preprocess conductors expose out of the insulating layer and are being processed to form a plurality of contact faces, and each of the contact faces has a processed width which is larger than the original width. | 02-14-2013 |
| 20130319727 | APPARATUS AND METHOD FOR AN AIRCRAFT CONDUCTOR SANDWICH ASSEMBLY EMBEDDED TO AN AIRCRAFT STRUCTURE - An aircraft conductor sandwich assembly configured to be embedded in a composite aircraft structure. The conductor sandwich assembly comprises a plurality of carbon conductors disposed between two sheets of insulating layers and an adhesive resin bonding the plurality of carbon conductors and the two sheets of insulating layers into a carbon sandwich assembly such that (i) the conductors are electrically isolated and (ii) structural loads can be passed through said conductor sandwich assembly. | 12-05-2013 |
| 20140027153 | Flexible Electrical Power Cable - An electrical cable has a plurality of generally rectangular cross-section conductors superposed in a stack, the stack surrounded by a polymer jacket. The stack may be provided with a lubrication layer provided between at least two of the conductors. Conductors of the stack may have a thickness that is greater proximate the middle of the stack than at the top and bottom of the stack and/or a width that is less at the top and the bottom than at the middle. Further stacks may also be provided parallel and coplanar with the first stack, also surrounded by the polymer jacket. | 01-30-2014 |
| 20080236868 | ELECTRONIC APPARATUS WITH FLEXIBLE FLAT CABLE FOR HIGH-SPEED SIGNAL TRANSMISSION - According to one embodiment, a flexible flat cable includes a plurality of ground lines and a plurality of signal lines. Each of the ground lines is connected to an electromagnetic shield layer by two connection line members. An arrangement of the ground lines and signal lines that are positioned in a region on one side of a center line of the flexible flat cable and an arrangement of the ground lines and signal lines on a region on the other side are symmetric with respect to the center line. In each of two connectors to which end portions of the flexible flat cable are coupled, terminals corresponding to the ground lines are grounded, a terminal corresponding to a signal line interposed between two ground lines is assigned a high-speed signal, and a terminal corresponding to another signal line is assigned a ground potential. | 10-02-2008 |
| 20080289852 | CABLE ASSEMBLY - A cable assembly is provided including an encapsulated cable having one or more elements and an intermediary section. The encapsulated cable extends along a length direction. The intermediary section extends along the length direction and is attached along a length of the encapsulated cable and extends outwardly therefrom. The intermediary section is configured to receive one or more fasteners for securing the cable assembly to an external surface without the one or more fasteners contacting the one or more elements. | 11-27-2008 |
| 20090000804 | Transmission Cable - A transmission cable is provided and includes multiple signal lines formed on one side of an insulation layer | 01-01-2009 |
| 20090044966 | INDIUM-SOLDER-COATED COPPER FOIL RIBBON CONDUCTOR AND METHOD OF CONNECTING THE SAME - A method for tenaciously connecting a conductor electrode on a glass substrate to a ribbon conductor with certainty at low cost without causing damage. An indium-solder-coated copper foil ribbon conductor | 02-19-2009 |
| 20090133898 | Flexible flat cable with carrier tape and manufacturing method thereof - It is to provide a flexible flat cable with a carrier tape capable of preventing conductors from being bent without increasing the cost of production. | 05-28-2009 |
| 20090159309 | Flat cable and plasma display device - A highly reliable flat cable is disclosed in which a short-circuit between adjacent electrodes due to whisker formation is prevented and the occurrence of contact failure between electrodes due to a foreign particle is prevented. A plasma display using this flat cable is also disclosed. The flat cable comprises a plurality of conductors and a pair of films having adhesive applied on the films so as to sandwich each of the conductors with a predetermined spacing. The conductors on the side of the flat cable or the conductors on the side of a connector electrically connected to the conductors on the side of the flat cable are formed of a lead-free material. Further, at a connecting portion of the flat cable, one of the films ( | 06-25-2009 |
| 20090236122 | Structure for flexible flat cable - The main body of the flexible flat cable of the invention includes a particular quantity of cores and sheath layers. The core includes a plurality of single conductor wires or a plurality of twisted conductor wires compressively combined by top and bottom sheath layers located above and below the core to form a flexible flat cable main body. | 09-24-2009 |
| 20090236123 | PLATED FLAT CONDUCTOR AND FLEXIBLE FLAT CABLE THEREWITH - Disclosed is a plated flat conductor including a flat conductor of copper or a copper alloy and a plated layer formed on a surface of the flat conductor. The plated layer includes a first intermetallic compound layer of Cu | 09-24-2009 |
| 20090260850 | Flexible flat cable assembly with improved grounding structure - A cable connector assembly includes a housing, a flexible substrate, at least one matching stratum attached on the flexible substrate for regulating the impedance of flexible substrate and a shell. The housing includes a receiving space. The flexible substrate is received in the receiving space of the housing and includes a plurality of golden fingers exposed out the housing. The shell covers the flexible substrate without the golden fingers, the matching stratum and the housing and includes a connecting element electrically connected to the matching stratum. | 10-22-2009 |
| 20090301755 | FLAT CABLE FOR MOUNTED DISPLAY DEVICES - A flat high definition multimedia interface (HDMI) cable. The flat cable that is less visible in comparison to a round HDMI cable for wall mounted television setup. An HDMI connector is coupled to the flat cable. An active circuit isolates physical characteristics of the HDMI connector. The active circuit causes the flat cable to appear shorter than its actual length during HDMI compliance testing using impedance testing. Moreover, the active circuit causes a consumer electronic control (CEC) line, a display data channel (DDC) line and transition minimized differential signal (TMDS) line to actively terminate for reducing parasitic capacitance from the length of the flat cable during HDMI compliance testing. Thus, the isolation allows the flat cable to satisfy HDMI compliant testing. The flat cable may be selected from a group consisting of ribbon cable, twisted pair cable, flexible printed circuit board, micro coax cable, optical cable and glass fiber cable. | 12-10-2009 |
| 20090314516 | Flexible Signal Transmission Module and Manufacturing Method Thereof - A flexible signal transmission module and a manufacturing method thereof are provided. The flexible signal transmission module includes a first connector, a first transmission strip, and a second transmission strip. The first and second transmission strips are respectively connected to the first connector and disposed side by side. The ends of the first and second transmission strips which connect to the first connector respectively have a first end folding line. The first and second transmission strips respectively folded along the first end folding lines toward a same direction while the folding portions of both strips partially overlap. The manufacturing method includes the following steps: disposing a plurality of transmission strips side by side; connecting the transmission strips to a first connector; and respectively folding the transmission strips along the first end folding lines toward a same direction. | 12-24-2009 |
| 20100018746 | MULTI CONDUCTOR CABLE FOR A PORTABLE ELECTRIC TOOL - A multi conductor flat type cable, which is intended for connecting a portable electric power tool to a stationary power supply and operation control unit, has a connector plug ( | 01-28-2010 |
| 20100089610 | FLAT CABLE - A very thin flat cable ( | 04-15-2010 |
| 20100193216 | POWER SUPPLY APPARATUS FOR SLIDING DOOR - A power supply apparatus for sliding door includes a flat cable for electrically connecting devices on a side of vehicle body to the devices on a side of a sliding door mounted on the vehicle body so as to be able to be slid, a vehicle body side fixing portion for fixing the flat cable on the vehicle body; and a door side fixing portion for fixing the flat cable on the sliding door, wherein the flat cable is extracted from the vehicle body side fixing portion and the door side fixing portion in the substantially same direction which is substantially parallel to the sliding directions of the sliding door, and the width direction of the flat cable is maintained to be substantially vertical. | 08-05-2010 |
| 20100243292 | METHOD FOR FUSING INSULATED WIRES, AND FUSED WIRES PRODUCED BY SUCH METHOD - A method for fusing a pair of insulated wires to one another, and a fused wire made by such method, in which the combined or major diameter of the fused wire equals, or very closely matches, the sum of the diameters of the individual wires prior to fusion. In the present method, a pair of wires, each having a coating of insulation that is substantially fully cured, are brought into close abutting contact with one another along a line contact, and thereafter pass through a heating device which heats the coatings above their a thermal transition point of at least one of the pair of wires to fuse the coatings of the wires together along the line contact. | 09-30-2010 |
| 20100243293 | CABLE WIRING STRUCTURE OF SLIDING-TYPE ELECTRONIC APPARATUS, AND ELECTRONIC APPARATUS WIRING HARNESS - A cable wiring structure of a sliding-type electronic apparatus is provided which includes a plurality of casings with circuits attached to be movable relatively to each other wherein the circuits within the casings are electrically connected to each other by an electronic apparatus wiring harness. The electronic apparatus wiring harness has a cable laminated portion in which a plurality of micro two-core parallel coaxial cables are laminated, and the cable laminated portion is wired in a U shape when viewed from slide surfaces of the casings. | 09-30-2010 |
| 20110036615 | FLEXIBLE FLAT CIRCUITRY - A transmission line is made from FFC and has an elongated support base with opposing top and bottom sides. The support base has a plurality of conductive traces arranged on both of its side with the traces on one of the support base sides being arranged in pairs of signal traces, and specifically pairs of differential signal traces. The traces which are arranged on the other side of the support base include ground traces, each of which preferably has a width that is greater than the combined width of two signal traces that make up a signal pair. Each of the ground traces are aligned with a pair of signal traces. | 02-17-2011 |
| 20110056729 | INSULATED CONDUCTIVE ELEMENT HAVING A SUBSTANTIALLY CONTINUOUS BARRIER LAYER FORMED THROUGH CONTINUOUS VAPOR DEPOSITION - A continuous vapor deposition system for coating an elongate, uncoated conductive element with a substantially continuous barrier layer. The system comprises an internal deposition chamber configured to have a section of the conductive element extend there through; a vapor supply system connected to the internal deposition chamber configured to provide a barrier material to the internal deposition chamber, wherein the barrier material is deposited on the section of the conductive within the internal deposition chamber to form a substantially continuous barrier layer; and a guide system positioned adjacent to the first deposition chamber configured to maintain tension in the section of the conductive element in the internal deposition chamber to control movement of the conductive element through the internal deposition chamber. | 03-10-2011 |
| 20110114363 | Motor Vehicle Conductor Connection Element - Motor vehicle conductor connection element | 05-19-2011 |
| 20110120748 | WIRING COMPONENT - A wiring component includes an array of multiple wires, at least one connector which engages the wires, and at least two layers of a hardened fiber and a filler compound that sandwiches the wires. The areas adjacent to the wires include a filler which immobilizes the wires relative to the layers. In one embodiment at least a portion of the connector is embedded in the filler. | 05-26-2011 |
| 20110232938 | FLEXIBLE FLAT CABLE - A flexible flat cable includes a plurality of conductors arranged parallel at predetermined intervals, an insulation layer covering both sides of each of the plurality of conductors, a nonwoven fabric layer on an outer surface of the insulation layer, and a shield layer on an outer surface of the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric including a layer including a first fiber thread with a predetermined outer diameter and a second fiber thread with an outer diameter larger than that of the first fiber thread. A basis weight of the nonwoven fabric is 50 to 90 g/m | 09-29-2011 |
| 20110290526 | FLAT CABLE AND METHOD FOR FABRICATING THE SAME - A flat cable has a plurality of electric wires disposed in parallel, and a fiber member woven to thread through each of the electric wires along a juxtapositional direction of the electric wires. The fiber member is made of a fiber having an elastic recovery rate after elongation of 80% or more and 95% or less. The fiber has an initial modulus of 20 cN/dtex or more and 30 cN/dtex or less. | 12-01-2011 |
| 20120097422 | FLEXIBLE FLAT CABLE AND METHOD OF MANUFACTURING THE SAME - The present invention provides a flexible flat cable having high conductivity and high bending durability, and a method for manufacturing the same. The present invention is a flexible flat cable comprising conductors and insulating films applied over the conductors, wherein the conductor is comprised of at least one additive element selected from the group consisting of magnesium (Mg), zirconium (Zr), niobium (Nb), calcium (Ca), vanadium (V), nickel (Ni), manganese (Mn), titanium (Ti), and chromium (Cr); 2 mass-% or more of oxygen; and the balance being inevitable impurity and copper, wherein the conductor has such a recrystallized texture that the size of crystal grains in the inner area of the conductor is large and that of in the surface area thereof is smaller than that of the inner area, wherein both sides of the conductor are sandwiched between insulating films. | 04-26-2012 |
| 20120181060 | FLEXIBLE FLAT CABLE - A flexible flat cable ( | 07-19-2012 |
| 20120199376 | Flexible flat cable - A flexible flat cable includes a plurality of conductors, a nonwoven fabric layer provided on an outer surface of an insulation layer, and a shield layer provided on the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric having a plurality of recessed portions formed on a surface thereof, the recessed portions being each enclosed by two opposite long sides and two opposite short sides, and the nonwoven fabric has an embossed shape which satisfies the following relation: 2d| 08-09-2012 | |
| 20120205138 | FLEXIBLE FLAT CABLE USING ROUND CONDUCTORS - The present invention relates to a flexible flat cable using round conductors and, more particularly, to the continuous fabrication of flexible flat cables each using round conductors, wherein the terminal unit of the flexible flat cable has a straight angle conductor form. The flexible flat cable using the round conductors according to the present invention comprises the round conductors and an upper base film and a lower base film covering upper and lower parts of the round conductors, wherein the terminal unit of the flexible flat cable is formed of the straight angle conductors formed by processing the round conductors, and the lower base film supporting the straight angle conductors is integrally formed over the entire length of the flexible flat cable. | 08-16-2012 |
| 20120255761 | ADHESIVE FILM AND FLAT CABLE USING SAME - The adhesive film includes an insulating film, an adhesive layer provided over one side of the insulating film, and an anchor coat layer provided between the one side of the insulating film and the adhesive layer. The adhesive layer is a copolymer polyamide resin which is soluble in a solvent at 25 degrees Celsius and has a melting point of 100 degrees Celsius or more and 150 degrees Celsius or less. The anchor coat layer enhances the adhesion between the insulating film and the adhesive layer. | 10-11-2012 |
| 20120267145 | Flat cable and cable harness using same - A flat cable includes a plurality of wires in parallel alignment, and a linear member disposed across the parallel alignment and woven between the plurality of wires. The linear member includes a fibrous member containing poly(trimethylene terephthalate) and a metal layer on a periphery of the fibrous member. A cable harness includes the flat cable, and a connecting terminal connected to an end of the flat cable. | 10-25-2012 |
| 20130000950 | EXTRUDED FLEXIBLE FLAT CABLE - The present invention provides an extruded flexible flat cable, which has a superior formability, flexibility, adhesiveness, and fire-retardancy, with a low manufacturing cost. The flexible flat cable of the present invention is adapted for sliding door of a motor vehicle and also other parts. The extruded flexible flat cable has a conductor covered with an insulation layer extrude-formed with an extrusion molding method. The insulation layer is formed from a fire-retardant resin composition containing a modified polybutylene terephthalate and a fire-retardant additive. The fire-retardant resin composition has a melting point of 170-215 degrees C. measured in reference to JIS K7121 with a differential thermal analysis at a rate of temperature increase of 10 degrees C. per minute. | 01-03-2013 |
| 20130118773 | Z-AXIS CONDUCTIVE ARTICLE AND METHOD OF MAKING THE SAME - A Z-axis conductive article includes an adhesive layer having a first major surface and a second major surface opposite the first major surface. The adhesive layer includes a dielectric pressure-sensitive adhesive and conductive magnetic particles aligned in mutually isolated conductive pathways extending from the first major surface to the second major surface of the adhesive layer. A method of making the same is also disclosed. | 05-16-2013 |
| 20130233590 | ADHESIVE FILM AND FLAT CABLE USING THE SAME - There is provided an adhesive film, comprising: an insulator film; an adhesive layer formed on the insulator film; and an intermediate adhesive layer interposed between the insulator film and the adhesive layer, wherein the intermediate adhesive layer is made of a mixed resin composition of a copolyamide being a crystalline resin solvable in a non-halogen based organic solvent and having a melting point of 100° C. or more and 150° C. or less, and a non-crystalline resin, and the intermediate adhesive layer contains a non-halogen flame retardant by 100 pts.wt. or more and 250 pts.wt. or less with respect to 100 pts.wt. of the mixed resin composition. | 09-12-2013 |
| 20130240243 | ELECTRICAL CABLE ARRANGEMENT - An electrical cable arrangement comprises a first electrical cable ( | 09-19-2013 |
| 20130312999 | FLEXIBLE CIRCUIT CABLE WITH AT LEAST TWO BUNDLED WIRE GROUPS - Disclosed is a flexible circuit cable with at least two bundled wire groups. The circuit cable has first and second ends respectively connected to first and second connection sections. The circuit cable includes a cluster section, which is formed of a plurality of cluster wires formed by slitting the circuit cable, in an extension direction of the cable, at a predetermined cut width. The cluster section includes at least two independent bundles, which are formed by dividing the cluster wires of the circuit cable into different signal groups according to electrical signals transmitted therethrough. Bundling members are used to the cluster wires of the independent bundles according to predetermined bundling modes. Further, the circuit cable has a surface forming a shielding conductive layer for electromagnetic interference protection and impedance control for internal signals of the circuit cable. | 11-28-2013 |
| 20140041896 | MEDIUM PROCESSING DEVICE AND FLEXIBLE CABLE - A medium processing device may include a head which reads or writes data to a recording medium; and a flexible cable which is connected with head. The flexible cable may be formed in a multilayer structure including a data signal layer formed with a data signal pattern and disconnection detecting signal layers which cover a front face and a rear face of the data signal layer and are formed with a disconnection detecting signal pattern. The flexible cable may also include a terminal connecting part formed with a through hole into which a signal terminal of the head is inserted and a terminal covering part turned around so as to cover the terminal connecting part and fixed to the terminal connecting part. | 02-13-2014 |
| 20140060886 | SPACER FOR USE IN A FLAT CABLE - This is directed to a cable for use with an electronic device. The cable can be substantially flat, such that all of the conductive wires of the cable are substantially in the same plane. A spacer can be placed between the wires to ensure that wires conducting signals remain a minimum distance apart to avoid signal degradation. The spacer can also control the bending of the cables to favor bending in a preferred direction while reducing or limiting bending in a less preferred direction. | 03-06-2014 |
| 20140116750 | FLAT CABLE - The invention is provided to a flat cable having a thinner insulating covering while keeping sufficient wear resistance and low temperature resistance. The invention provides a flat cable, which includes at least two conductors disposed apart from each other and in parallel to each other, and an insulating covering disposed over a periphery of the at least two conductors, and formed of vinyl chloride-based resin composition having a brittle temperature of from −40 Celsius degrees to −25 Celsius degrees, an hardness D of from 35 to 55, and heating deformation of 10% or below. | 05-01-2014 |
| 20140131064 | FLAT CABLE AND METHOD FOR PREPARING THE SAME - The objective of the invention is to provide a thin and flexible flat cable suited for being arranged in a narrow space such as a vehicle, as well as, a method for stably preparing such a flat cable. | 05-15-2014 |
| 20140158397 | CABLE - A cable for establishing connection with connectors comprises a plurality of wires parallel and apart from each other, and an insulating structure sandwiching the plurality of wires. The insulating structure comprises a plurality of isolating portions arranged between each of two adjacent wires. Each of the isolating portions comprises a perforated portion. | 06-12-2014 |
| 20140158398 | ADHESIVE RESIN COMPOSITION, ADHESIVE FILM USING THE SAME AND FLAT CABLE - An adhesive resin composition includes 60 to 95 parts by mass of amorphous thermoplastic polyester-based resin (A), 5 to 40 parts by mass of polyphenylene ether-based polymer (B) including a hydroxyl group and a repeating unit of 2,6-dimethylphenylene ether in a molecule thereof, and 60 to 200 parts by mass of a flame retardant per total 100 parts by mass of the amorphous thermoplastic polyester based resin (A) and the polyphenylene ether-based polymer (B). | 06-12-2014 |
| 20140182885 | ELECTRICAL CABLE ASSEMBLY - In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the substrate and a second surface that is opposite the first surface. The drain wire can define a height that is greater than 0.2 mm as measured from the first surface to the second surface along a straight line. | 07-03-2014 |
| 20140262429 | MULTIPLE-CONDUCTOR FLAT CABLE - A multiple-conductor flat cable includes: an analog cable portion formed such that ground signal lines and analog signal lines are alternately arranged side by side across a signal transmission direction and each adjacent pair of the ground signal lines and the analog signal lines are joined while being electrically insulated from each other; and a digital cable portion joined with the analog cable portion while being placed adjacent to the digital cable portion and formed such that digital signal lines are arranged side by side across the signal transmission direction and each adjacent pair of the digital signal lines are joined while being electrically insulated from each other. | 09-18-2014 |
| 20140262430 | Flexible Flat Cable and Method of Manufacturing the Same - A flexible flat cable includes an insulating layer disposed through extrusion in vicinity of a plurality of conductors arrayed in parallel with each other. The insulating layer is composed of a vinyl chloride-based resin composition having a die swell ratio of 1.1 or more at a molding temperature during the extrusion. The molding temperature is between 150° C. to 200° C. with a linear rate of between 50 m/minute to 200 m/minute. A melt tension of the vinyl chloride-based resin composition is 0.02 N to 0.2 N. | 09-18-2014 |
| 20140299354 | CUSTOM CABLE TECHNOLOGY - The embodiments disclose a method including fabricating custom cables using a custom cable technology, wherein the custom cables include a universal flat cable including a plurality of flexible conduits including a plurality of cable pods, an ultra-flat cable and a flat series cable, and wherein the custom cables include reinforced cable jackets, and wherein the custom cables include reduced weight cable jackets including a microcell jacket. | 10-09-2014 |
| 20140299355 | FLAT CABLE AND ELECTRONIC DEVICE - A transmission line section of a flat cable includes a dielectric element including a signal conductor at an intermediate position of a thickness direction, a first ground conductor, and a second ground conductor. The first ground conductor includes elongated conductors that are spaced apart from each other in a width direction of the dielectric element, and extend in a longitudinal direction, and bridge conductors that connect the elongated conductors at spaced points along the longitudinal direction. A widened portion having a width larger than the width of the elongated conductors is located at the intermediate position between bridge conductors that are adjacent to each other along the longitudinal direction. The widened portion is configured to project in a direction in which the elongated conductors are opposed to each other. An interlayer connection conductor is located in the widened portion. The first ground conductor and the second ground conductor are connected by the interlayer connection conductor. | 10-09-2014 |
| 20150008012 | FLAT CABLE - A flat cable includes a dielectric element assembly including a plurality of dielectric layers laminated on each other in a direction of lamination, and a linear signal line provided in the dielectric element assembly. The dielectric element assembly includes at least one section bent in a plurality of places defining a zigzag shape when viewed in a plan view in the direction of lamination. In the zigzag section of the dielectric element assembly, any portions of the dielectric element assembly that are not adjacent across a bending line do not overlap when viewed in a plan view in the direction of lamination. | 01-08-2015 |
| 20150014018 | FLEXIBLE FLAT CABLE FOR LOW VOLTAGE DIFFERENTIAL SIGNALING - Disclosed is a flexible flat cable including an incision section including a cutting line, a connection section including a conductive line exposure end portion, and a transition section to connect the incision section with the connection section. Plural conductive lines are arranged with a pitch interval of 0.5 mm to form one conductive line group, and plural conductive line groups are arranged with an interval of 1.0 mm, such that the cutting line is in a space having the interval of 1.0 mm between the conductive groups. The conductive lines are collected at an end portion side of the incision section in the transition section, and the connection section includes a linear section which the conductive lines extending from an end portion of the transition section extend while being spaced apart from each other with a pitch of 0.5 mm and a conductive line exposure part exposed to an outside. | 01-15-2015 |
| 20150136443 | CABLE WITH MULTIPLE CONDUCTORS EACH HAVING A CONCENTRIC INSULATION LAYER - An electrical transmission cable has at least two wires joined in side-by-side relationship by a web. Each wire has a central conductor surrounded by a single layer of insulation that has an outer surface. A majority of the outer surface of the insulation layer is concentric with the conductor. The web is attached at first and second ends to the outer layers of the insulation of the first and second wires. The web has a neck located intermediate its first and second ends with the neck defining the point of least cross-sectional area of the web. Separation of one wire from the other will cause the web to break at the neck, thereby preventing damage to the insulation layer. Chordal segments of the insulation layer may be used to minimize the width of a multi-wire cable. | 05-21-2015 |
| 20150380126 | METHOD AND DEVICE FOR POSITIONING ELECTRICAL CONDUCTORS, AND CONDUCTOR GROUP - The present invention relates to a method (M | 12-31-2015 |
| 20160049222 | Flexible Transmission Line Assembly - A flexible transmission line assembly, which is connected between two relatively moving means that are movable relative to each other, comprises an abrasion-resistant flexible film and a plurality of transmission lines. The abrasion-resistant flexible film inner surface is surrounded to form a receiving space and is provided with an adhesive. The plurality of transmission lines is provided within the receiving space in a way each transmission line is adjacent to one another in a single row in width directions of the transmission lines, and the adjacent transmission lines being closely contacted with each other. The plurality of transmission lines is adhered with the inner surface of the abrasion-resistant flexible film by means of the adhesive, and the plurality of transmission lines at both ends in a longitudinal direction thereof is formed with a connecting element. | 02-18-2016 |
| 20160049223 | READILY STRIPPABLE CABLE - A readily-strippable cable is herein described having at least two wires encapsulated by a continuous electrically insulating layer wherein each encapsulated wire is connected to an adjacent wire by a relatively thinner portion of the insulating layer, the insulating layer having at least one relatively weak portion per encapsulated wire that extends along the length of the cable and is substantially uniform in position and strength along the length of the cable; and wherein the weak portion is configured to allow the insulating layer to split along the relatively weak portion and down the length of the cable upon separation of the encapsulated wires by application of force against the relatively thinner portion of insulating layer in a direction substantially perpendicular to the length of the cable, thereby exposing the wire without the use of a secondary operation. | 02-18-2016 |
| 20160155539 | READILY STRIPPABLE CABLE | 06-02-2016 |
| 20180025806 | FLEXIBLE FLAT CABLE | 01-25-2018 |
| 20120103657 | HIGH-SPEED CARD CABLE - Techniques described herein generally relate to ground planes. In some examples, an electrical cable is described that can include multiple signal lines. The multiple signal lines can be arranged to extend along a length of the electrical cable. A ground plane can be spaced apart from the multiple signal lines. The ground plane can include a mesh structure and an electrically conductive layer that is arranged to coat the mesh structure. The mesh structure can include multiple resin fibers. | 05-03-2012 |
| 174117000 | Flat or ribbon type | 52 |
| 20100006321 | VIDEO/AUDIO SIGNAL TRANSMISSION CABLE - The present invention disclose a video/audio signal transmission cable comprising a first and a second conducting wires respectively having conductor and insulator, and the first and second conducting wires are neighborly installed, wherein each conductor has a core being made of steel material and being electroplated with a high conductive metal plating layer on the outside surface thereof; a first enclosing layer being made of insulation material is used to enclose the outsides of the first and second conducting wires; and a second enclosing layer being made of insulation material is used to enclose the outside of the first enclosing layer. It is then through the material characteristics of the core and high conducting metal plating layer to have the signal equalization effect during high frequency and low frequency transmissions thereby achieving the better quality and stable transmission effect. | 01-14-2010 |
| 20120273252 | Bus Bar Assembly and Method of Manufacturing Same - A bus bar assembly includes a first main conductor, a second main conductor, and an insulator member provided between the main conductors. The insulator member includes: (i) an insulator component, (ii) a first conductor layer provided on the top surface of the insulator component, and (iii) a second conductor layer provided on the bottom surface of the insulator component, wherein the first conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least a certain distance from the outer edge around the perimeter of the insulator component, wherein the second conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least the same certain distance from the outer edge of the insulator component, and wherein the certain distance is sufficient to cause the bus bar assembly to satisfy the creepage requirement of the assembly. | 11-01-2012 |
| 20120279754 | CONTINUOUSLY TRANSPOSED CONDUCTOR - The present invention relates to a Continuously Transposed Conductor ( | 11-08-2012 |
| 20130199819 | METHOD FOR PRODUCTION OF AN ELECTRICAL WINDING, AND ELECTRICAL CONDUCTOR - A method is specified for production of an electrical winding for an electrical appliance, in which the winding is embedded in a liquid which is used for cooling, A conductor is first of all produced, in which a multiplicity of insulated electrical individual conductors having a rectangular cross section are arranged in at least one stack, with their flat faces resting on one another. Winding material composed of insulating material is wound around the stack in order to produce common insulation, and the conductor is then shaped to form a single-part winding. A winding material in the form of ribbon or strip and composed of a plastic with impressed shape memory is used for winding around, and has a greater length than its original length, with this greater length being produced by stretching. The finishing winding is heated to a temperature at which the winding material becomes shorter in the winding direction. | 08-08-2013 |
| 20130233591 | ELECTRIC WIRE HOLDING STRUCTURE AND ELECTRIC WIRE HOLDING METHOD - An electric wire holding structure includes a plurality of electric wires each including a conductive part provided with a plurality of core wires and an insulating part covering the conductive part. The conductive part includes a rectangular conductive part which is formed at an end of the conductive part to have a rectangular outer shape in a section perpendicular to an extending direction of the electric wires. The rectangular conductive parts of the respective electric wires are bonded together by welding with ultrasonic vibration. The rectangular conductive parts of a plurality of the electric wires are piled in a brick laying manner to be bonded by welding. | 09-12-2013 |
| 20130333918 | WIRE CONSTRUCTS - A method for forming a wire construct includes forming a groove in a polymer having a mouth that is narrower than a width of a deeper portion of the groove and placing a substantial length of wire in the groove, the wire having a larger cross-sectional dimension than the mouth of the groove. Encapsulant is placed over the polymer. The wire construct is to be used for implantable stimulation leads, such as a cochlear stimulation lead or a neurostimulation lead. Two wire constructs can be assembled to form a multilayer wire construct. | 12-19-2013 |
| 20140262431 | MULTI-CABLE BREAKOUT ASSEMBLY - A multi-cable breakout assembly includes: a plurality of cables arranged in a rectangular array of M rows×N columns, wherein M and N are positive whole numbers greater than one; a first sleeve that encircles the plurality of cables; first and second ribbon members, the first ribbon member being threaded through the plurality of cables to separate the cables into M rows; and the second ribbon member being threaded through the plurality of cables to separate the cables into N columns; and a second sleeve that overlies an end of the first sleeve and the first and second ribbon members. | 09-18-2014 |
| 20160189824 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a thermosetting resin formed on the outer periphery thereof, the thermosetting resin having a glass transition temperature of 100° C. or more and 200° C. or less and having a urethane bond; and a layer of a thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20160189826 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a first thermoplastic resin formed on the outer periphery thereof, the first thermoplastic resin being a non-crystalline resin having no melting point or a crystalline resin having an amide bond; and a layer of a second thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20080196924 | LAMINATED BUS BARS AND METHODS OF MANUFACTURE THEREOF - A method of assembling a multilayer bus bar assembly includes coating a dielectric layer with a molten reactive hot-melt adhesive, placing the dielectric layer between first and second subassemblies, wherein the first and second subassemblies comprise a conductive element, adhering the molten reactive hot-melt adhesive to the subassemblies by applying a pressure of at least about one bar to the multilayer bus bar assembly for at least about one minute prior to the adhesive cooling to room temperature to provide a bonding strength between the dielectric material and a selected one of the first and second subassemblies of at least 1500 Newtons on a 25 millimeter by 25 millimeter sample when tested in accordance with ASTM D-1062. | 08-21-2008 |
| 20080245548 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a base, an adhesive layer, and a carbon nanotube layer. The adhesive layer is configured for being sandwiched between the base and the carbon nanotube layer. And a method for making the conductive tape includes the steps of: fabricating at least one carbon nanotube film and an adhesive agent; coating the adhesive agent on a base and drying the adhesive agent on the base so as to form an adhesive layer; and forming a carbon nanotube layer on the adhesive layer and compressing the carbon nanotube layer so as to sandwich the adhesive layer between the carbon nanotube layer and the base. | 10-09-2008 |
| 20080230254 | TRANSMISSION CABLE - A transmission cable and method for manufacturing same are provided. A plurality of signal lines are formed on one side of an insulating layer and ground lines are formed between the signal lines. The ground lines are electrically connected with a shield layer formed on a back surface of the insulating layer through metal bumps formed and embedded in the insulating layer. Insulating layers and shield layers may be formed on opposite sides sandwiching the signal lines and the ground lines. In this case, the ground lines are electrically connected with the shield layers, respectively, through metal bumps on both sides thereof. Consequently, a highly reliable transmission cable capable of high rate transfer and large capacity transfer can be provided. | 09-25-2008 |
| 20080296044 | FLEXIBLE FLAT CABLE - A flat cable includes a plurality of flat cores arranged at an interval, an insulating layer covering integrally each core, and an adhesive sheet. Both surfaces of the insulating layer are provided with a plurality of grooves to correspond to the cores respectively. The distal end of each core extends beyond the insulating layer and each has a connecting portion. Each connecting portion has two flat surfaces. One of the flat surfaces is used for electrical connection, and the other is adhered to the adhesive sheet. The adhesive sheet is adhered from the distal end of each connecting portion to a portion of the insulating layer. Further, an external surface of the adhesive sheet is colored. | 12-04-2008 |
| 20080308295 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a adhesive layer and a plurality of carbon nanotubes. The adhesive layer has a first surface and an opposite second surface. The carbon nanotubes are substantially embedded in parallel in the adhesive layer and perpendicular to the first surface and the second surface. Each of the carbon nanotubes has two opposite ends extending out of the two opposite surfaces of the adhesive layer respectively. Further, a method for making the above-described conductive tape is also included. | 12-18-2008 |
| 20090101388 | FLAT CABLE ASSEMBLY FOR USE IN POWER SUPPLY APPARATUS - A flat cable assembly includes a plurality of power cables and a bonding medium. The plurality of power cables are parallel with each other, wherein every two adjacent power cables are separated from each other. The bonding medium is used for boding every two adjacent power cables together, thereby cooperatively forming the flat cable assembly having a first surface and a second surface. A first gap is formed between the first surface and the bonding medium and a second gap is formed between the second surface and the bonding medium. | 04-23-2009 |
| 20090266578 | FLEX CABLE WITH BIASED NEUTRAL AXIS - Systems and methods for biasing a neutral axis of a flex cable in a hard drive are discussed. The hard drive comprises a flex cable, a read/write head, and a control card. The flex cable comprises a base film, adhesives, a conductive trace, a cover film, and a neutral axis. The neutral axis is configured to be biased so that stresses in the conductive trace are more compressive and less tensile than stresses without a biased neutral axis. | 10-29-2009 |
| 20100084160 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-08-2010 |
| 20130037303 | FLEXIBLE FLAT CABLE - A flexible flat cable, including a plurality of preprocess conductors and a insulating layer, wherein the insulating layer includes upper and lower insulating layers, each of the preprocess conductors has upper and lower faces and an original width, and the upper and lower faces are being flat and attached tightly and closely to the upper and lower insulating layers, respectively. Ends of the preprocess conductors expose out of the insulating layer and are being processed to form a plurality of contact faces, and each of the contact faces has a processed width which is larger than the original width. | 02-14-2013 |
| 20130319727 | APPARATUS AND METHOD FOR AN AIRCRAFT CONDUCTOR SANDWICH ASSEMBLY EMBEDDED TO AN AIRCRAFT STRUCTURE - An aircraft conductor sandwich assembly configured to be embedded in a composite aircraft structure. The conductor sandwich assembly comprises a plurality of carbon conductors disposed between two sheets of insulating layers and an adhesive resin bonding the plurality of carbon conductors and the two sheets of insulating layers into a carbon sandwich assembly such that (i) the conductors are electrically isolated and (ii) structural loads can be passed through said conductor sandwich assembly. | 12-05-2013 |
| 20140027153 | Flexible Electrical Power Cable - An electrical cable has a plurality of generally rectangular cross-section conductors superposed in a stack, the stack surrounded by a polymer jacket. The stack may be provided with a lubrication layer provided between at least two of the conductors. Conductors of the stack may have a thickness that is greater proximate the middle of the stack than at the top and bottom of the stack and/or a width that is less at the top and the bottom than at the middle. Further stacks may also be provided parallel and coplanar with the first stack, also surrounded by the polymer jacket. | 01-30-2014 |
| 20080236868 | ELECTRONIC APPARATUS WITH FLEXIBLE FLAT CABLE FOR HIGH-SPEED SIGNAL TRANSMISSION - According to one embodiment, a flexible flat cable includes a plurality of ground lines and a plurality of signal lines. Each of the ground lines is connected to an electromagnetic shield layer by two connection line members. An arrangement of the ground lines and signal lines that are positioned in a region on one side of a center line of the flexible flat cable and an arrangement of the ground lines and signal lines on a region on the other side are symmetric with respect to the center line. In each of two connectors to which end portions of the flexible flat cable are coupled, terminals corresponding to the ground lines are grounded, a terminal corresponding to a signal line interposed between two ground lines is assigned a high-speed signal, and a terminal corresponding to another signal line is assigned a ground potential. | 10-02-2008 |
| 20080289852 | CABLE ASSEMBLY - A cable assembly is provided including an encapsulated cable having one or more elements and an intermediary section. The encapsulated cable extends along a length direction. The intermediary section extends along the length direction and is attached along a length of the encapsulated cable and extends outwardly therefrom. The intermediary section is configured to receive one or more fasteners for securing the cable assembly to an external surface without the one or more fasteners contacting the one or more elements. | 11-27-2008 |
| 20090000804 | Transmission Cable - A transmission cable is provided and includes multiple signal lines formed on one side of an insulation layer | 01-01-2009 |
| 20090044966 | INDIUM-SOLDER-COATED COPPER FOIL RIBBON CONDUCTOR AND METHOD OF CONNECTING THE SAME - A method for tenaciously connecting a conductor electrode on a glass substrate to a ribbon conductor with certainty at low cost without causing damage. An indium-solder-coated copper foil ribbon conductor | 02-19-2009 |
| 20090133898 | Flexible flat cable with carrier tape and manufacturing method thereof - It is to provide a flexible flat cable with a carrier tape capable of preventing conductors from being bent without increasing the cost of production. | 05-28-2009 |
| 20090159309 | Flat cable and plasma display device - A highly reliable flat cable is disclosed in which a short-circuit between adjacent electrodes due to whisker formation is prevented and the occurrence of contact failure between electrodes due to a foreign particle is prevented. A plasma display using this flat cable is also disclosed. The flat cable comprises a plurality of conductors and a pair of films having adhesive applied on the films so as to sandwich each of the conductors with a predetermined spacing. The conductors on the side of the flat cable or the conductors on the side of a connector electrically connected to the conductors on the side of the flat cable are formed of a lead-free material. Further, at a connecting portion of the flat cable, one of the films ( | 06-25-2009 |
| 20090236122 | Structure for flexible flat cable - The main body of the flexible flat cable of the invention includes a particular quantity of cores and sheath layers. The core includes a plurality of single conductor wires or a plurality of twisted conductor wires compressively combined by top and bottom sheath layers located above and below the core to form a flexible flat cable main body. | 09-24-2009 |
| 20090236123 | PLATED FLAT CONDUCTOR AND FLEXIBLE FLAT CABLE THEREWITH - Disclosed is a plated flat conductor including a flat conductor of copper or a copper alloy and a plated layer formed on a surface of the flat conductor. The plated layer includes a first intermetallic compound layer of Cu | 09-24-2009 |
| 20090260850 | Flexible flat cable assembly with improved grounding structure - A cable connector assembly includes a housing, a flexible substrate, at least one matching stratum attached on the flexible substrate for regulating the impedance of flexible substrate and a shell. The housing includes a receiving space. The flexible substrate is received in the receiving space of the housing and includes a plurality of golden fingers exposed out the housing. The shell covers the flexible substrate without the golden fingers, the matching stratum and the housing and includes a connecting element electrically connected to the matching stratum. | 10-22-2009 |
| 20090301755 | FLAT CABLE FOR MOUNTED DISPLAY DEVICES - A flat high definition multimedia interface (HDMI) cable. The flat cable that is less visible in comparison to a round HDMI cable for wall mounted television setup. An HDMI connector is coupled to the flat cable. An active circuit isolates physical characteristics of the HDMI connector. The active circuit causes the flat cable to appear shorter than its actual length during HDMI compliance testing using impedance testing. Moreover, the active circuit causes a consumer electronic control (CEC) line, a display data channel (DDC) line and transition minimized differential signal (TMDS) line to actively terminate for reducing parasitic capacitance from the length of the flat cable during HDMI compliance testing. Thus, the isolation allows the flat cable to satisfy HDMI compliant testing. The flat cable may be selected from a group consisting of ribbon cable, twisted pair cable, flexible printed circuit board, micro coax cable, optical cable and glass fiber cable. | 12-10-2009 |
| 20090314516 | Flexible Signal Transmission Module and Manufacturing Method Thereof - A flexible signal transmission module and a manufacturing method thereof are provided. The flexible signal transmission module includes a first connector, a first transmission strip, and a second transmission strip. The first and second transmission strips are respectively connected to the first connector and disposed side by side. The ends of the first and second transmission strips which connect to the first connector respectively have a first end folding line. The first and second transmission strips respectively folded along the first end folding lines toward a same direction while the folding portions of both strips partially overlap. The manufacturing method includes the following steps: disposing a plurality of transmission strips side by side; connecting the transmission strips to a first connector; and respectively folding the transmission strips along the first end folding lines toward a same direction. | 12-24-2009 |
| 20100018746 | MULTI CONDUCTOR CABLE FOR A PORTABLE ELECTRIC TOOL - A multi conductor flat type cable, which is intended for connecting a portable electric power tool to a stationary power supply and operation control unit, has a connector plug ( | 01-28-2010 |
| 20100089610 | FLAT CABLE - A very thin flat cable ( | 04-15-2010 |
| 20100193216 | POWER SUPPLY APPARATUS FOR SLIDING DOOR - A power supply apparatus for sliding door includes a flat cable for electrically connecting devices on a side of vehicle body to the devices on a side of a sliding door mounted on the vehicle body so as to be able to be slid, a vehicle body side fixing portion for fixing the flat cable on the vehicle body; and a door side fixing portion for fixing the flat cable on the sliding door, wherein the flat cable is extracted from the vehicle body side fixing portion and the door side fixing portion in the substantially same direction which is substantially parallel to the sliding directions of the sliding door, and the width direction of the flat cable is maintained to be substantially vertical. | 08-05-2010 |
| 20100243292 | METHOD FOR FUSING INSULATED WIRES, AND FUSED WIRES PRODUCED BY SUCH METHOD - A method for fusing a pair of insulated wires to one another, and a fused wire made by such method, in which the combined or major diameter of the fused wire equals, or very closely matches, the sum of the diameters of the individual wires prior to fusion. In the present method, a pair of wires, each having a coating of insulation that is substantially fully cured, are brought into close abutting contact with one another along a line contact, and thereafter pass through a heating device which heats the coatings above their a thermal transition point of at least one of the pair of wires to fuse the coatings of the wires together along the line contact. | 09-30-2010 |
| 20100243293 | CABLE WIRING STRUCTURE OF SLIDING-TYPE ELECTRONIC APPARATUS, AND ELECTRONIC APPARATUS WIRING HARNESS - A cable wiring structure of a sliding-type electronic apparatus is provided which includes a plurality of casings with circuits attached to be movable relatively to each other wherein the circuits within the casings are electrically connected to each other by an electronic apparatus wiring harness. The electronic apparatus wiring harness has a cable laminated portion in which a plurality of micro two-core parallel coaxial cables are laminated, and the cable laminated portion is wired in a U shape when viewed from slide surfaces of the casings. | 09-30-2010 |
| 20110036615 | FLEXIBLE FLAT CIRCUITRY - A transmission line is made from FFC and has an elongated support base with opposing top and bottom sides. The support base has a plurality of conductive traces arranged on both of its side with the traces on one of the support base sides being arranged in pairs of signal traces, and specifically pairs of differential signal traces. The traces which are arranged on the other side of the support base include ground traces, each of which preferably has a width that is greater than the combined width of two signal traces that make up a signal pair. Each of the ground traces are aligned with a pair of signal traces. | 02-17-2011 |
| 20110056729 | INSULATED CONDUCTIVE ELEMENT HAVING A SUBSTANTIALLY CONTINUOUS BARRIER LAYER FORMED THROUGH CONTINUOUS VAPOR DEPOSITION - A continuous vapor deposition system for coating an elongate, uncoated conductive element with a substantially continuous barrier layer. The system comprises an internal deposition chamber configured to have a section of the conductive element extend there through; a vapor supply system connected to the internal deposition chamber configured to provide a barrier material to the internal deposition chamber, wherein the barrier material is deposited on the section of the conductive within the internal deposition chamber to form a substantially continuous barrier layer; and a guide system positioned adjacent to the first deposition chamber configured to maintain tension in the section of the conductive element in the internal deposition chamber to control movement of the conductive element through the internal deposition chamber. | 03-10-2011 |
| 20110114363 | Motor Vehicle Conductor Connection Element - Motor vehicle conductor connection element | 05-19-2011 |
| 20110120748 | WIRING COMPONENT - A wiring component includes an array of multiple wires, at least one connector which engages the wires, and at least two layers of a hardened fiber and a filler compound that sandwiches the wires. The areas adjacent to the wires include a filler which immobilizes the wires relative to the layers. In one embodiment at least a portion of the connector is embedded in the filler. | 05-26-2011 |
| 20110232938 | FLEXIBLE FLAT CABLE - A flexible flat cable includes a plurality of conductors arranged parallel at predetermined intervals, an insulation layer covering both sides of each of the plurality of conductors, a nonwoven fabric layer on an outer surface of the insulation layer, and a shield layer on an outer surface of the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric including a layer including a first fiber thread with a predetermined outer diameter and a second fiber thread with an outer diameter larger than that of the first fiber thread. A basis weight of the nonwoven fabric is 50 to 90 g/m | 09-29-2011 |
| 20110290526 | FLAT CABLE AND METHOD FOR FABRICATING THE SAME - A flat cable has a plurality of electric wires disposed in parallel, and a fiber member woven to thread through each of the electric wires along a juxtapositional direction of the electric wires. The fiber member is made of a fiber having an elastic recovery rate after elongation of 80% or more and 95% or less. The fiber has an initial modulus of 20 cN/dtex or more and 30 cN/dtex or less. | 12-01-2011 |
| 20120097422 | FLEXIBLE FLAT CABLE AND METHOD OF MANUFACTURING THE SAME - The present invention provides a flexible flat cable having high conductivity and high bending durability, and a method for manufacturing the same. The present invention is a flexible flat cable comprising conductors and insulating films applied over the conductors, wherein the conductor is comprised of at least one additive element selected from the group consisting of magnesium (Mg), zirconium (Zr), niobium (Nb), calcium (Ca), vanadium (V), nickel (Ni), manganese (Mn), titanium (Ti), and chromium (Cr); 2 mass-% or more of oxygen; and the balance being inevitable impurity and copper, wherein the conductor has such a recrystallized texture that the size of crystal grains in the inner area of the conductor is large and that of in the surface area thereof is smaller than that of the inner area, wherein both sides of the conductor are sandwiched between insulating films. | 04-26-2012 |
| 20120181060 | FLEXIBLE FLAT CABLE - A flexible flat cable ( | 07-19-2012 |
| 20120199376 | Flexible flat cable - A flexible flat cable includes a plurality of conductors, a nonwoven fabric layer provided on an outer surface of an insulation layer, and a shield layer provided on the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric having a plurality of recessed portions formed on a surface thereof, the recessed portions being each enclosed by two opposite long sides and two opposite short sides, and the nonwoven fabric has an embossed shape which satisfies the following relation: 2d| 08-09-2012 | |
| 20120205138 | FLEXIBLE FLAT CABLE USING ROUND CONDUCTORS - The present invention relates to a flexible flat cable using round conductors and, more particularly, to the continuous fabrication of flexible flat cables each using round conductors, wherein the terminal unit of the flexible flat cable has a straight angle conductor form. The flexible flat cable using the round conductors according to the present invention comprises the round conductors and an upper base film and a lower base film covering upper and lower parts of the round conductors, wherein the terminal unit of the flexible flat cable is formed of the straight angle conductors formed by processing the round conductors, and the lower base film supporting the straight angle conductors is integrally formed over the entire length of the flexible flat cable. | 08-16-2012 |
| 20120255761 | ADHESIVE FILM AND FLAT CABLE USING SAME - The adhesive film includes an insulating film, an adhesive layer provided over one side of the insulating film, and an anchor coat layer provided between the one side of the insulating film and the adhesive layer. The adhesive layer is a copolymer polyamide resin which is soluble in a solvent at 25 degrees Celsius and has a melting point of 100 degrees Celsius or more and 150 degrees Celsius or less. The anchor coat layer enhances the adhesion between the insulating film and the adhesive layer. | 10-11-2012 |
| 20120267145 | Flat cable and cable harness using same - A flat cable includes a plurality of wires in parallel alignment, and a linear member disposed across the parallel alignment and woven between the plurality of wires. The linear member includes a fibrous member containing poly(trimethylene terephthalate) and a metal layer on a periphery of the fibrous member. A cable harness includes the flat cable, and a connecting terminal connected to an end of the flat cable. | 10-25-2012 |
| 20130000950 | EXTRUDED FLEXIBLE FLAT CABLE - The present invention provides an extruded flexible flat cable, which has a superior formability, flexibility, adhesiveness, and fire-retardancy, with a low manufacturing cost. The flexible flat cable of the present invention is adapted for sliding door of a motor vehicle and also other parts. The extruded flexible flat cable has a conductor covered with an insulation layer extrude-formed with an extrusion molding method. The insulation layer is formed from a fire-retardant resin composition containing a modified polybutylene terephthalate and a fire-retardant additive. The fire-retardant resin composition has a melting point of 170-215 degrees C. measured in reference to JIS K7121 with a differential thermal analysis at a rate of temperature increase of 10 degrees C. per minute. | 01-03-2013 |
| 20130118773 | Z-AXIS CONDUCTIVE ARTICLE AND METHOD OF MAKING THE SAME - A Z-axis conductive article includes an adhesive layer having a first major surface and a second major surface opposite the first major surface. The adhesive layer includes a dielectric pressure-sensitive adhesive and conductive magnetic particles aligned in mutually isolated conductive pathways extending from the first major surface to the second major surface of the adhesive layer. A method of making the same is also disclosed. | 05-16-2013 |
| 20130233590 | ADHESIVE FILM AND FLAT CABLE USING THE SAME - There is provided an adhesive film, comprising: an insulator film; an adhesive layer formed on the insulator film; and an intermediate adhesive layer interposed between the insulator film and the adhesive layer, wherein the intermediate adhesive layer is made of a mixed resin composition of a copolyamide being a crystalline resin solvable in a non-halogen based organic solvent and having a melting point of 100° C. or more and 150° C. or less, and a non-crystalline resin, and the intermediate adhesive layer contains a non-halogen flame retardant by 100 pts.wt. or more and 250 pts.wt. or less with respect to 100 pts.wt. of the mixed resin composition. | 09-12-2013 |
| 20130240243 | ELECTRICAL CABLE ARRANGEMENT - An electrical cable arrangement comprises a first electrical cable ( | 09-19-2013 |
| 20130312999 | FLEXIBLE CIRCUIT CABLE WITH AT LEAST TWO BUNDLED WIRE GROUPS - Disclosed is a flexible circuit cable with at least two bundled wire groups. The circuit cable has first and second ends respectively connected to first and second connection sections. The circuit cable includes a cluster section, which is formed of a plurality of cluster wires formed by slitting the circuit cable, in an extension direction of the cable, at a predetermined cut width. The cluster section includes at least two independent bundles, which are formed by dividing the cluster wires of the circuit cable into different signal groups according to electrical signals transmitted therethrough. Bundling members are used to the cluster wires of the independent bundles according to predetermined bundling modes. Further, the circuit cable has a surface forming a shielding conductive layer for electromagnetic interference protection and impedance control for internal signals of the circuit cable. | 11-28-2013 |
| 20140041896 | MEDIUM PROCESSING DEVICE AND FLEXIBLE CABLE - A medium processing device may include a head which reads or writes data to a recording medium; and a flexible cable which is connected with head. The flexible cable may be formed in a multilayer structure including a data signal layer formed with a data signal pattern and disconnection detecting signal layers which cover a front face and a rear face of the data signal layer and are formed with a disconnection detecting signal pattern. The flexible cable may also include a terminal connecting part formed with a through hole into which a signal terminal of the head is inserted and a terminal covering part turned around so as to cover the terminal connecting part and fixed to the terminal connecting part. | 02-13-2014 |
| 20140060886 | SPACER FOR USE IN A FLAT CABLE - This is directed to a cable for use with an electronic device. The cable can be substantially flat, such that all of the conductive wires of the cable are substantially in the same plane. A spacer can be placed between the wires to ensure that wires conducting signals remain a minimum distance apart to avoid signal degradation. The spacer can also control the bending of the cables to favor bending in a preferred direction while reducing or limiting bending in a less preferred direction. | 03-06-2014 |
| 20140116750 | FLAT CABLE - The invention is provided to a flat cable having a thinner insulating covering while keeping sufficient wear resistance and low temperature resistance. The invention provides a flat cable, which includes at least two conductors disposed apart from each other and in parallel to each other, and an insulating covering disposed over a periphery of the at least two conductors, and formed of vinyl chloride-based resin composition having a brittle temperature of from −40 Celsius degrees to −25 Celsius degrees, an hardness D of from 35 to 55, and heating deformation of 10% or below. | 05-01-2014 |
| 20140131064 | FLAT CABLE AND METHOD FOR PREPARING THE SAME - The objective of the invention is to provide a thin and flexible flat cable suited for being arranged in a narrow space such as a vehicle, as well as, a method for stably preparing such a flat cable. | 05-15-2014 |
| 20140158397 | CABLE - A cable for establishing connection with connectors comprises a plurality of wires parallel and apart from each other, and an insulating structure sandwiching the plurality of wires. The insulating structure comprises a plurality of isolating portions arranged between each of two adjacent wires. Each of the isolating portions comprises a perforated portion. | 06-12-2014 |
| 20140158398 | ADHESIVE RESIN COMPOSITION, ADHESIVE FILM USING THE SAME AND FLAT CABLE - An adhesive resin composition includes 60 to 95 parts by mass of amorphous thermoplastic polyester-based resin (A), 5 to 40 parts by mass of polyphenylene ether-based polymer (B) including a hydroxyl group and a repeating unit of 2,6-dimethylphenylene ether in a molecule thereof, and 60 to 200 parts by mass of a flame retardant per total 100 parts by mass of the amorphous thermoplastic polyester based resin (A) and the polyphenylene ether-based polymer (B). | 06-12-2014 |
| 20140182885 | ELECTRICAL CABLE ASSEMBLY - In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the substrate and a second surface that is opposite the first surface. The drain wire can define a height that is greater than 0.2 mm as measured from the first surface to the second surface along a straight line. | 07-03-2014 |
| 20140262429 | MULTIPLE-CONDUCTOR FLAT CABLE - A multiple-conductor flat cable includes: an analog cable portion formed such that ground signal lines and analog signal lines are alternately arranged side by side across a signal transmission direction and each adjacent pair of the ground signal lines and the analog signal lines are joined while being electrically insulated from each other; and a digital cable portion joined with the analog cable portion while being placed adjacent to the digital cable portion and formed such that digital signal lines are arranged side by side across the signal transmission direction and each adjacent pair of the digital signal lines are joined while being electrically insulated from each other. | 09-18-2014 |
| 20140262430 | Flexible Flat Cable and Method of Manufacturing the Same - A flexible flat cable includes an insulating layer disposed through extrusion in vicinity of a plurality of conductors arrayed in parallel with each other. The insulating layer is composed of a vinyl chloride-based resin composition having a die swell ratio of 1.1 or more at a molding temperature during the extrusion. The molding temperature is between 150° C. to 200° C. with a linear rate of between 50 m/minute to 200 m/minute. A melt tension of the vinyl chloride-based resin composition is 0.02 N to 0.2 N. | 09-18-2014 |
| 20140299354 | CUSTOM CABLE TECHNOLOGY - The embodiments disclose a method including fabricating custom cables using a custom cable technology, wherein the custom cables include a universal flat cable including a plurality of flexible conduits including a plurality of cable pods, an ultra-flat cable and a flat series cable, and wherein the custom cables include reinforced cable jackets, and wherein the custom cables include reduced weight cable jackets including a microcell jacket. | 10-09-2014 |
| 20140299355 | FLAT CABLE AND ELECTRONIC DEVICE - A transmission line section of a flat cable includes a dielectric element including a signal conductor at an intermediate position of a thickness direction, a first ground conductor, and a second ground conductor. The first ground conductor includes elongated conductors that are spaced apart from each other in a width direction of the dielectric element, and extend in a longitudinal direction, and bridge conductors that connect the elongated conductors at spaced points along the longitudinal direction. A widened portion having a width larger than the width of the elongated conductors is located at the intermediate position between bridge conductors that are adjacent to each other along the longitudinal direction. The widened portion is configured to project in a direction in which the elongated conductors are opposed to each other. An interlayer connection conductor is located in the widened portion. The first ground conductor and the second ground conductor are connected by the interlayer connection conductor. | 10-09-2014 |
| 20150008012 | FLAT CABLE - A flat cable includes a dielectric element assembly including a plurality of dielectric layers laminated on each other in a direction of lamination, and a linear signal line provided in the dielectric element assembly. The dielectric element assembly includes at least one section bent in a plurality of places defining a zigzag shape when viewed in a plan view in the direction of lamination. In the zigzag section of the dielectric element assembly, any portions of the dielectric element assembly that are not adjacent across a bending line do not overlap when viewed in a plan view in the direction of lamination. | 01-08-2015 |
| 20150014018 | FLEXIBLE FLAT CABLE FOR LOW VOLTAGE DIFFERENTIAL SIGNALING - Disclosed is a flexible flat cable including an incision section including a cutting line, a connection section including a conductive line exposure end portion, and a transition section to connect the incision section with the connection section. Plural conductive lines are arranged with a pitch interval of 0.5 mm to form one conductive line group, and plural conductive line groups are arranged with an interval of 1.0 mm, such that the cutting line is in a space having the interval of 1.0 mm between the conductive groups. The conductive lines are collected at an end portion side of the incision section in the transition section, and the connection section includes a linear section which the conductive lines extending from an end portion of the transition section extend while being spaced apart from each other with a pitch of 0.5 mm and a conductive line exposure part exposed to an outside. | 01-15-2015 |
| 20150136443 | CABLE WITH MULTIPLE CONDUCTORS EACH HAVING A CONCENTRIC INSULATION LAYER - An electrical transmission cable has at least two wires joined in side-by-side relationship by a web. Each wire has a central conductor surrounded by a single layer of insulation that has an outer surface. A majority of the outer surface of the insulation layer is concentric with the conductor. The web is attached at first and second ends to the outer layers of the insulation of the first and second wires. The web has a neck located intermediate its first and second ends with the neck defining the point of least cross-sectional area of the web. Separation of one wire from the other will cause the web to break at the neck, thereby preventing damage to the insulation layer. Chordal segments of the insulation layer may be used to minimize the width of a multi-wire cable. | 05-21-2015 |
| 20150380126 | METHOD AND DEVICE FOR POSITIONING ELECTRICAL CONDUCTORS, AND CONDUCTOR GROUP - The present invention relates to a method (M | 12-31-2015 |
| 20160049222 | Flexible Transmission Line Assembly - A flexible transmission line assembly, which is connected between two relatively moving means that are movable relative to each other, comprises an abrasion-resistant flexible film and a plurality of transmission lines. The abrasion-resistant flexible film inner surface is surrounded to form a receiving space and is provided with an adhesive. The plurality of transmission lines is provided within the receiving space in a way each transmission line is adjacent to one another in a single row in width directions of the transmission lines, and the adjacent transmission lines being closely contacted with each other. The plurality of transmission lines is adhered with the inner surface of the abrasion-resistant flexible film by means of the adhesive, and the plurality of transmission lines at both ends in a longitudinal direction thereof is formed with a connecting element. | 02-18-2016 |
| 20160049223 | READILY STRIPPABLE CABLE - A readily-strippable cable is herein described having at least two wires encapsulated by a continuous electrically insulating layer wherein each encapsulated wire is connected to an adjacent wire by a relatively thinner portion of the insulating layer, the insulating layer having at least one relatively weak portion per encapsulated wire that extends along the length of the cable and is substantially uniform in position and strength along the length of the cable; and wherein the weak portion is configured to allow the insulating layer to split along the relatively weak portion and down the length of the cable upon separation of the encapsulated wires by application of force against the relatively thinner portion of insulating layer in a direction substantially perpendicular to the length of the cable, thereby exposing the wire without the use of a secondary operation. | 02-18-2016 |
| 20160155539 | READILY STRIPPABLE CABLE | 06-02-2016 |
| 20180025806 | FLEXIBLE FLAT CABLE | 01-25-2018 |
| 20120103657 | HIGH-SPEED CARD CABLE - Techniques described herein generally relate to ground planes. In some examples, an electrical cable is described that can include multiple signal lines. The multiple signal lines can be arranged to extend along a length of the electrical cable. A ground plane can be spaced apart from the multiple signal lines. The ground plane can include a mesh structure and an electrically conductive layer that is arranged to coat the mesh structure. The mesh structure can include multiple resin fibers. | 05-03-2012 |
| 174117000 | Conductor itself is flat | 9 |
| 20100006321 | VIDEO/AUDIO SIGNAL TRANSMISSION CABLE - The present invention disclose a video/audio signal transmission cable comprising a first and a second conducting wires respectively having conductor and insulator, and the first and second conducting wires are neighborly installed, wherein each conductor has a core being made of steel material and being electroplated with a high conductive metal plating layer on the outside surface thereof; a first enclosing layer being made of insulation material is used to enclose the outsides of the first and second conducting wires; and a second enclosing layer being made of insulation material is used to enclose the outside of the first enclosing layer. It is then through the material characteristics of the core and high conducting metal plating layer to have the signal equalization effect during high frequency and low frequency transmissions thereby achieving the better quality and stable transmission effect. | 01-14-2010 |
| 20120273252 | Bus Bar Assembly and Method of Manufacturing Same - A bus bar assembly includes a first main conductor, a second main conductor, and an insulator member provided between the main conductors. The insulator member includes: (i) an insulator component, (ii) a first conductor layer provided on the top surface of the insulator component, and (iii) a second conductor layer provided on the bottom surface of the insulator component, wherein the first conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least a certain distance from the outer edge around the perimeter of the insulator component, wherein the second conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least the same certain distance from the outer edge of the insulator component, and wherein the certain distance is sufficient to cause the bus bar assembly to satisfy the creepage requirement of the assembly. | 11-01-2012 |
| 20120279754 | CONTINUOUSLY TRANSPOSED CONDUCTOR - The present invention relates to a Continuously Transposed Conductor ( | 11-08-2012 |
| 20130199819 | METHOD FOR PRODUCTION OF AN ELECTRICAL WINDING, AND ELECTRICAL CONDUCTOR - A method is specified for production of an electrical winding for an electrical appliance, in which the winding is embedded in a liquid which is used for cooling, A conductor is first of all produced, in which a multiplicity of insulated electrical individual conductors having a rectangular cross section are arranged in at least one stack, with their flat faces resting on one another. Winding material composed of insulating material is wound around the stack in order to produce common insulation, and the conductor is then shaped to form a single-part winding. A winding material in the form of ribbon or strip and composed of a plastic with impressed shape memory is used for winding around, and has a greater length than its original length, with this greater length being produced by stretching. The finishing winding is heated to a temperature at which the winding material becomes shorter in the winding direction. | 08-08-2013 |
| 20130233591 | ELECTRIC WIRE HOLDING STRUCTURE AND ELECTRIC WIRE HOLDING METHOD - An electric wire holding structure includes a plurality of electric wires each including a conductive part provided with a plurality of core wires and an insulating part covering the conductive part. The conductive part includes a rectangular conductive part which is formed at an end of the conductive part to have a rectangular outer shape in a section perpendicular to an extending direction of the electric wires. The rectangular conductive parts of the respective electric wires are bonded together by welding with ultrasonic vibration. The rectangular conductive parts of a plurality of the electric wires are piled in a brick laying manner to be bonded by welding. | 09-12-2013 |
| 20130333918 | WIRE CONSTRUCTS - A method for forming a wire construct includes forming a groove in a polymer having a mouth that is narrower than a width of a deeper portion of the groove and placing a substantial length of wire in the groove, the wire having a larger cross-sectional dimension than the mouth of the groove. Encapsulant is placed over the polymer. The wire construct is to be used for implantable stimulation leads, such as a cochlear stimulation lead or a neurostimulation lead. Two wire constructs can be assembled to form a multilayer wire construct. | 12-19-2013 |
| 20140262431 | MULTI-CABLE BREAKOUT ASSEMBLY - A multi-cable breakout assembly includes: a plurality of cables arranged in a rectangular array of M rows×N columns, wherein M and N are positive whole numbers greater than one; a first sleeve that encircles the plurality of cables; first and second ribbon members, the first ribbon member being threaded through the plurality of cables to separate the cables into M rows; and the second ribbon member being threaded through the plurality of cables to separate the cables into N columns; and a second sleeve that overlies an end of the first sleeve and the first and second ribbon members. | 09-18-2014 |
| 20160189824 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a thermosetting resin formed on the outer periphery thereof, the thermosetting resin having a glass transition temperature of 100° C. or more and 200° C. or less and having a urethane bond; and a layer of a thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20160189826 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a first thermoplastic resin formed on the outer periphery thereof, the first thermoplastic resin being a non-crystalline resin having no melting point or a crystalline resin having an amide bond; and a layer of a second thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20080196924 | LAMINATED BUS BARS AND METHODS OF MANUFACTURE THEREOF - A method of assembling a multilayer bus bar assembly includes coating a dielectric layer with a molten reactive hot-melt adhesive, placing the dielectric layer between first and second subassemblies, wherein the first and second subassemblies comprise a conductive element, adhering the molten reactive hot-melt adhesive to the subassemblies by applying a pressure of at least about one bar to the multilayer bus bar assembly for at least about one minute prior to the adhesive cooling to room temperature to provide a bonding strength between the dielectric material and a selected one of the first and second subassemblies of at least 1500 Newtons on a 25 millimeter by 25 millimeter sample when tested in accordance with ASTM D-1062. | 08-21-2008 |
| 20080245548 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a base, an adhesive layer, and a carbon nanotube layer. The adhesive layer is configured for being sandwiched between the base and the carbon nanotube layer. And a method for making the conductive tape includes the steps of: fabricating at least one carbon nanotube film and an adhesive agent; coating the adhesive agent on a base and drying the adhesive agent on the base so as to form an adhesive layer; and forming a carbon nanotube layer on the adhesive layer and compressing the carbon nanotube layer so as to sandwich the adhesive layer between the carbon nanotube layer and the base. | 10-09-2008 |
| 20080230254 | TRANSMISSION CABLE - A transmission cable and method for manufacturing same are provided. A plurality of signal lines are formed on one side of an insulating layer and ground lines are formed between the signal lines. The ground lines are electrically connected with a shield layer formed on a back surface of the insulating layer through metal bumps formed and embedded in the insulating layer. Insulating layers and shield layers may be formed on opposite sides sandwiching the signal lines and the ground lines. In this case, the ground lines are electrically connected with the shield layers, respectively, through metal bumps on both sides thereof. Consequently, a highly reliable transmission cable capable of high rate transfer and large capacity transfer can be provided. | 09-25-2008 |
| 20080296044 | FLEXIBLE FLAT CABLE - A flat cable includes a plurality of flat cores arranged at an interval, an insulating layer covering integrally each core, and an adhesive sheet. Both surfaces of the insulating layer are provided with a plurality of grooves to correspond to the cores respectively. The distal end of each core extends beyond the insulating layer and each has a connecting portion. Each connecting portion has two flat surfaces. One of the flat surfaces is used for electrical connection, and the other is adhered to the adhesive sheet. The adhesive sheet is adhered from the distal end of each connecting portion to a portion of the insulating layer. Further, an external surface of the adhesive sheet is colored. | 12-04-2008 |
| 20080308295 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a adhesive layer and a plurality of carbon nanotubes. The adhesive layer has a first surface and an opposite second surface. The carbon nanotubes are substantially embedded in parallel in the adhesive layer and perpendicular to the first surface and the second surface. Each of the carbon nanotubes has two opposite ends extending out of the two opposite surfaces of the adhesive layer respectively. Further, a method for making the above-described conductive tape is also included. | 12-18-2008 |
| 20090101388 | FLAT CABLE ASSEMBLY FOR USE IN POWER SUPPLY APPARATUS - A flat cable assembly includes a plurality of power cables and a bonding medium. The plurality of power cables are parallel with each other, wherein every two adjacent power cables are separated from each other. The bonding medium is used for boding every two adjacent power cables together, thereby cooperatively forming the flat cable assembly having a first surface and a second surface. A first gap is formed between the first surface and the bonding medium and a second gap is formed between the second surface and the bonding medium. | 04-23-2009 |
| 20090266578 | FLEX CABLE WITH BIASED NEUTRAL AXIS - Systems and methods for biasing a neutral axis of a flex cable in a hard drive are discussed. The hard drive comprises a flex cable, a read/write head, and a control card. The flex cable comprises a base film, adhesives, a conductive trace, a cover film, and a neutral axis. The neutral axis is configured to be biased so that stresses in the conductive trace are more compressive and less tensile than stresses without a biased neutral axis. | 10-29-2009 |
| 20100084160 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-08-2010 |
| 20130037303 | FLEXIBLE FLAT CABLE - A flexible flat cable, including a plurality of preprocess conductors and a insulating layer, wherein the insulating layer includes upper and lower insulating layers, each of the preprocess conductors has upper and lower faces and an original width, and the upper and lower faces are being flat and attached tightly and closely to the upper and lower insulating layers, respectively. Ends of the preprocess conductors expose out of the insulating layer and are being processed to form a plurality of contact faces, and each of the contact faces has a processed width which is larger than the original width. | 02-14-2013 |
| 20130319727 | APPARATUS AND METHOD FOR AN AIRCRAFT CONDUCTOR SANDWICH ASSEMBLY EMBEDDED TO AN AIRCRAFT STRUCTURE - An aircraft conductor sandwich assembly configured to be embedded in a composite aircraft structure. The conductor sandwich assembly comprises a plurality of carbon conductors disposed between two sheets of insulating layers and an adhesive resin bonding the plurality of carbon conductors and the two sheets of insulating layers into a carbon sandwich assembly such that (i) the conductors are electrically isolated and (ii) structural loads can be passed through said conductor sandwich assembly. | 12-05-2013 |
| 20140027153 | Flexible Electrical Power Cable - An electrical cable has a plurality of generally rectangular cross-section conductors superposed in a stack, the stack surrounded by a polymer jacket. The stack may be provided with a lubrication layer provided between at least two of the conductors. Conductors of the stack may have a thickness that is greater proximate the middle of the stack than at the top and bottom of the stack and/or a width that is less at the top and the bottom than at the middle. Further stacks may also be provided parallel and coplanar with the first stack, also surrounded by the polymer jacket. | 01-30-2014 |
| 20080236868 | ELECTRONIC APPARATUS WITH FLEXIBLE FLAT CABLE FOR HIGH-SPEED SIGNAL TRANSMISSION - According to one embodiment, a flexible flat cable includes a plurality of ground lines and a plurality of signal lines. Each of the ground lines is connected to an electromagnetic shield layer by two connection line members. An arrangement of the ground lines and signal lines that are positioned in a region on one side of a center line of the flexible flat cable and an arrangement of the ground lines and signal lines on a region on the other side are symmetric with respect to the center line. In each of two connectors to which end portions of the flexible flat cable are coupled, terminals corresponding to the ground lines are grounded, a terminal corresponding to a signal line interposed between two ground lines is assigned a high-speed signal, and a terminal corresponding to another signal line is assigned a ground potential. | 10-02-2008 |
| 20080289852 | CABLE ASSEMBLY - A cable assembly is provided including an encapsulated cable having one or more elements and an intermediary section. The encapsulated cable extends along a length direction. The intermediary section extends along the length direction and is attached along a length of the encapsulated cable and extends outwardly therefrom. The intermediary section is configured to receive one or more fasteners for securing the cable assembly to an external surface without the one or more fasteners contacting the one or more elements. | 11-27-2008 |
| 20090000804 | Transmission Cable - A transmission cable is provided and includes multiple signal lines formed on one side of an insulation layer | 01-01-2009 |
| 20090044966 | INDIUM-SOLDER-COATED COPPER FOIL RIBBON CONDUCTOR AND METHOD OF CONNECTING THE SAME - A method for tenaciously connecting a conductor electrode on a glass substrate to a ribbon conductor with certainty at low cost without causing damage. An indium-solder-coated copper foil ribbon conductor | 02-19-2009 |
| 20090133898 | Flexible flat cable with carrier tape and manufacturing method thereof - It is to provide a flexible flat cable with a carrier tape capable of preventing conductors from being bent without increasing the cost of production. | 05-28-2009 |
| 20090159309 | Flat cable and plasma display device - A highly reliable flat cable is disclosed in which a short-circuit between adjacent electrodes due to whisker formation is prevented and the occurrence of contact failure between electrodes due to a foreign particle is prevented. A plasma display using this flat cable is also disclosed. The flat cable comprises a plurality of conductors and a pair of films having adhesive applied on the films so as to sandwich each of the conductors with a predetermined spacing. The conductors on the side of the flat cable or the conductors on the side of a connector electrically connected to the conductors on the side of the flat cable are formed of a lead-free material. Further, at a connecting portion of the flat cable, one of the films ( | 06-25-2009 |
| 20090236122 | Structure for flexible flat cable - The main body of the flexible flat cable of the invention includes a particular quantity of cores and sheath layers. The core includes a plurality of single conductor wires or a plurality of twisted conductor wires compressively combined by top and bottom sheath layers located above and below the core to form a flexible flat cable main body. | 09-24-2009 |
| 20090236123 | PLATED FLAT CONDUCTOR AND FLEXIBLE FLAT CABLE THEREWITH - Disclosed is a plated flat conductor including a flat conductor of copper or a copper alloy and a plated layer formed on a surface of the flat conductor. The plated layer includes a first intermetallic compound layer of Cu | 09-24-2009 |
| 20090260850 | Flexible flat cable assembly with improved grounding structure - A cable connector assembly includes a housing, a flexible substrate, at least one matching stratum attached on the flexible substrate for regulating the impedance of flexible substrate and a shell. The housing includes a receiving space. The flexible substrate is received in the receiving space of the housing and includes a plurality of golden fingers exposed out the housing. The shell covers the flexible substrate without the golden fingers, the matching stratum and the housing and includes a connecting element electrically connected to the matching stratum. | 10-22-2009 |
| 20090301755 | FLAT CABLE FOR MOUNTED DISPLAY DEVICES - A flat high definition multimedia interface (HDMI) cable. The flat cable that is less visible in comparison to a round HDMI cable for wall mounted television setup. An HDMI connector is coupled to the flat cable. An active circuit isolates physical characteristics of the HDMI connector. The active circuit causes the flat cable to appear shorter than its actual length during HDMI compliance testing using impedance testing. Moreover, the active circuit causes a consumer electronic control (CEC) line, a display data channel (DDC) line and transition minimized differential signal (TMDS) line to actively terminate for reducing parasitic capacitance from the length of the flat cable during HDMI compliance testing. Thus, the isolation allows the flat cable to satisfy HDMI compliant testing. The flat cable may be selected from a group consisting of ribbon cable, twisted pair cable, flexible printed circuit board, micro coax cable, optical cable and glass fiber cable. | 12-10-2009 |
| 20090314516 | Flexible Signal Transmission Module and Manufacturing Method Thereof - A flexible signal transmission module and a manufacturing method thereof are provided. The flexible signal transmission module includes a first connector, a first transmission strip, and a second transmission strip. The first and second transmission strips are respectively connected to the first connector and disposed side by side. The ends of the first and second transmission strips which connect to the first connector respectively have a first end folding line. The first and second transmission strips respectively folded along the first end folding lines toward a same direction while the folding portions of both strips partially overlap. The manufacturing method includes the following steps: disposing a plurality of transmission strips side by side; connecting the transmission strips to a first connector; and respectively folding the transmission strips along the first end folding lines toward a same direction. | 12-24-2009 |
| 20100018746 | MULTI CONDUCTOR CABLE FOR A PORTABLE ELECTRIC TOOL - A multi conductor flat type cable, which is intended for connecting a portable electric power tool to a stationary power supply and operation control unit, has a connector plug ( | 01-28-2010 |
| 20100089610 | FLAT CABLE - A very thin flat cable ( | 04-15-2010 |
| 20100193216 | POWER SUPPLY APPARATUS FOR SLIDING DOOR - A power supply apparatus for sliding door includes a flat cable for electrically connecting devices on a side of vehicle body to the devices on a side of a sliding door mounted on the vehicle body so as to be able to be slid, a vehicle body side fixing portion for fixing the flat cable on the vehicle body; and a door side fixing portion for fixing the flat cable on the sliding door, wherein the flat cable is extracted from the vehicle body side fixing portion and the door side fixing portion in the substantially same direction which is substantially parallel to the sliding directions of the sliding door, and the width direction of the flat cable is maintained to be substantially vertical. | 08-05-2010 |
| 20100243292 | METHOD FOR FUSING INSULATED WIRES, AND FUSED WIRES PRODUCED BY SUCH METHOD - A method for fusing a pair of insulated wires to one another, and a fused wire made by such method, in which the combined or major diameter of the fused wire equals, or very closely matches, the sum of the diameters of the individual wires prior to fusion. In the present method, a pair of wires, each having a coating of insulation that is substantially fully cured, are brought into close abutting contact with one another along a line contact, and thereafter pass through a heating device which heats the coatings above their a thermal transition point of at least one of the pair of wires to fuse the coatings of the wires together along the line contact. | 09-30-2010 |
| 20100243293 | CABLE WIRING STRUCTURE OF SLIDING-TYPE ELECTRONIC APPARATUS, AND ELECTRONIC APPARATUS WIRING HARNESS - A cable wiring structure of a sliding-type electronic apparatus is provided which includes a plurality of casings with circuits attached to be movable relatively to each other wherein the circuits within the casings are electrically connected to each other by an electronic apparatus wiring harness. The electronic apparatus wiring harness has a cable laminated portion in which a plurality of micro two-core parallel coaxial cables are laminated, and the cable laminated portion is wired in a U shape when viewed from slide surfaces of the casings. | 09-30-2010 |
| 20110036615 | FLEXIBLE FLAT CIRCUITRY - A transmission line is made from FFC and has an elongated support base with opposing top and bottom sides. The support base has a plurality of conductive traces arranged on both of its side with the traces on one of the support base sides being arranged in pairs of signal traces, and specifically pairs of differential signal traces. The traces which are arranged on the other side of the support base include ground traces, each of which preferably has a width that is greater than the combined width of two signal traces that make up a signal pair. Each of the ground traces are aligned with a pair of signal traces. | 02-17-2011 |
| 20110056729 | INSULATED CONDUCTIVE ELEMENT HAVING A SUBSTANTIALLY CONTINUOUS BARRIER LAYER FORMED THROUGH CONTINUOUS VAPOR DEPOSITION - A continuous vapor deposition system for coating an elongate, uncoated conductive element with a substantially continuous barrier layer. The system comprises an internal deposition chamber configured to have a section of the conductive element extend there through; a vapor supply system connected to the internal deposition chamber configured to provide a barrier material to the internal deposition chamber, wherein the barrier material is deposited on the section of the conductive within the internal deposition chamber to form a substantially continuous barrier layer; and a guide system positioned adjacent to the first deposition chamber configured to maintain tension in the section of the conductive element in the internal deposition chamber to control movement of the conductive element through the internal deposition chamber. | 03-10-2011 |
| 20110114363 | Motor Vehicle Conductor Connection Element - Motor vehicle conductor connection element | 05-19-2011 |
| 20110120748 | WIRING COMPONENT - A wiring component includes an array of multiple wires, at least one connector which engages the wires, and at least two layers of a hardened fiber and a filler compound that sandwiches the wires. The areas adjacent to the wires include a filler which immobilizes the wires relative to the layers. In one embodiment at least a portion of the connector is embedded in the filler. | 05-26-2011 |
| 20110232938 | FLEXIBLE FLAT CABLE - A flexible flat cable includes a plurality of conductors arranged parallel at predetermined intervals, an insulation layer covering both sides of each of the plurality of conductors, a nonwoven fabric layer on an outer surface of the insulation layer, and a shield layer on an outer surface of the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric including a layer including a first fiber thread with a predetermined outer diameter and a second fiber thread with an outer diameter larger than that of the first fiber thread. A basis weight of the nonwoven fabric is 50 to 90 g/m | 09-29-2011 |
| 20110290526 | FLAT CABLE AND METHOD FOR FABRICATING THE SAME - A flat cable has a plurality of electric wires disposed in parallel, and a fiber member woven to thread through each of the electric wires along a juxtapositional direction of the electric wires. The fiber member is made of a fiber having an elastic recovery rate after elongation of 80% or more and 95% or less. The fiber has an initial modulus of 20 cN/dtex or more and 30 cN/dtex or less. | 12-01-2011 |
| 20120097422 | FLEXIBLE FLAT CABLE AND METHOD OF MANUFACTURING THE SAME - The present invention provides a flexible flat cable having high conductivity and high bending durability, and a method for manufacturing the same. The present invention is a flexible flat cable comprising conductors and insulating films applied over the conductors, wherein the conductor is comprised of at least one additive element selected from the group consisting of magnesium (Mg), zirconium (Zr), niobium (Nb), calcium (Ca), vanadium (V), nickel (Ni), manganese (Mn), titanium (Ti), and chromium (Cr); 2 mass-% or more of oxygen; and the balance being inevitable impurity and copper, wherein the conductor has such a recrystallized texture that the size of crystal grains in the inner area of the conductor is large and that of in the surface area thereof is smaller than that of the inner area, wherein both sides of the conductor are sandwiched between insulating films. | 04-26-2012 |
| 20120181060 | FLEXIBLE FLAT CABLE - A flexible flat cable ( | 07-19-2012 |
| 20120199376 | Flexible flat cable - A flexible flat cable includes a plurality of conductors, a nonwoven fabric layer provided on an outer surface of an insulation layer, and a shield layer provided on the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric having a plurality of recessed portions formed on a surface thereof, the recessed portions being each enclosed by two opposite long sides and two opposite short sides, and the nonwoven fabric has an embossed shape which satisfies the following relation: 2d| 08-09-2012 | |
| 20120205138 | FLEXIBLE FLAT CABLE USING ROUND CONDUCTORS - The present invention relates to a flexible flat cable using round conductors and, more particularly, to the continuous fabrication of flexible flat cables each using round conductors, wherein the terminal unit of the flexible flat cable has a straight angle conductor form. The flexible flat cable using the round conductors according to the present invention comprises the round conductors and an upper base film and a lower base film covering upper and lower parts of the round conductors, wherein the terminal unit of the flexible flat cable is formed of the straight angle conductors formed by processing the round conductors, and the lower base film supporting the straight angle conductors is integrally formed over the entire length of the flexible flat cable. | 08-16-2012 |
| 20120255761 | ADHESIVE FILM AND FLAT CABLE USING SAME - The adhesive film includes an insulating film, an adhesive layer provided over one side of the insulating film, and an anchor coat layer provided between the one side of the insulating film and the adhesive layer. The adhesive layer is a copolymer polyamide resin which is soluble in a solvent at 25 degrees Celsius and has a melting point of 100 degrees Celsius or more and 150 degrees Celsius or less. The anchor coat layer enhances the adhesion between the insulating film and the adhesive layer. | 10-11-2012 |
| 20120267145 | Flat cable and cable harness using same - A flat cable includes a plurality of wires in parallel alignment, and a linear member disposed across the parallel alignment and woven between the plurality of wires. The linear member includes a fibrous member containing poly(trimethylene terephthalate) and a metal layer on a periphery of the fibrous member. A cable harness includes the flat cable, and a connecting terminal connected to an end of the flat cable. | 10-25-2012 |
| 20130000950 | EXTRUDED FLEXIBLE FLAT CABLE - The present invention provides an extruded flexible flat cable, which has a superior formability, flexibility, adhesiveness, and fire-retardancy, with a low manufacturing cost. The flexible flat cable of the present invention is adapted for sliding door of a motor vehicle and also other parts. The extruded flexible flat cable has a conductor covered with an insulation layer extrude-formed with an extrusion molding method. The insulation layer is formed from a fire-retardant resin composition containing a modified polybutylene terephthalate and a fire-retardant additive. The fire-retardant resin composition has a melting point of 170-215 degrees C. measured in reference to JIS K7121 with a differential thermal analysis at a rate of temperature increase of 10 degrees C. per minute. | 01-03-2013 |
| 20130118773 | Z-AXIS CONDUCTIVE ARTICLE AND METHOD OF MAKING THE SAME - A Z-axis conductive article includes an adhesive layer having a first major surface and a second major surface opposite the first major surface. The adhesive layer includes a dielectric pressure-sensitive adhesive and conductive magnetic particles aligned in mutually isolated conductive pathways extending from the first major surface to the second major surface of the adhesive layer. A method of making the same is also disclosed. | 05-16-2013 |
| 20130233590 | ADHESIVE FILM AND FLAT CABLE USING THE SAME - There is provided an adhesive film, comprising: an insulator film; an adhesive layer formed on the insulator film; and an intermediate adhesive layer interposed between the insulator film and the adhesive layer, wherein the intermediate adhesive layer is made of a mixed resin composition of a copolyamide being a crystalline resin solvable in a non-halogen based organic solvent and having a melting point of 100° C. or more and 150° C. or less, and a non-crystalline resin, and the intermediate adhesive layer contains a non-halogen flame retardant by 100 pts.wt. or more and 250 pts.wt. or less with respect to 100 pts.wt. of the mixed resin composition. | 09-12-2013 |
| 20130240243 | ELECTRICAL CABLE ARRANGEMENT - An electrical cable arrangement comprises a first electrical cable ( | 09-19-2013 |
| 20130312999 | FLEXIBLE CIRCUIT CABLE WITH AT LEAST TWO BUNDLED WIRE GROUPS - Disclosed is a flexible circuit cable with at least two bundled wire groups. The circuit cable has first and second ends respectively connected to first and second connection sections. The circuit cable includes a cluster section, which is formed of a plurality of cluster wires formed by slitting the circuit cable, in an extension direction of the cable, at a predetermined cut width. The cluster section includes at least two independent bundles, which are formed by dividing the cluster wires of the circuit cable into different signal groups according to electrical signals transmitted therethrough. Bundling members are used to the cluster wires of the independent bundles according to predetermined bundling modes. Further, the circuit cable has a surface forming a shielding conductive layer for electromagnetic interference protection and impedance control for internal signals of the circuit cable. | 11-28-2013 |
| 20140041896 | MEDIUM PROCESSING DEVICE AND FLEXIBLE CABLE - A medium processing device may include a head which reads or writes data to a recording medium; and a flexible cable which is connected with head. The flexible cable may be formed in a multilayer structure including a data signal layer formed with a data signal pattern and disconnection detecting signal layers which cover a front face and a rear face of the data signal layer and are formed with a disconnection detecting signal pattern. The flexible cable may also include a terminal connecting part formed with a through hole into which a signal terminal of the head is inserted and a terminal covering part turned around so as to cover the terminal connecting part and fixed to the terminal connecting part. | 02-13-2014 |
| 20140060886 | SPACER FOR USE IN A FLAT CABLE - This is directed to a cable for use with an electronic device. The cable can be substantially flat, such that all of the conductive wires of the cable are substantially in the same plane. A spacer can be placed between the wires to ensure that wires conducting signals remain a minimum distance apart to avoid signal degradation. The spacer can also control the bending of the cables to favor bending in a preferred direction while reducing or limiting bending in a less preferred direction. | 03-06-2014 |
| 20140116750 | FLAT CABLE - The invention is provided to a flat cable having a thinner insulating covering while keeping sufficient wear resistance and low temperature resistance. The invention provides a flat cable, which includes at least two conductors disposed apart from each other and in parallel to each other, and an insulating covering disposed over a periphery of the at least two conductors, and formed of vinyl chloride-based resin composition having a brittle temperature of from −40 Celsius degrees to −25 Celsius degrees, an hardness D of from 35 to 55, and heating deformation of 10% or below. | 05-01-2014 |
| 20140131064 | FLAT CABLE AND METHOD FOR PREPARING THE SAME - The objective of the invention is to provide a thin and flexible flat cable suited for being arranged in a narrow space such as a vehicle, as well as, a method for stably preparing such a flat cable. | 05-15-2014 |
| 20140158397 | CABLE - A cable for establishing connection with connectors comprises a plurality of wires parallel and apart from each other, and an insulating structure sandwiching the plurality of wires. The insulating structure comprises a plurality of isolating portions arranged between each of two adjacent wires. Each of the isolating portions comprises a perforated portion. | 06-12-2014 |
| 20140158398 | ADHESIVE RESIN COMPOSITION, ADHESIVE FILM USING THE SAME AND FLAT CABLE - An adhesive resin composition includes 60 to 95 parts by mass of amorphous thermoplastic polyester-based resin (A), 5 to 40 parts by mass of polyphenylene ether-based polymer (B) including a hydroxyl group and a repeating unit of 2,6-dimethylphenylene ether in a molecule thereof, and 60 to 200 parts by mass of a flame retardant per total 100 parts by mass of the amorphous thermoplastic polyester based resin (A) and the polyphenylene ether-based polymer (B). | 06-12-2014 |
| 20140182885 | ELECTRICAL CABLE ASSEMBLY - In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the substrate and a second surface that is opposite the first surface. The drain wire can define a height that is greater than 0.2 mm as measured from the first surface to the second surface along a straight line. | 07-03-2014 |
| 20140262429 | MULTIPLE-CONDUCTOR FLAT CABLE - A multiple-conductor flat cable includes: an analog cable portion formed such that ground signal lines and analog signal lines are alternately arranged side by side across a signal transmission direction and each adjacent pair of the ground signal lines and the analog signal lines are joined while being electrically insulated from each other; and a digital cable portion joined with the analog cable portion while being placed adjacent to the digital cable portion and formed such that digital signal lines are arranged side by side across the signal transmission direction and each adjacent pair of the digital signal lines are joined while being electrically insulated from each other. | 09-18-2014 |
| 20140262430 | Flexible Flat Cable and Method of Manufacturing the Same - A flexible flat cable includes an insulating layer disposed through extrusion in vicinity of a plurality of conductors arrayed in parallel with each other. The insulating layer is composed of a vinyl chloride-based resin composition having a die swell ratio of 1.1 or more at a molding temperature during the extrusion. The molding temperature is between 150° C. to 200° C. with a linear rate of between 50 m/minute to 200 m/minute. A melt tension of the vinyl chloride-based resin composition is 0.02 N to 0.2 N. | 09-18-2014 |
| 20140299354 | CUSTOM CABLE TECHNOLOGY - The embodiments disclose a method including fabricating custom cables using a custom cable technology, wherein the custom cables include a universal flat cable including a plurality of flexible conduits including a plurality of cable pods, an ultra-flat cable and a flat series cable, and wherein the custom cables include reinforced cable jackets, and wherein the custom cables include reduced weight cable jackets including a microcell jacket. | 10-09-2014 |
| 20140299355 | FLAT CABLE AND ELECTRONIC DEVICE - A transmission line section of a flat cable includes a dielectric element including a signal conductor at an intermediate position of a thickness direction, a first ground conductor, and a second ground conductor. The first ground conductor includes elongated conductors that are spaced apart from each other in a width direction of the dielectric element, and extend in a longitudinal direction, and bridge conductors that connect the elongated conductors at spaced points along the longitudinal direction. A widened portion having a width larger than the width of the elongated conductors is located at the intermediate position between bridge conductors that are adjacent to each other along the longitudinal direction. The widened portion is configured to project in a direction in which the elongated conductors are opposed to each other. An interlayer connection conductor is located in the widened portion. The first ground conductor and the second ground conductor are connected by the interlayer connection conductor. | 10-09-2014 |
| 20150008012 | FLAT CABLE - A flat cable includes a dielectric element assembly including a plurality of dielectric layers laminated on each other in a direction of lamination, and a linear signal line provided in the dielectric element assembly. The dielectric element assembly includes at least one section bent in a plurality of places defining a zigzag shape when viewed in a plan view in the direction of lamination. In the zigzag section of the dielectric element assembly, any portions of the dielectric element assembly that are not adjacent across a bending line do not overlap when viewed in a plan view in the direction of lamination. | 01-08-2015 |
| 20150014018 | FLEXIBLE FLAT CABLE FOR LOW VOLTAGE DIFFERENTIAL SIGNALING - Disclosed is a flexible flat cable including an incision section including a cutting line, a connection section including a conductive line exposure end portion, and a transition section to connect the incision section with the connection section. Plural conductive lines are arranged with a pitch interval of 0.5 mm to form one conductive line group, and plural conductive line groups are arranged with an interval of 1.0 mm, such that the cutting line is in a space having the interval of 1.0 mm between the conductive groups. The conductive lines are collected at an end portion side of the incision section in the transition section, and the connection section includes a linear section which the conductive lines extending from an end portion of the transition section extend while being spaced apart from each other with a pitch of 0.5 mm and a conductive line exposure part exposed to an outside. | 01-15-2015 |
| 20150136443 | CABLE WITH MULTIPLE CONDUCTORS EACH HAVING A CONCENTRIC INSULATION LAYER - An electrical transmission cable has at least two wires joined in side-by-side relationship by a web. Each wire has a central conductor surrounded by a single layer of insulation that has an outer surface. A majority of the outer surface of the insulation layer is concentric with the conductor. The web is attached at first and second ends to the outer layers of the insulation of the first and second wires. The web has a neck located intermediate its first and second ends with the neck defining the point of least cross-sectional area of the web. Separation of one wire from the other will cause the web to break at the neck, thereby preventing damage to the insulation layer. Chordal segments of the insulation layer may be used to minimize the width of a multi-wire cable. | 05-21-2015 |
| 20150380126 | METHOD AND DEVICE FOR POSITIONING ELECTRICAL CONDUCTORS, AND CONDUCTOR GROUP - The present invention relates to a method (M | 12-31-2015 |
| 20160049222 | Flexible Transmission Line Assembly - A flexible transmission line assembly, which is connected between two relatively moving means that are movable relative to each other, comprises an abrasion-resistant flexible film and a plurality of transmission lines. The abrasion-resistant flexible film inner surface is surrounded to form a receiving space and is provided with an adhesive. The plurality of transmission lines is provided within the receiving space in a way each transmission line is adjacent to one another in a single row in width directions of the transmission lines, and the adjacent transmission lines being closely contacted with each other. The plurality of transmission lines is adhered with the inner surface of the abrasion-resistant flexible film by means of the adhesive, and the plurality of transmission lines at both ends in a longitudinal direction thereof is formed with a connecting element. | 02-18-2016 |
| 20160049223 | READILY STRIPPABLE CABLE - A readily-strippable cable is herein described having at least two wires encapsulated by a continuous electrically insulating layer wherein each encapsulated wire is connected to an adjacent wire by a relatively thinner portion of the insulating layer, the insulating layer having at least one relatively weak portion per encapsulated wire that extends along the length of the cable and is substantially uniform in position and strength along the length of the cable; and wherein the weak portion is configured to allow the insulating layer to split along the relatively weak portion and down the length of the cable upon separation of the encapsulated wires by application of force against the relatively thinner portion of insulating layer in a direction substantially perpendicular to the length of the cable, thereby exposing the wire without the use of a secondary operation. | 02-18-2016 |
| 20160155539 | READILY STRIPPABLE CABLE | 06-02-2016 |
| 20180025806 | FLEXIBLE FLAT CABLE | 01-25-2018 |
| 20120103657 | HIGH-SPEED CARD CABLE - Techniques described herein generally relate to ground planes. In some examples, an electrical cable is described that can include multiple signal lines. The multiple signal lines can be arranged to extend along a length of the electrical cable. A ground plane can be spaced apart from the multiple signal lines. The ground plane can include a mesh structure and an electrically conductive layer that is arranged to coat the mesh structure. The mesh structure can include multiple resin fibers. | 05-03-2012 |
| 174117000 | Mesh | 1 |
| 20100006321 | VIDEO/AUDIO SIGNAL TRANSMISSION CABLE - The present invention disclose a video/audio signal transmission cable comprising a first and a second conducting wires respectively having conductor and insulator, and the first and second conducting wires are neighborly installed, wherein each conductor has a core being made of steel material and being electroplated with a high conductive metal plating layer on the outside surface thereof; a first enclosing layer being made of insulation material is used to enclose the outsides of the first and second conducting wires; and a second enclosing layer being made of insulation material is used to enclose the outside of the first enclosing layer. It is then through the material characteristics of the core and high conducting metal plating layer to have the signal equalization effect during high frequency and low frequency transmissions thereby achieving the better quality and stable transmission effect. | 01-14-2010 |
| 20120273252 | Bus Bar Assembly and Method of Manufacturing Same - A bus bar assembly includes a first main conductor, a second main conductor, and an insulator member provided between the main conductors. The insulator member includes: (i) an insulator component, (ii) a first conductor layer provided on the top surface of the insulator component, and (iii) a second conductor layer provided on the bottom surface of the insulator component, wherein the first conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least a certain distance from the outer edge around the perimeter of the insulator component, wherein the second conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least the same certain distance from the outer edge of the insulator component, and wherein the certain distance is sufficient to cause the bus bar assembly to satisfy the creepage requirement of the assembly. | 11-01-2012 |
| 20120279754 | CONTINUOUSLY TRANSPOSED CONDUCTOR - The present invention relates to a Continuously Transposed Conductor ( | 11-08-2012 |
| 20130199819 | METHOD FOR PRODUCTION OF AN ELECTRICAL WINDING, AND ELECTRICAL CONDUCTOR - A method is specified for production of an electrical winding for an electrical appliance, in which the winding is embedded in a liquid which is used for cooling, A conductor is first of all produced, in which a multiplicity of insulated electrical individual conductors having a rectangular cross section are arranged in at least one stack, with their flat faces resting on one another. Winding material composed of insulating material is wound around the stack in order to produce common insulation, and the conductor is then shaped to form a single-part winding. A winding material in the form of ribbon or strip and composed of a plastic with impressed shape memory is used for winding around, and has a greater length than its original length, with this greater length being produced by stretching. The finishing winding is heated to a temperature at which the winding material becomes shorter in the winding direction. | 08-08-2013 |
| 20130233591 | ELECTRIC WIRE HOLDING STRUCTURE AND ELECTRIC WIRE HOLDING METHOD - An electric wire holding structure includes a plurality of electric wires each including a conductive part provided with a plurality of core wires and an insulating part covering the conductive part. The conductive part includes a rectangular conductive part which is formed at an end of the conductive part to have a rectangular outer shape in a section perpendicular to an extending direction of the electric wires. The rectangular conductive parts of the respective electric wires are bonded together by welding with ultrasonic vibration. The rectangular conductive parts of a plurality of the electric wires are piled in a brick laying manner to be bonded by welding. | 09-12-2013 |
| 20130333918 | WIRE CONSTRUCTS - A method for forming a wire construct includes forming a groove in a polymer having a mouth that is narrower than a width of a deeper portion of the groove and placing a substantial length of wire in the groove, the wire having a larger cross-sectional dimension than the mouth of the groove. Encapsulant is placed over the polymer. The wire construct is to be used for implantable stimulation leads, such as a cochlear stimulation lead or a neurostimulation lead. Two wire constructs can be assembled to form a multilayer wire construct. | 12-19-2013 |
| 20140262431 | MULTI-CABLE BREAKOUT ASSEMBLY - A multi-cable breakout assembly includes: a plurality of cables arranged in a rectangular array of M rows×N columns, wherein M and N are positive whole numbers greater than one; a first sleeve that encircles the plurality of cables; first and second ribbon members, the first ribbon member being threaded through the plurality of cables to separate the cables into M rows; and the second ribbon member being threaded through the plurality of cables to separate the cables into N columns; and a second sleeve that overlies an end of the first sleeve and the first and second ribbon members. | 09-18-2014 |
| 20160189824 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a thermosetting resin formed on the outer periphery thereof, the thermosetting resin having a glass transition temperature of 100° C. or more and 200° C. or less and having a urethane bond; and a layer of a thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20160189826 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a first thermoplastic resin formed on the outer periphery thereof, the first thermoplastic resin being a non-crystalline resin having no melting point or a crystalline resin having an amide bond; and a layer of a second thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20080196924 | LAMINATED BUS BARS AND METHODS OF MANUFACTURE THEREOF - A method of assembling a multilayer bus bar assembly includes coating a dielectric layer with a molten reactive hot-melt adhesive, placing the dielectric layer between first and second subassemblies, wherein the first and second subassemblies comprise a conductive element, adhering the molten reactive hot-melt adhesive to the subassemblies by applying a pressure of at least about one bar to the multilayer bus bar assembly for at least about one minute prior to the adhesive cooling to room temperature to provide a bonding strength between the dielectric material and a selected one of the first and second subassemblies of at least 1500 Newtons on a 25 millimeter by 25 millimeter sample when tested in accordance with ASTM D-1062. | 08-21-2008 |
| 20080245548 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a base, an adhesive layer, and a carbon nanotube layer. The adhesive layer is configured for being sandwiched between the base and the carbon nanotube layer. And a method for making the conductive tape includes the steps of: fabricating at least one carbon nanotube film and an adhesive agent; coating the adhesive agent on a base and drying the adhesive agent on the base so as to form an adhesive layer; and forming a carbon nanotube layer on the adhesive layer and compressing the carbon nanotube layer so as to sandwich the adhesive layer between the carbon nanotube layer and the base. | 10-09-2008 |
| 20080230254 | TRANSMISSION CABLE - A transmission cable and method for manufacturing same are provided. A plurality of signal lines are formed on one side of an insulating layer and ground lines are formed between the signal lines. The ground lines are electrically connected with a shield layer formed on a back surface of the insulating layer through metal bumps formed and embedded in the insulating layer. Insulating layers and shield layers may be formed on opposite sides sandwiching the signal lines and the ground lines. In this case, the ground lines are electrically connected with the shield layers, respectively, through metal bumps on both sides thereof. Consequently, a highly reliable transmission cable capable of high rate transfer and large capacity transfer can be provided. | 09-25-2008 |
| 20080296044 | FLEXIBLE FLAT CABLE - A flat cable includes a plurality of flat cores arranged at an interval, an insulating layer covering integrally each core, and an adhesive sheet. Both surfaces of the insulating layer are provided with a plurality of grooves to correspond to the cores respectively. The distal end of each core extends beyond the insulating layer and each has a connecting portion. Each connecting portion has two flat surfaces. One of the flat surfaces is used for electrical connection, and the other is adhered to the adhesive sheet. The adhesive sheet is adhered from the distal end of each connecting portion to a portion of the insulating layer. Further, an external surface of the adhesive sheet is colored. | 12-04-2008 |
| 20080308295 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a adhesive layer and a plurality of carbon nanotubes. The adhesive layer has a first surface and an opposite second surface. The carbon nanotubes are substantially embedded in parallel in the adhesive layer and perpendicular to the first surface and the second surface. Each of the carbon nanotubes has two opposite ends extending out of the two opposite surfaces of the adhesive layer respectively. Further, a method for making the above-described conductive tape is also included. | 12-18-2008 |
| 20090101388 | FLAT CABLE ASSEMBLY FOR USE IN POWER SUPPLY APPARATUS - A flat cable assembly includes a plurality of power cables and a bonding medium. The plurality of power cables are parallel with each other, wherein every two adjacent power cables are separated from each other. The bonding medium is used for boding every two adjacent power cables together, thereby cooperatively forming the flat cable assembly having a first surface and a second surface. A first gap is formed between the first surface and the bonding medium and a second gap is formed between the second surface and the bonding medium. | 04-23-2009 |
| 20090266578 | FLEX CABLE WITH BIASED NEUTRAL AXIS - Systems and methods for biasing a neutral axis of a flex cable in a hard drive are discussed. The hard drive comprises a flex cable, a read/write head, and a control card. The flex cable comprises a base film, adhesives, a conductive trace, a cover film, and a neutral axis. The neutral axis is configured to be biased so that stresses in the conductive trace are more compressive and less tensile than stresses without a biased neutral axis. | 10-29-2009 |
| 20100084160 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-08-2010 |
| 20130037303 | FLEXIBLE FLAT CABLE - A flexible flat cable, including a plurality of preprocess conductors and a insulating layer, wherein the insulating layer includes upper and lower insulating layers, each of the preprocess conductors has upper and lower faces and an original width, and the upper and lower faces are being flat and attached tightly and closely to the upper and lower insulating layers, respectively. Ends of the preprocess conductors expose out of the insulating layer and are being processed to form a plurality of contact faces, and each of the contact faces has a processed width which is larger than the original width. | 02-14-2013 |
| 20130319727 | APPARATUS AND METHOD FOR AN AIRCRAFT CONDUCTOR SANDWICH ASSEMBLY EMBEDDED TO AN AIRCRAFT STRUCTURE - An aircraft conductor sandwich assembly configured to be embedded in a composite aircraft structure. The conductor sandwich assembly comprises a plurality of carbon conductors disposed between two sheets of insulating layers and an adhesive resin bonding the plurality of carbon conductors and the two sheets of insulating layers into a carbon sandwich assembly such that (i) the conductors are electrically isolated and (ii) structural loads can be passed through said conductor sandwich assembly. | 12-05-2013 |
| 20140027153 | Flexible Electrical Power Cable - An electrical cable has a plurality of generally rectangular cross-section conductors superposed in a stack, the stack surrounded by a polymer jacket. The stack may be provided with a lubrication layer provided between at least two of the conductors. Conductors of the stack may have a thickness that is greater proximate the middle of the stack than at the top and bottom of the stack and/or a width that is less at the top and the bottom than at the middle. Further stacks may also be provided parallel and coplanar with the first stack, also surrounded by the polymer jacket. | 01-30-2014 |
| 20080236868 | ELECTRONIC APPARATUS WITH FLEXIBLE FLAT CABLE FOR HIGH-SPEED SIGNAL TRANSMISSION - According to one embodiment, a flexible flat cable includes a plurality of ground lines and a plurality of signal lines. Each of the ground lines is connected to an electromagnetic shield layer by two connection line members. An arrangement of the ground lines and signal lines that are positioned in a region on one side of a center line of the flexible flat cable and an arrangement of the ground lines and signal lines on a region on the other side are symmetric with respect to the center line. In each of two connectors to which end portions of the flexible flat cable are coupled, terminals corresponding to the ground lines are grounded, a terminal corresponding to a signal line interposed between two ground lines is assigned a high-speed signal, and a terminal corresponding to another signal line is assigned a ground potential. | 10-02-2008 |
| 20080289852 | CABLE ASSEMBLY - A cable assembly is provided including an encapsulated cable having one or more elements and an intermediary section. The encapsulated cable extends along a length direction. The intermediary section extends along the length direction and is attached along a length of the encapsulated cable and extends outwardly therefrom. The intermediary section is configured to receive one or more fasteners for securing the cable assembly to an external surface without the one or more fasteners contacting the one or more elements. | 11-27-2008 |
| 20090000804 | Transmission Cable - A transmission cable is provided and includes multiple signal lines formed on one side of an insulation layer | 01-01-2009 |
| 20090044966 | INDIUM-SOLDER-COATED COPPER FOIL RIBBON CONDUCTOR AND METHOD OF CONNECTING THE SAME - A method for tenaciously connecting a conductor electrode on a glass substrate to a ribbon conductor with certainty at low cost without causing damage. An indium-solder-coated copper foil ribbon conductor | 02-19-2009 |
| 20090133898 | Flexible flat cable with carrier tape and manufacturing method thereof - It is to provide a flexible flat cable with a carrier tape capable of preventing conductors from being bent without increasing the cost of production. | 05-28-2009 |
| 20090159309 | Flat cable and plasma display device - A highly reliable flat cable is disclosed in which a short-circuit between adjacent electrodes due to whisker formation is prevented and the occurrence of contact failure between electrodes due to a foreign particle is prevented. A plasma display using this flat cable is also disclosed. The flat cable comprises a plurality of conductors and a pair of films having adhesive applied on the films so as to sandwich each of the conductors with a predetermined spacing. The conductors on the side of the flat cable or the conductors on the side of a connector electrically connected to the conductors on the side of the flat cable are formed of a lead-free material. Further, at a connecting portion of the flat cable, one of the films ( | 06-25-2009 |
| 20090236122 | Structure for flexible flat cable - The main body of the flexible flat cable of the invention includes a particular quantity of cores and sheath layers. The core includes a plurality of single conductor wires or a plurality of twisted conductor wires compressively combined by top and bottom sheath layers located above and below the core to form a flexible flat cable main body. | 09-24-2009 |
| 20090236123 | PLATED FLAT CONDUCTOR AND FLEXIBLE FLAT CABLE THEREWITH - Disclosed is a plated flat conductor including a flat conductor of copper or a copper alloy and a plated layer formed on a surface of the flat conductor. The plated layer includes a first intermetallic compound layer of Cu | 09-24-2009 |
| 20090260850 | Flexible flat cable assembly with improved grounding structure - A cable connector assembly includes a housing, a flexible substrate, at least one matching stratum attached on the flexible substrate for regulating the impedance of flexible substrate and a shell. The housing includes a receiving space. The flexible substrate is received in the receiving space of the housing and includes a plurality of golden fingers exposed out the housing. The shell covers the flexible substrate without the golden fingers, the matching stratum and the housing and includes a connecting element electrically connected to the matching stratum. | 10-22-2009 |
| 20090301755 | FLAT CABLE FOR MOUNTED DISPLAY DEVICES - A flat high definition multimedia interface (HDMI) cable. The flat cable that is less visible in comparison to a round HDMI cable for wall mounted television setup. An HDMI connector is coupled to the flat cable. An active circuit isolates physical characteristics of the HDMI connector. The active circuit causes the flat cable to appear shorter than its actual length during HDMI compliance testing using impedance testing. Moreover, the active circuit causes a consumer electronic control (CEC) line, a display data channel (DDC) line and transition minimized differential signal (TMDS) line to actively terminate for reducing parasitic capacitance from the length of the flat cable during HDMI compliance testing. Thus, the isolation allows the flat cable to satisfy HDMI compliant testing. The flat cable may be selected from a group consisting of ribbon cable, twisted pair cable, flexible printed circuit board, micro coax cable, optical cable and glass fiber cable. | 12-10-2009 |
| 20090314516 | Flexible Signal Transmission Module and Manufacturing Method Thereof - A flexible signal transmission module and a manufacturing method thereof are provided. The flexible signal transmission module includes a first connector, a first transmission strip, and a second transmission strip. The first and second transmission strips are respectively connected to the first connector and disposed side by side. The ends of the first and second transmission strips which connect to the first connector respectively have a first end folding line. The first and second transmission strips respectively folded along the first end folding lines toward a same direction while the folding portions of both strips partially overlap. The manufacturing method includes the following steps: disposing a plurality of transmission strips side by side; connecting the transmission strips to a first connector; and respectively folding the transmission strips along the first end folding lines toward a same direction. | 12-24-2009 |
| 20100018746 | MULTI CONDUCTOR CABLE FOR A PORTABLE ELECTRIC TOOL - A multi conductor flat type cable, which is intended for connecting a portable electric power tool to a stationary power supply and operation control unit, has a connector plug ( | 01-28-2010 |
| 20100089610 | FLAT CABLE - A very thin flat cable ( | 04-15-2010 |
| 20100193216 | POWER SUPPLY APPARATUS FOR SLIDING DOOR - A power supply apparatus for sliding door includes a flat cable for electrically connecting devices on a side of vehicle body to the devices on a side of a sliding door mounted on the vehicle body so as to be able to be slid, a vehicle body side fixing portion for fixing the flat cable on the vehicle body; and a door side fixing portion for fixing the flat cable on the sliding door, wherein the flat cable is extracted from the vehicle body side fixing portion and the door side fixing portion in the substantially same direction which is substantially parallel to the sliding directions of the sliding door, and the width direction of the flat cable is maintained to be substantially vertical. | 08-05-2010 |
| 20100243292 | METHOD FOR FUSING INSULATED WIRES, AND FUSED WIRES PRODUCED BY SUCH METHOD - A method for fusing a pair of insulated wires to one another, and a fused wire made by such method, in which the combined or major diameter of the fused wire equals, or very closely matches, the sum of the diameters of the individual wires prior to fusion. In the present method, a pair of wires, each having a coating of insulation that is substantially fully cured, are brought into close abutting contact with one another along a line contact, and thereafter pass through a heating device which heats the coatings above their a thermal transition point of at least one of the pair of wires to fuse the coatings of the wires together along the line contact. | 09-30-2010 |
| 20100243293 | CABLE WIRING STRUCTURE OF SLIDING-TYPE ELECTRONIC APPARATUS, AND ELECTRONIC APPARATUS WIRING HARNESS - A cable wiring structure of a sliding-type electronic apparatus is provided which includes a plurality of casings with circuits attached to be movable relatively to each other wherein the circuits within the casings are electrically connected to each other by an electronic apparatus wiring harness. The electronic apparatus wiring harness has a cable laminated portion in which a plurality of micro two-core parallel coaxial cables are laminated, and the cable laminated portion is wired in a U shape when viewed from slide surfaces of the casings. | 09-30-2010 |
| 20110036615 | FLEXIBLE FLAT CIRCUITRY - A transmission line is made from FFC and has an elongated support base with opposing top and bottom sides. The support base has a plurality of conductive traces arranged on both of its side with the traces on one of the support base sides being arranged in pairs of signal traces, and specifically pairs of differential signal traces. The traces which are arranged on the other side of the support base include ground traces, each of which preferably has a width that is greater than the combined width of two signal traces that make up a signal pair. Each of the ground traces are aligned with a pair of signal traces. | 02-17-2011 |
| 20110056729 | INSULATED CONDUCTIVE ELEMENT HAVING A SUBSTANTIALLY CONTINUOUS BARRIER LAYER FORMED THROUGH CONTINUOUS VAPOR DEPOSITION - A continuous vapor deposition system for coating an elongate, uncoated conductive element with a substantially continuous barrier layer. The system comprises an internal deposition chamber configured to have a section of the conductive element extend there through; a vapor supply system connected to the internal deposition chamber configured to provide a barrier material to the internal deposition chamber, wherein the barrier material is deposited on the section of the conductive within the internal deposition chamber to form a substantially continuous barrier layer; and a guide system positioned adjacent to the first deposition chamber configured to maintain tension in the section of the conductive element in the internal deposition chamber to control movement of the conductive element through the internal deposition chamber. | 03-10-2011 |
| 20110114363 | Motor Vehicle Conductor Connection Element - Motor vehicle conductor connection element | 05-19-2011 |
| 20110120748 | WIRING COMPONENT - A wiring component includes an array of multiple wires, at least one connector which engages the wires, and at least two layers of a hardened fiber and a filler compound that sandwiches the wires. The areas adjacent to the wires include a filler which immobilizes the wires relative to the layers. In one embodiment at least a portion of the connector is embedded in the filler. | 05-26-2011 |
| 20110232938 | FLEXIBLE FLAT CABLE - A flexible flat cable includes a plurality of conductors arranged parallel at predetermined intervals, an insulation layer covering both sides of each of the plurality of conductors, a nonwoven fabric layer on an outer surface of the insulation layer, and a shield layer on an outer surface of the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric including a layer including a first fiber thread with a predetermined outer diameter and a second fiber thread with an outer diameter larger than that of the first fiber thread. A basis weight of the nonwoven fabric is 50 to 90 g/m | 09-29-2011 |
| 20110290526 | FLAT CABLE AND METHOD FOR FABRICATING THE SAME - A flat cable has a plurality of electric wires disposed in parallel, and a fiber member woven to thread through each of the electric wires along a juxtapositional direction of the electric wires. The fiber member is made of a fiber having an elastic recovery rate after elongation of 80% or more and 95% or less. The fiber has an initial modulus of 20 cN/dtex or more and 30 cN/dtex or less. | 12-01-2011 |
| 20120097422 | FLEXIBLE FLAT CABLE AND METHOD OF MANUFACTURING THE SAME - The present invention provides a flexible flat cable having high conductivity and high bending durability, and a method for manufacturing the same. The present invention is a flexible flat cable comprising conductors and insulating films applied over the conductors, wherein the conductor is comprised of at least one additive element selected from the group consisting of magnesium (Mg), zirconium (Zr), niobium (Nb), calcium (Ca), vanadium (V), nickel (Ni), manganese (Mn), titanium (Ti), and chromium (Cr); 2 mass-% or more of oxygen; and the balance being inevitable impurity and copper, wherein the conductor has such a recrystallized texture that the size of crystal grains in the inner area of the conductor is large and that of in the surface area thereof is smaller than that of the inner area, wherein both sides of the conductor are sandwiched between insulating films. | 04-26-2012 |
| 20120181060 | FLEXIBLE FLAT CABLE - A flexible flat cable ( | 07-19-2012 |
| 20120199376 | Flexible flat cable - A flexible flat cable includes a plurality of conductors, a nonwoven fabric layer provided on an outer surface of an insulation layer, and a shield layer provided on the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric having a plurality of recessed portions formed on a surface thereof, the recessed portions being each enclosed by two opposite long sides and two opposite short sides, and the nonwoven fabric has an embossed shape which satisfies the following relation: 2d| 08-09-2012 | |
| 20120205138 | FLEXIBLE FLAT CABLE USING ROUND CONDUCTORS - The present invention relates to a flexible flat cable using round conductors and, more particularly, to the continuous fabrication of flexible flat cables each using round conductors, wherein the terminal unit of the flexible flat cable has a straight angle conductor form. The flexible flat cable using the round conductors according to the present invention comprises the round conductors and an upper base film and a lower base film covering upper and lower parts of the round conductors, wherein the terminal unit of the flexible flat cable is formed of the straight angle conductors formed by processing the round conductors, and the lower base film supporting the straight angle conductors is integrally formed over the entire length of the flexible flat cable. | 08-16-2012 |
| 20120255761 | ADHESIVE FILM AND FLAT CABLE USING SAME - The adhesive film includes an insulating film, an adhesive layer provided over one side of the insulating film, and an anchor coat layer provided between the one side of the insulating film and the adhesive layer. The adhesive layer is a copolymer polyamide resin which is soluble in a solvent at 25 degrees Celsius and has a melting point of 100 degrees Celsius or more and 150 degrees Celsius or less. The anchor coat layer enhances the adhesion between the insulating film and the adhesive layer. | 10-11-2012 |
| 20120267145 | Flat cable and cable harness using same - A flat cable includes a plurality of wires in parallel alignment, and a linear member disposed across the parallel alignment and woven between the plurality of wires. The linear member includes a fibrous member containing poly(trimethylene terephthalate) and a metal layer on a periphery of the fibrous member. A cable harness includes the flat cable, and a connecting terminal connected to an end of the flat cable. | 10-25-2012 |
| 20130000950 | EXTRUDED FLEXIBLE FLAT CABLE - The present invention provides an extruded flexible flat cable, which has a superior formability, flexibility, adhesiveness, and fire-retardancy, with a low manufacturing cost. The flexible flat cable of the present invention is adapted for sliding door of a motor vehicle and also other parts. The extruded flexible flat cable has a conductor covered with an insulation layer extrude-formed with an extrusion molding method. The insulation layer is formed from a fire-retardant resin composition containing a modified polybutylene terephthalate and a fire-retardant additive. The fire-retardant resin composition has a melting point of 170-215 degrees C. measured in reference to JIS K7121 with a differential thermal analysis at a rate of temperature increase of 10 degrees C. per minute. | 01-03-2013 |
| 20130118773 | Z-AXIS CONDUCTIVE ARTICLE AND METHOD OF MAKING THE SAME - A Z-axis conductive article includes an adhesive layer having a first major surface and a second major surface opposite the first major surface. The adhesive layer includes a dielectric pressure-sensitive adhesive and conductive magnetic particles aligned in mutually isolated conductive pathways extending from the first major surface to the second major surface of the adhesive layer. A method of making the same is also disclosed. | 05-16-2013 |
| 20130233590 | ADHESIVE FILM AND FLAT CABLE USING THE SAME - There is provided an adhesive film, comprising: an insulator film; an adhesive layer formed on the insulator film; and an intermediate adhesive layer interposed between the insulator film and the adhesive layer, wherein the intermediate adhesive layer is made of a mixed resin composition of a copolyamide being a crystalline resin solvable in a non-halogen based organic solvent and having a melting point of 100° C. or more and 150° C. or less, and a non-crystalline resin, and the intermediate adhesive layer contains a non-halogen flame retardant by 100 pts.wt. or more and 250 pts.wt. or less with respect to 100 pts.wt. of the mixed resin composition. | 09-12-2013 |
| 20130240243 | ELECTRICAL CABLE ARRANGEMENT - An electrical cable arrangement comprises a first electrical cable ( | 09-19-2013 |
| 20130312999 | FLEXIBLE CIRCUIT CABLE WITH AT LEAST TWO BUNDLED WIRE GROUPS - Disclosed is a flexible circuit cable with at least two bundled wire groups. The circuit cable has first and second ends respectively connected to first and second connection sections. The circuit cable includes a cluster section, which is formed of a plurality of cluster wires formed by slitting the circuit cable, in an extension direction of the cable, at a predetermined cut width. The cluster section includes at least two independent bundles, which are formed by dividing the cluster wires of the circuit cable into different signal groups according to electrical signals transmitted therethrough. Bundling members are used to the cluster wires of the independent bundles according to predetermined bundling modes. Further, the circuit cable has a surface forming a shielding conductive layer for electromagnetic interference protection and impedance control for internal signals of the circuit cable. | 11-28-2013 |
| 20140041896 | MEDIUM PROCESSING DEVICE AND FLEXIBLE CABLE - A medium processing device may include a head which reads or writes data to a recording medium; and a flexible cable which is connected with head. The flexible cable may be formed in a multilayer structure including a data signal layer formed with a data signal pattern and disconnection detecting signal layers which cover a front face and a rear face of the data signal layer and are formed with a disconnection detecting signal pattern. The flexible cable may also include a terminal connecting part formed with a through hole into which a signal terminal of the head is inserted and a terminal covering part turned around so as to cover the terminal connecting part and fixed to the terminal connecting part. | 02-13-2014 |
| 20140060886 | SPACER FOR USE IN A FLAT CABLE - This is directed to a cable for use with an electronic device. The cable can be substantially flat, such that all of the conductive wires of the cable are substantially in the same plane. A spacer can be placed between the wires to ensure that wires conducting signals remain a minimum distance apart to avoid signal degradation. The spacer can also control the bending of the cables to favor bending in a preferred direction while reducing or limiting bending in a less preferred direction. | 03-06-2014 |
| 20140116750 | FLAT CABLE - The invention is provided to a flat cable having a thinner insulating covering while keeping sufficient wear resistance and low temperature resistance. The invention provides a flat cable, which includes at least two conductors disposed apart from each other and in parallel to each other, and an insulating covering disposed over a periphery of the at least two conductors, and formed of vinyl chloride-based resin composition having a brittle temperature of from −40 Celsius degrees to −25 Celsius degrees, an hardness D of from 35 to 55, and heating deformation of 10% or below. | 05-01-2014 |
| 20140131064 | FLAT CABLE AND METHOD FOR PREPARING THE SAME - The objective of the invention is to provide a thin and flexible flat cable suited for being arranged in a narrow space such as a vehicle, as well as, a method for stably preparing such a flat cable. | 05-15-2014 |
| 20140158397 | CABLE - A cable for establishing connection with connectors comprises a plurality of wires parallel and apart from each other, and an insulating structure sandwiching the plurality of wires. The insulating structure comprises a plurality of isolating portions arranged between each of two adjacent wires. Each of the isolating portions comprises a perforated portion. | 06-12-2014 |
| 20140158398 | ADHESIVE RESIN COMPOSITION, ADHESIVE FILM USING THE SAME AND FLAT CABLE - An adhesive resin composition includes 60 to 95 parts by mass of amorphous thermoplastic polyester-based resin (A), 5 to 40 parts by mass of polyphenylene ether-based polymer (B) including a hydroxyl group and a repeating unit of 2,6-dimethylphenylene ether in a molecule thereof, and 60 to 200 parts by mass of a flame retardant per total 100 parts by mass of the amorphous thermoplastic polyester based resin (A) and the polyphenylene ether-based polymer (B). | 06-12-2014 |
| 20140182885 | ELECTRICAL CABLE ASSEMBLY - In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the substrate and a second surface that is opposite the first surface. The drain wire can define a height that is greater than 0.2 mm as measured from the first surface to the second surface along a straight line. | 07-03-2014 |
| 20140262429 | MULTIPLE-CONDUCTOR FLAT CABLE - A multiple-conductor flat cable includes: an analog cable portion formed such that ground signal lines and analog signal lines are alternately arranged side by side across a signal transmission direction and each adjacent pair of the ground signal lines and the analog signal lines are joined while being electrically insulated from each other; and a digital cable portion joined with the analog cable portion while being placed adjacent to the digital cable portion and formed such that digital signal lines are arranged side by side across the signal transmission direction and each adjacent pair of the digital signal lines are joined while being electrically insulated from each other. | 09-18-2014 |
| 20140262430 | Flexible Flat Cable and Method of Manufacturing the Same - A flexible flat cable includes an insulating layer disposed through extrusion in vicinity of a plurality of conductors arrayed in parallel with each other. The insulating layer is composed of a vinyl chloride-based resin composition having a die swell ratio of 1.1 or more at a molding temperature during the extrusion. The molding temperature is between 150° C. to 200° C. with a linear rate of between 50 m/minute to 200 m/minute. A melt tension of the vinyl chloride-based resin composition is 0.02 N to 0.2 N. | 09-18-2014 |
| 20140299354 | CUSTOM CABLE TECHNOLOGY - The embodiments disclose a method including fabricating custom cables using a custom cable technology, wherein the custom cables include a universal flat cable including a plurality of flexible conduits including a plurality of cable pods, an ultra-flat cable and a flat series cable, and wherein the custom cables include reinforced cable jackets, and wherein the custom cables include reduced weight cable jackets including a microcell jacket. | 10-09-2014 |
| 20140299355 | FLAT CABLE AND ELECTRONIC DEVICE - A transmission line section of a flat cable includes a dielectric element including a signal conductor at an intermediate position of a thickness direction, a first ground conductor, and a second ground conductor. The first ground conductor includes elongated conductors that are spaced apart from each other in a width direction of the dielectric element, and extend in a longitudinal direction, and bridge conductors that connect the elongated conductors at spaced points along the longitudinal direction. A widened portion having a width larger than the width of the elongated conductors is located at the intermediate position between bridge conductors that are adjacent to each other along the longitudinal direction. The widened portion is configured to project in a direction in which the elongated conductors are opposed to each other. An interlayer connection conductor is located in the widened portion. The first ground conductor and the second ground conductor are connected by the interlayer connection conductor. | 10-09-2014 |
| 20150008012 | FLAT CABLE - A flat cable includes a dielectric element assembly including a plurality of dielectric layers laminated on each other in a direction of lamination, and a linear signal line provided in the dielectric element assembly. The dielectric element assembly includes at least one section bent in a plurality of places defining a zigzag shape when viewed in a plan view in the direction of lamination. In the zigzag section of the dielectric element assembly, any portions of the dielectric element assembly that are not adjacent across a bending line do not overlap when viewed in a plan view in the direction of lamination. | 01-08-2015 |
| 20150014018 | FLEXIBLE FLAT CABLE FOR LOW VOLTAGE DIFFERENTIAL SIGNALING - Disclosed is a flexible flat cable including an incision section including a cutting line, a connection section including a conductive line exposure end portion, and a transition section to connect the incision section with the connection section. Plural conductive lines are arranged with a pitch interval of 0.5 mm to form one conductive line group, and plural conductive line groups are arranged with an interval of 1.0 mm, such that the cutting line is in a space having the interval of 1.0 mm between the conductive groups. The conductive lines are collected at an end portion side of the incision section in the transition section, and the connection section includes a linear section which the conductive lines extending from an end portion of the transition section extend while being spaced apart from each other with a pitch of 0.5 mm and a conductive line exposure part exposed to an outside. | 01-15-2015 |
| 20150136443 | CABLE WITH MULTIPLE CONDUCTORS EACH HAVING A CONCENTRIC INSULATION LAYER - An electrical transmission cable has at least two wires joined in side-by-side relationship by a web. Each wire has a central conductor surrounded by a single layer of insulation that has an outer surface. A majority of the outer surface of the insulation layer is concentric with the conductor. The web is attached at first and second ends to the outer layers of the insulation of the first and second wires. The web has a neck located intermediate its first and second ends with the neck defining the point of least cross-sectional area of the web. Separation of one wire from the other will cause the web to break at the neck, thereby preventing damage to the insulation layer. Chordal segments of the insulation layer may be used to minimize the width of a multi-wire cable. | 05-21-2015 |
| 20150380126 | METHOD AND DEVICE FOR POSITIONING ELECTRICAL CONDUCTORS, AND CONDUCTOR GROUP - The present invention relates to a method (M | 12-31-2015 |
| 20160049222 | Flexible Transmission Line Assembly - A flexible transmission line assembly, which is connected between two relatively moving means that are movable relative to each other, comprises an abrasion-resistant flexible film and a plurality of transmission lines. The abrasion-resistant flexible film inner surface is surrounded to form a receiving space and is provided with an adhesive. The plurality of transmission lines is provided within the receiving space in a way each transmission line is adjacent to one another in a single row in width directions of the transmission lines, and the adjacent transmission lines being closely contacted with each other. The plurality of transmission lines is adhered with the inner surface of the abrasion-resistant flexible film by means of the adhesive, and the plurality of transmission lines at both ends in a longitudinal direction thereof is formed with a connecting element. | 02-18-2016 |
| 20160049223 | READILY STRIPPABLE CABLE - A readily-strippable cable is herein described having at least two wires encapsulated by a continuous electrically insulating layer wherein each encapsulated wire is connected to an adjacent wire by a relatively thinner portion of the insulating layer, the insulating layer having at least one relatively weak portion per encapsulated wire that extends along the length of the cable and is substantially uniform in position and strength along the length of the cable; and wherein the weak portion is configured to allow the insulating layer to split along the relatively weak portion and down the length of the cable upon separation of the encapsulated wires by application of force against the relatively thinner portion of insulating layer in a direction substantially perpendicular to the length of the cable, thereby exposing the wire without the use of a secondary operation. | 02-18-2016 |
| 20160155539 | READILY STRIPPABLE CABLE | 06-02-2016 |
| 20180025806 | FLEXIBLE FLAT CABLE | 01-25-2018 |
| 20120103657 | HIGH-SPEED CARD CABLE - Techniques described herein generally relate to ground planes. In some examples, an electrical cable is described that can include multiple signal lines. The multiple signal lines can be arranged to extend along a length of the electrical cable. A ground plane can be spaced apart from the multiple signal lines. The ground plane can include a mesh structure and an electrically conductive layer that is arranged to coat the mesh structure. The mesh structure can include multiple resin fibers. | 05-03-2012 |
| 174117000 | Adhesive | 2 |
| 20100006321 | VIDEO/AUDIO SIGNAL TRANSMISSION CABLE - The present invention disclose a video/audio signal transmission cable comprising a first and a second conducting wires respectively having conductor and insulator, and the first and second conducting wires are neighborly installed, wherein each conductor has a core being made of steel material and being electroplated with a high conductive metal plating layer on the outside surface thereof; a first enclosing layer being made of insulation material is used to enclose the outsides of the first and second conducting wires; and a second enclosing layer being made of insulation material is used to enclose the outside of the first enclosing layer. It is then through the material characteristics of the core and high conducting metal plating layer to have the signal equalization effect during high frequency and low frequency transmissions thereby achieving the better quality and stable transmission effect. | 01-14-2010 |
| 20120273252 | Bus Bar Assembly and Method of Manufacturing Same - A bus bar assembly includes a first main conductor, a second main conductor, and an insulator member provided between the main conductors. The insulator member includes: (i) an insulator component, (ii) a first conductor layer provided on the top surface of the insulator component, and (iii) a second conductor layer provided on the bottom surface of the insulator component, wherein the first conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least a certain distance from the outer edge around the perimeter of the insulator component, wherein the second conductor layer includes an outer edge around a perimeter thereof, wherein the outer edge is located at least the same certain distance from the outer edge of the insulator component, and wherein the certain distance is sufficient to cause the bus bar assembly to satisfy the creepage requirement of the assembly. | 11-01-2012 |
| 20120279754 | CONTINUOUSLY TRANSPOSED CONDUCTOR - The present invention relates to a Continuously Transposed Conductor ( | 11-08-2012 |
| 20130199819 | METHOD FOR PRODUCTION OF AN ELECTRICAL WINDING, AND ELECTRICAL CONDUCTOR - A method is specified for production of an electrical winding for an electrical appliance, in which the winding is embedded in a liquid which is used for cooling, A conductor is first of all produced, in which a multiplicity of insulated electrical individual conductors having a rectangular cross section are arranged in at least one stack, with their flat faces resting on one another. Winding material composed of insulating material is wound around the stack in order to produce common insulation, and the conductor is then shaped to form a single-part winding. A winding material in the form of ribbon or strip and composed of a plastic with impressed shape memory is used for winding around, and has a greater length than its original length, with this greater length being produced by stretching. The finishing winding is heated to a temperature at which the winding material becomes shorter in the winding direction. | 08-08-2013 |
| 20130233591 | ELECTRIC WIRE HOLDING STRUCTURE AND ELECTRIC WIRE HOLDING METHOD - An electric wire holding structure includes a plurality of electric wires each including a conductive part provided with a plurality of core wires and an insulating part covering the conductive part. The conductive part includes a rectangular conductive part which is formed at an end of the conductive part to have a rectangular outer shape in a section perpendicular to an extending direction of the electric wires. The rectangular conductive parts of the respective electric wires are bonded together by welding with ultrasonic vibration. The rectangular conductive parts of a plurality of the electric wires are piled in a brick laying manner to be bonded by welding. | 09-12-2013 |
| 20130333918 | WIRE CONSTRUCTS - A method for forming a wire construct includes forming a groove in a polymer having a mouth that is narrower than a width of a deeper portion of the groove and placing a substantial length of wire in the groove, the wire having a larger cross-sectional dimension than the mouth of the groove. Encapsulant is placed over the polymer. The wire construct is to be used for implantable stimulation leads, such as a cochlear stimulation lead or a neurostimulation lead. Two wire constructs can be assembled to form a multilayer wire construct. | 12-19-2013 |
| 20140262431 | MULTI-CABLE BREAKOUT ASSEMBLY - A multi-cable breakout assembly includes: a plurality of cables arranged in a rectangular array of M rows×N columns, wherein M and N are positive whole numbers greater than one; a first sleeve that encircles the plurality of cables; first and second ribbon members, the first ribbon member being threaded through the plurality of cables to separate the cables into M rows; and the second ribbon member being threaded through the plurality of cables to separate the cables into N columns; and a second sleeve that overlies an end of the first sleeve and the first and second ribbon members. | 09-18-2014 |
| 20160189824 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a thermosetting resin formed on the outer periphery thereof, the thermosetting resin having a glass transition temperature of 100° C. or more and 200° C. or less and having a urethane bond; and a layer of a thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20160189826 | RECTANGULAR WIRE, AND METHOD OF PRODUCING THE SAME AND ELECTRICAL EQUIPMENT USING THE SAME - A rectangular wire having: a multilayer conductor member constructed by stacking, in a thickness direction, a rectangular metallic conductor that has a layer of a first thermoplastic resin formed on the outer periphery thereof, the first thermoplastic resin being a non-crystalline resin having no melting point or a crystalline resin having an amide bond; and a layer of a second thermoplastic resin having a melting point of 300° C. or more on the outer periphery of the multilayer conductor member. | 06-30-2016 |
| 20080196924 | LAMINATED BUS BARS AND METHODS OF MANUFACTURE THEREOF - A method of assembling a multilayer bus bar assembly includes coating a dielectric layer with a molten reactive hot-melt adhesive, placing the dielectric layer between first and second subassemblies, wherein the first and second subassemblies comprise a conductive element, adhering the molten reactive hot-melt adhesive to the subassemblies by applying a pressure of at least about one bar to the multilayer bus bar assembly for at least about one minute prior to the adhesive cooling to room temperature to provide a bonding strength between the dielectric material and a selected one of the first and second subassemblies of at least 1500 Newtons on a 25 millimeter by 25 millimeter sample when tested in accordance with ASTM D-1062. | 08-21-2008 |
| 20080245548 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a base, an adhesive layer, and a carbon nanotube layer. The adhesive layer is configured for being sandwiched between the base and the carbon nanotube layer. And a method for making the conductive tape includes the steps of: fabricating at least one carbon nanotube film and an adhesive agent; coating the adhesive agent on a base and drying the adhesive agent on the base so as to form an adhesive layer; and forming a carbon nanotube layer on the adhesive layer and compressing the carbon nanotube layer so as to sandwich the adhesive layer between the carbon nanotube layer and the base. | 10-09-2008 |
| 20080230254 | TRANSMISSION CABLE - A transmission cable and method for manufacturing same are provided. A plurality of signal lines are formed on one side of an insulating layer and ground lines are formed between the signal lines. The ground lines are electrically connected with a shield layer formed on a back surface of the insulating layer through metal bumps formed and embedded in the insulating layer. Insulating layers and shield layers may be formed on opposite sides sandwiching the signal lines and the ground lines. In this case, the ground lines are electrically connected with the shield layers, respectively, through metal bumps on both sides thereof. Consequently, a highly reliable transmission cable capable of high rate transfer and large capacity transfer can be provided. | 09-25-2008 |
| 20080296044 | FLEXIBLE FLAT CABLE - A flat cable includes a plurality of flat cores arranged at an interval, an insulating layer covering integrally each core, and an adhesive sheet. Both surfaces of the insulating layer are provided with a plurality of grooves to correspond to the cores respectively. The distal end of each core extends beyond the insulating layer and each has a connecting portion. Each connecting portion has two flat surfaces. One of the flat surfaces is used for electrical connection, and the other is adhered to the adhesive sheet. The adhesive sheet is adhered from the distal end of each connecting portion to a portion of the insulating layer. Further, an external surface of the adhesive sheet is colored. | 12-04-2008 |
| 20080308295 | CONDUCTIVE TAPE AND METHOD FOR MAKING THE SAME - The present invention relates to a conductive tape. The conductive tape includes a adhesive layer and a plurality of carbon nanotubes. The adhesive layer has a first surface and an opposite second surface. The carbon nanotubes are substantially embedded in parallel in the adhesive layer and perpendicular to the first surface and the second surface. Each of the carbon nanotubes has two opposite ends extending out of the two opposite surfaces of the adhesive layer respectively. Further, a method for making the above-described conductive tape is also included. | 12-18-2008 |
| 20090101388 | FLAT CABLE ASSEMBLY FOR USE IN POWER SUPPLY APPARATUS - A flat cable assembly includes a plurality of power cables and a bonding medium. The plurality of power cables are parallel with each other, wherein every two adjacent power cables are separated from each other. The bonding medium is used for boding every two adjacent power cables together, thereby cooperatively forming the flat cable assembly having a first surface and a second surface. A first gap is formed between the first surface and the bonding medium and a second gap is formed between the second surface and the bonding medium. | 04-23-2009 |
| 20090266578 | FLEX CABLE WITH BIASED NEUTRAL AXIS - Systems and methods for biasing a neutral axis of a flex cable in a hard drive are discussed. The hard drive comprises a flex cable, a read/write head, and a control card. The flex cable comprises a base film, adhesives, a conductive trace, a cover film, and a neutral axis. The neutral axis is configured to be biased so that stresses in the conductive trace are more compressive and less tensile than stresses without a biased neutral axis. | 10-29-2009 |
| 20100084160 | SPLIT FLEX CABLE - A cable assembly for interconnecting a plurality of circuit boards together by using a connector assembly connected to each of the circuit boards. The cable assembly includes a first cable having a first end part and a second cable having a second end part. A first periphery of the first end part has a plurality of first half vias that collectively form a column along a width direction of the connector assembly. A second periphery of the second end part has a plurality of second half vias that collectively form a column along the width direction of the connector assembly. The first and second end parts are coupled together to form a connecting unit, such that the first half vias and the second half vias are joined together to form full vias. | 04-08-2010 |
| 20130037303 | FLEXIBLE FLAT CABLE - A flexible flat cable, including a plurality of preprocess conductors and a insulating layer, wherein the insulating layer includes upper and lower insulating layers, each of the preprocess conductors has upper and lower faces and an original width, and the upper and lower faces are being flat and attached tightly and closely to the upper and lower insulating layers, respectively. Ends of the preprocess conductors expose out of the insulating layer and are being processed to form a plurality of contact faces, and each of the contact faces has a processed width which is larger than the original width. | 02-14-2013 |
| 20130319727 | APPARATUS AND METHOD FOR AN AIRCRAFT CONDUCTOR SANDWICH ASSEMBLY EMBEDDED TO AN AIRCRAFT STRUCTURE - An aircraft conductor sandwich assembly configured to be embedded in a composite aircraft structure. The conductor sandwich assembly comprises a plurality of carbon conductors disposed between two sheets of insulating layers and an adhesive resin bonding the plurality of carbon conductors and the two sheets of insulating layers into a carbon sandwich assembly such that (i) the conductors are electrically isolated and (ii) structural loads can be passed through said conductor sandwich assembly. | 12-05-2013 |
| 20140027153 | Flexible Electrical Power Cable - An electrical cable has a plurality of generally rectangular cross-section conductors superposed in a stack, the stack surrounded by a polymer jacket. The stack may be provided with a lubrication layer provided between at least two of the conductors. Conductors of the stack may have a thickness that is greater proximate the middle of the stack than at the top and bottom of the stack and/or a width that is less at the top and the bottom than at the middle. Further stacks may also be provided parallel and coplanar with the first stack, also surrounded by the polymer jacket. | 01-30-2014 |
| 20080236868 | ELECTRONIC APPARATUS WITH FLEXIBLE FLAT CABLE FOR HIGH-SPEED SIGNAL TRANSMISSION - According to one embodiment, a flexible flat cable includes a plurality of ground lines and a plurality of signal lines. Each of the ground lines is connected to an electromagnetic shield layer by two connection line members. An arrangement of the ground lines and signal lines that are positioned in a region on one side of a center line of the flexible flat cable and an arrangement of the ground lines and signal lines on a region on the other side are symmetric with respect to the center line. In each of two connectors to which end portions of the flexible flat cable are coupled, terminals corresponding to the ground lines are grounded, a terminal corresponding to a signal line interposed between two ground lines is assigned a high-speed signal, and a terminal corresponding to another signal line is assigned a ground potential. | 10-02-2008 |
| 20080289852 | CABLE ASSEMBLY - A cable assembly is provided including an encapsulated cable having one or more elements and an intermediary section. The encapsulated cable extends along a length direction. The intermediary section extends along the length direction and is attached along a length of the encapsulated cable and extends outwardly therefrom. The intermediary section is configured to receive one or more fasteners for securing the cable assembly to an external surface without the one or more fasteners contacting the one or more elements. | 11-27-2008 |
| 20090000804 | Transmission Cable - A transmission cable is provided and includes multiple signal lines formed on one side of an insulation layer | 01-01-2009 |
| 20090044966 | INDIUM-SOLDER-COATED COPPER FOIL RIBBON CONDUCTOR AND METHOD OF CONNECTING THE SAME - A method for tenaciously connecting a conductor electrode on a glass substrate to a ribbon conductor with certainty at low cost without causing damage. An indium-solder-coated copper foil ribbon conductor | 02-19-2009 |
| 20090133898 | Flexible flat cable with carrier tape and manufacturing method thereof - It is to provide a flexible flat cable with a carrier tape capable of preventing conductors from being bent without increasing the cost of production. | 05-28-2009 |
| 20090159309 | Flat cable and plasma display device - A highly reliable flat cable is disclosed in which a short-circuit between adjacent electrodes due to whisker formation is prevented and the occurrence of contact failure between electrodes due to a foreign particle is prevented. A plasma display using this flat cable is also disclosed. The flat cable comprises a plurality of conductors and a pair of films having adhesive applied on the films so as to sandwich each of the conductors with a predetermined spacing. The conductors on the side of the flat cable or the conductors on the side of a connector electrically connected to the conductors on the side of the flat cable are formed of a lead-free material. Further, at a connecting portion of the flat cable, one of the films ( | 06-25-2009 |
| 20090236122 | Structure for flexible flat cable - The main body of the flexible flat cable of the invention includes a particular quantity of cores and sheath layers. The core includes a plurality of single conductor wires or a plurality of twisted conductor wires compressively combined by top and bottom sheath layers located above and below the core to form a flexible flat cable main body. | 09-24-2009 |
| 20090236123 | PLATED FLAT CONDUCTOR AND FLEXIBLE FLAT CABLE THEREWITH - Disclosed is a plated flat conductor including a flat conductor of copper or a copper alloy and a plated layer formed on a surface of the flat conductor. The plated layer includes a first intermetallic compound layer of Cu | 09-24-2009 |
| 20090260850 | Flexible flat cable assembly with improved grounding structure - A cable connector assembly includes a housing, a flexible substrate, at least one matching stratum attached on the flexible substrate for regulating the impedance of flexible substrate and a shell. The housing includes a receiving space. The flexible substrate is received in the receiving space of the housing and includes a plurality of golden fingers exposed out the housing. The shell covers the flexible substrate without the golden fingers, the matching stratum and the housing and includes a connecting element electrically connected to the matching stratum. | 10-22-2009 |
| 20090301755 | FLAT CABLE FOR MOUNTED DISPLAY DEVICES - A flat high definition multimedia interface (HDMI) cable. The flat cable that is less visible in comparison to a round HDMI cable for wall mounted television setup. An HDMI connector is coupled to the flat cable. An active circuit isolates physical characteristics of the HDMI connector. The active circuit causes the flat cable to appear shorter than its actual length during HDMI compliance testing using impedance testing. Moreover, the active circuit causes a consumer electronic control (CEC) line, a display data channel (DDC) line and transition minimized differential signal (TMDS) line to actively terminate for reducing parasitic capacitance from the length of the flat cable during HDMI compliance testing. Thus, the isolation allows the flat cable to satisfy HDMI compliant testing. The flat cable may be selected from a group consisting of ribbon cable, twisted pair cable, flexible printed circuit board, micro coax cable, optical cable and glass fiber cable. | 12-10-2009 |
| 20090314516 | Flexible Signal Transmission Module and Manufacturing Method Thereof - A flexible signal transmission module and a manufacturing method thereof are provided. The flexible signal transmission module includes a first connector, a first transmission strip, and a second transmission strip. The first and second transmission strips are respectively connected to the first connector and disposed side by side. The ends of the first and second transmission strips which connect to the first connector respectively have a first end folding line. The first and second transmission strips respectively folded along the first end folding lines toward a same direction while the folding portions of both strips partially overlap. The manufacturing method includes the following steps: disposing a plurality of transmission strips side by side; connecting the transmission strips to a first connector; and respectively folding the transmission strips along the first end folding lines toward a same direction. | 12-24-2009 |
| 20100018746 | MULTI CONDUCTOR CABLE FOR A PORTABLE ELECTRIC TOOL - A multi conductor flat type cable, which is intended for connecting a portable electric power tool to a stationary power supply and operation control unit, has a connector plug ( | 01-28-2010 |
| 20100089610 | FLAT CABLE - A very thin flat cable ( | 04-15-2010 |
| 20100193216 | POWER SUPPLY APPARATUS FOR SLIDING DOOR - A power supply apparatus for sliding door includes a flat cable for electrically connecting devices on a side of vehicle body to the devices on a side of a sliding door mounted on the vehicle body so as to be able to be slid, a vehicle body side fixing portion for fixing the flat cable on the vehicle body; and a door side fixing portion for fixing the flat cable on the sliding door, wherein the flat cable is extracted from the vehicle body side fixing portion and the door side fixing portion in the substantially same direction which is substantially parallel to the sliding directions of the sliding door, and the width direction of the flat cable is maintained to be substantially vertical. | 08-05-2010 |
| 20100243292 | METHOD FOR FUSING INSULATED WIRES, AND FUSED WIRES PRODUCED BY SUCH METHOD - A method for fusing a pair of insulated wires to one another, and a fused wire made by such method, in which the combined or major diameter of the fused wire equals, or very closely matches, the sum of the diameters of the individual wires prior to fusion. In the present method, a pair of wires, each having a coating of insulation that is substantially fully cured, are brought into close abutting contact with one another along a line contact, and thereafter pass through a heating device which heats the coatings above their a thermal transition point of at least one of the pair of wires to fuse the coatings of the wires together along the line contact. | 09-30-2010 |
| 20100243293 | CABLE WIRING STRUCTURE OF SLIDING-TYPE ELECTRONIC APPARATUS, AND ELECTRONIC APPARATUS WIRING HARNESS - A cable wiring structure of a sliding-type electronic apparatus is provided which includes a plurality of casings with circuits attached to be movable relatively to each other wherein the circuits within the casings are electrically connected to each other by an electronic apparatus wiring harness. The electronic apparatus wiring harness has a cable laminated portion in which a plurality of micro two-core parallel coaxial cables are laminated, and the cable laminated portion is wired in a U shape when viewed from slide surfaces of the casings. | 09-30-2010 |
| 20110036615 | FLEXIBLE FLAT CIRCUITRY - A transmission line is made from FFC and has an elongated support base with opposing top and bottom sides. The support base has a plurality of conductive traces arranged on both of its side with the traces on one of the support base sides being arranged in pairs of signal traces, and specifically pairs of differential signal traces. The traces which are arranged on the other side of the support base include ground traces, each of which preferably has a width that is greater than the combined width of two signal traces that make up a signal pair. Each of the ground traces are aligned with a pair of signal traces. | 02-17-2011 |
| 20110056729 | INSULATED CONDUCTIVE ELEMENT HAVING A SUBSTANTIALLY CONTINUOUS BARRIER LAYER FORMED THROUGH CONTINUOUS VAPOR DEPOSITION - A continuous vapor deposition system for coating an elongate, uncoated conductive element with a substantially continuous barrier layer. The system comprises an internal deposition chamber configured to have a section of the conductive element extend there through; a vapor supply system connected to the internal deposition chamber configured to provide a barrier material to the internal deposition chamber, wherein the barrier material is deposited on the section of the conductive within the internal deposition chamber to form a substantially continuous barrier layer; and a guide system positioned adjacent to the first deposition chamber configured to maintain tension in the section of the conductive element in the internal deposition chamber to control movement of the conductive element through the internal deposition chamber. | 03-10-2011 |
| 20110114363 | Motor Vehicle Conductor Connection Element - Motor vehicle conductor connection element | 05-19-2011 |
| 20110120748 | WIRING COMPONENT - A wiring component includes an array of multiple wires, at least one connector which engages the wires, and at least two layers of a hardened fiber and a filler compound that sandwiches the wires. The areas adjacent to the wires include a filler which immobilizes the wires relative to the layers. In one embodiment at least a portion of the connector is embedded in the filler. | 05-26-2011 |
| 20110232938 | FLEXIBLE FLAT CABLE - A flexible flat cable includes a plurality of conductors arranged parallel at predetermined intervals, an insulation layer covering both sides of each of the plurality of conductors, a nonwoven fabric layer on an outer surface of the insulation layer, and a shield layer on an outer surface of the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric including a layer including a first fiber thread with a predetermined outer diameter and a second fiber thread with an outer diameter larger than that of the first fiber thread. A basis weight of the nonwoven fabric is 50 to 90 g/m | 09-29-2011 |
| 20110290526 | FLAT CABLE AND METHOD FOR FABRICATING THE SAME - A flat cable has a plurality of electric wires disposed in parallel, and a fiber member woven to thread through each of the electric wires along a juxtapositional direction of the electric wires. The fiber member is made of a fiber having an elastic recovery rate after elongation of 80% or more and 95% or less. The fiber has an initial modulus of 20 cN/dtex or more and 30 cN/dtex or less. | 12-01-2011 |
| 20120097422 | FLEXIBLE FLAT CABLE AND METHOD OF MANUFACTURING THE SAME - The present invention provides a flexible flat cable having high conductivity and high bending durability, and a method for manufacturing the same. The present invention is a flexible flat cable comprising conductors and insulating films applied over the conductors, wherein the conductor is comprised of at least one additive element selected from the group consisting of magnesium (Mg), zirconium (Zr), niobium (Nb), calcium (Ca), vanadium (V), nickel (Ni), manganese (Mn), titanium (Ti), and chromium (Cr); 2 mass-% or more of oxygen; and the balance being inevitable impurity and copper, wherein the conductor has such a recrystallized texture that the size of crystal grains in the inner area of the conductor is large and that of in the surface area thereof is smaller than that of the inner area, wherein both sides of the conductor are sandwiched between insulating films. | 04-26-2012 |
| 20120181060 | FLEXIBLE FLAT CABLE - A flexible flat cable ( | 07-19-2012 |
| 20120199376 | Flexible flat cable - A flexible flat cable includes a plurality of conductors, a nonwoven fabric layer provided on an outer surface of an insulation layer, and a shield layer provided on the nonwoven fabric layer. The nonwoven fabric layer includes a nonwoven fabric having a plurality of recessed portions formed on a surface thereof, the recessed portions being each enclosed by two opposite long sides and two opposite short sides, and the nonwoven fabric has an embossed shape which satisfies the following relation: 2d| 08-09-2012 | |
| 20120205138 | FLEXIBLE FLAT CABLE USING ROUND CONDUCTORS - The present invention relates to a flexible flat cable using round conductors and, more particularly, to the continuous fabrication of flexible flat cables each using round conductors, wherein the terminal unit of the flexible flat cable has a straight angle conductor form. The flexible flat cable using the round conductors according to the present invention comprises the round conductors and an upper base film and a lower base film covering upper and lower parts of the round conductors, wherein the terminal unit of the flexible flat cable is formed of the straight angle conductors formed by processing the round conductors, and the lower base film supporting the straight angle conductors is integrally formed over the entire length of the flexible flat cable. | 08-16-2012 |
| 20120255761 | ADHESIVE FILM AND FLAT CABLE USING SAME - The adhesive film includes an insulating film, an adhesive layer provided over one side of the insulating film, and an anchor coat layer provided between the one side of the insulating film and the adhesive layer. The adhesive layer is a copolymer polyamide resin which is soluble in a solvent at 25 degrees Celsius and has a melting point of 100 degrees Celsius or more and 150 degrees Celsius or less. The anchor coat layer enhances the adhesion between the insulating film and the adhesive layer. | 10-11-2012 |
| 20120267145 | Flat cable and cable harness using same - A flat cable includes a plurality of wires in parallel alignment, and a linear member disposed across the parallel alignment and woven between the plurality of wires. The linear member includes a fibrous member containing poly(trimethylene terephthalate) and a metal layer on a periphery of the fibrous member. A cable harness includes the flat cable, and a connecting terminal connected to an end of the flat cable. | 10-25-2012 |
| 20130000950 | EXTRUDED FLEXIBLE FLAT CABLE - The present invention provides an extruded flexible flat cable, which has a superior formability, flexibility, adhesiveness, and fire-retardancy, with a low manufacturing cost. The flexible flat cable of the present invention is adapted for sliding door of a motor vehicle and also other parts. The extruded flexible flat cable has a conductor covered with an insulation layer extrude-formed with an extrusion molding method. The insulation layer is formed from a fire-retardant resin composition containing a modified polybutylene terephthalate and a fire-retardant additive. The fire-retardant resin composition has a melting point of 170-215 degrees C. measured in reference to JIS K7121 with a differential thermal analysis at a rate of temperature increase of 10 degrees C. per minute. | 01-03-2013 |
| 20130118773 | Z-AXIS CONDUCTIVE ARTICLE AND METHOD OF MAKING THE SAME - A Z-axis conductive article includes an adhesive layer having a first major surface and a second major surface opposite the first major surface. The adhesive layer includes a dielectric pressure-sensitive adhesive and conductive magnetic particles aligned in mutually isolated conductive pathways extending from the first major surface to the second major surface of the adhesive layer. A method of making the same is also disclosed. | 05-16-2013 |
| 20130233590 | ADHESIVE FILM AND FLAT CABLE USING THE SAME - There is provided an adhesive film, comprising: an insulator film; an adhesive layer formed on the insulator film; and an intermediate adhesive layer interposed between the insulator film and the adhesive layer, wherein the intermediate adhesive layer is made of a mixed resin composition of a copolyamide being a crystalline resin solvable in a non-halogen based organic solvent and having a melting point of 100° C. or more and 150° C. or less, and a non-crystalline resin, and the intermediate adhesive layer contains a non-halogen flame retardant by 100 pts.wt. or more and 250 pts.wt. or less with respect to 100 pts.wt. of the mixed resin composition. | 09-12-2013 |
| 20130240243 | ELECTRICAL CABLE ARRANGEMENT - An electrical cable arrangement comprises a first electrical cable ( | 09-19-2013 |
| 20130312999 | FLEXIBLE CIRCUIT CABLE WITH AT LEAST TWO BUNDLED WIRE GROUPS - Disclosed is a flexible circuit cable with at least two bundled wire groups. The circuit cable has first and second ends respectively connected to first and second connection sections. The circuit cable includes a cluster section, which is formed of a plurality of cluster wires formed by slitting the circuit cable, in an extension direction of the cable, at a predetermined cut width. The cluster section includes at least two independent bundles, which are formed by dividing the cluster wires of the circuit cable into different signal groups according to electrical signals transmitted therethrough. Bundling members are used to the cluster wires of the independent bundles according to predetermined bundling modes. Further, the circuit cable has a surface forming a shielding conductive layer for electromagnetic interference protection and impedance control for internal signals of the circuit cable. | 11-28-2013 |
| 20140041896 | MEDIUM PROCESSING DEVICE AND FLEXIBLE CABLE - A medium processing device may include a head which reads or writes data to a recording medium; and a flexible cable which is connected with head. The flexible cable may be formed in a multilayer structure including a data signal layer formed with a data signal pattern and disconnection detecting signal layers which cover a front face and a rear face of the data signal layer and are formed with a disconnection detecting signal pattern. The flexible cable may also include a terminal connecting part formed with a through hole into which a signal terminal of the head is inserted and a terminal covering part turned around so as to cover the terminal connecting part and fixed to the terminal connecting part. | 02-13-2014 |
| 20140060886 | SPACER FOR USE IN A FLAT CABLE - This is directed to a cable for use with an electronic device. The cable can be substantially flat, such that all of the conductive wires of the cable are substantially in the same plane. A spacer can be placed between the wires to ensure that wires conducting signals remain a minimum distance apart to avoid signal degradation. The spacer can also control the bending of the cables to favor bending in a preferred direction while reducing or limiting bending in a less preferred direction. | 03-06-2014 |
| 20140116750 | FLAT CABLE - The invention is provided to a flat cable having a thinner insulating covering while keeping sufficient wear resistance and low temperature resistance. The invention provides a flat cable, which includes at least two conductors disposed apart from each other and in parallel to each other, and an insulating covering disposed over a periphery of the at least two conductors, and formed of vinyl chloride-based resin composition having a brittle temperature of from −40 Celsius degrees to −25 Celsius degrees, an hardness D of from 35 to 55, and heating deformation of 10% or below. | 05-01-2014 |
| 20140131064 | FLAT CABLE AND METHOD FOR PREPARING THE SAME - The objective of the invention is to provide a thin and flexible flat cable suited for being arranged in a narrow space such as a vehicle, as well as, a method for stably preparing such a flat cable. | 05-15-2014 |
| 20140158397 | CABLE - A cable for establishing connection with connectors comprises a plurality of wires parallel and apart from each other, and an insulating structure sandwiching the plurality of wires. The insulating structure comprises a plurality of isolating portions arranged between each of two adjacent wires. Each of the isolating portions comprises a perforated portion. | 06-12-2014 |
| 20140158398 | ADHESIVE RESIN COMPOSITION, ADHESIVE FILM USING THE SAME AND FLAT CABLE - An adhesive resin composition includes 60 to 95 parts by mass of amorphous thermoplastic polyester-based resin (A), 5 to 40 parts by mass of polyphenylene ether-based polymer (B) including a hydroxyl group and a repeating unit of 2,6-dimethylphenylene ether in a molecule thereof, and 60 to 200 parts by mass of a flame retardant per total 100 parts by mass of the amorphous thermoplastic polyester based resin (A) and the polyphenylene ether-based polymer (B). | 06-12-2014 |
| 20140182885 | ELECTRICAL CABLE ASSEMBLY - In accordance with an embodiment, an electrical cable can be configured to electrically connect to contact pads that are carried by a substrate. The electrical cable can include at least one, such as a pair, of electrical signal conductors and at least one, for instance a pair, of electrically conductive drain wires. A drain wire in the electrical cable can define a first surface that is configured to face the substrate and a second surface that is opposite the first surface. The drain wire can define a height that is greater than 0.2 mm as measured from the first surface to the second surface along a straight line. | 07-03-2014 |
| 20140262429 | MULTIPLE-CONDUCTOR FLAT CABLE - A multiple-conductor flat cable includes: an analog cable portion formed such that ground signal lines and analog signal lines are alternately arranged side by side across a signal transmission direction and each adjacent pair of the ground signal lines and the analog signal lines are joined while being electrically insulated from each other; and a digital cable portion joined with the analog cable portion while being placed adjacent to the digital cable portion and formed such that digital signal lines are arranged side by side across the signal transmission direction and each adjacent pair of the digital signal lines are joined while being electrically insulated from each other. | 09-18-2014 |
| 20140262430 | Flexible Flat Cable and Method of Manufacturing the Same - A flexible flat cable includes an insulating layer disposed through extrusion in vicinity of a plurality of conductors arrayed in parallel with each other. The insulating layer is composed of a vinyl chloride-based resin composition having a die swell ratio of 1.1 or more at a molding temperature during the extrusion. The molding temperature is between 150° C. to 200° C. with a linear rate of between 50 m/minute to 200 m/minute. A melt tension of the vinyl chloride-based resin composition is 0.02 N to 0.2 N. | 09-18-2014 |
| 20140299354 | CUSTOM CABLE TECHNOLOGY - The embodiments disclose a method including fabricating custom cables using a custom cable technology, wherein the custom cables include a universal flat cable including a plurality of flexible conduits including a plurality of cable pods, an ultra-flat cable and a flat series cable, and wherein the custom cables include reinforced cable jackets, and wherein the custom cables include reduced weight cable jackets including a microcell jacket. | 10-09-2014 |
| 20140299355 | FLAT CABLE AND ELECTRONIC DEVICE - A transmission line section of a flat cable includes a dielectric element including a signal conductor at an intermediate position of a thickness direction, a first ground conductor, and a second ground conductor. The first ground conductor includes elongated conductors that are spaced apart from each other in a width direction of the dielectric element, and extend in a longitudinal direction, and bridge conductors that connect the elongated conductors at spaced points along the longitudinal direction. A widened portion having a width larger than the width of the elongated conductors is located at the intermediate position between bridge conductors that are adjacent to each other along the longitudinal direction. The widened portion is configured to project in a direction in which the elongated conductors are opposed to each other. An interlayer connection conductor is located in the widened portion. The first ground conductor and the second ground conductor are connected by the interlayer connection conductor. | 10-09-2014 |
| 20150008012 | FLAT CABLE - A flat cable includes a dielectric element assembly including a plurality of dielectric layers laminated on each other in a direction of lamination, and a linear signal line provided in the dielectric element assembly. The dielectric element assembly includes at least one section bent in a plurality of places defining a zigzag shape when viewed in a plan view in the direction of lamination. In the zigzag section of the dielectric element assembly, any portions of the dielectric element assembly that are not adjacent across a bending line do not overlap when viewed in a plan view in the direction of lamination. | 01-08-2015 |
| 20150014018 | FLEXIBLE FLAT CABLE FOR LOW VOLTAGE DIFFERENTIAL SIGNALING - Disclosed is a flexible flat cable including an incision section including a cutting line, a connection section including a conductive line exposure end portion, and a transition section to connect the incision section with the connection section. Plural conductive lines are arranged with a pitch interval of 0.5 mm to form one conductive line group, and plural conductive line groups are arranged with an interval of 1.0 mm, such that the cutting line is in a space having the interval of 1.0 mm between the conductive groups. The conductive lines are collected at an end portion side of the incision section in the transition section, and the connection section includes a linear section which the conductive lines extending from an end portion of the transition section extend while being spaced apart from each other with a pitch of 0.5 mm and a conductive line exposure part exposed to an outside. | 01-15-2015 |
| 20150136443 | CABLE WITH MULTIPLE CONDUCTORS EACH HAVING A CONCENTRIC INSULATION LAYER - An electrical transmission cable has at least two wires joined in side-by-side relationship by a web. Each wire has a central conductor surrounded by a single layer of insulation that has an outer surface. A majority of the outer surface of the insulation layer is concentric with the conductor. The web is attached at first and second ends to the outer layers of the insulation of the first and second wires. The web has a neck located intermediate its first and second ends with the neck defining the point of least cross-sectional area of the web. Separation of one wire from the other will cause the web to break at the neck, thereby preventing damage to the insulation layer. Chordal segments of the insulation layer may be used to minimize the width of a multi-wire cable. | 05-21-2015 |
| 20150380126 | METHOD AND DEVICE FOR POSITIONING ELECTRICAL CONDUCTORS, AND CONDUCTOR GROUP - The present invention relates to a method (M | 12-31-2015 |
| 20160049222 | Flexible Transmission Line Assembly - A flexible transmission line assembly, which is connected between two relatively moving means that are movable relative to each other, comprises an abrasion-resistant flexible film and a plurality of transmission lines. The abrasion-resistant flexible film inner surface is surrounded to form a receiving space and is provided with an adhesive. The plurality of transmission lines is provided within the receiving space in a way each transmission line is adjacent to one another in a single row in width directions of the transmission lines, and the adjacent transmission lines being closely contacted with each other. The plurality of transmission lines is adhered with the inner surface of the abrasion-resistant flexible film by means of the adhesive, and the plurality of transmission lines at both ends in a longitudinal direction thereof is formed with a connecting element. | 02-18-2016 |
| 20160049223 | READILY STRIPPABLE CABLE - A readily-strippable cable is herein described having at least two wires encapsulated by a continuous electrically insulating layer wherein each encapsulated wire is connected to an adjacent wire by a relatively thinner portion of the insulating layer, the insulating layer having at least one relatively weak portion per encapsulated wire that extends along the length of the cable and is substantially uniform in position and strength along the length of the cable; and wherein the weak portion is configured to allow the insulating layer to split along the relatively weak portion and down the length of the cable upon separation of the encapsulated wires by application of force against the relatively thinner portion of insulating layer in a direction substantially perpendicular to the length of the cable, thereby exposing the wire without the use of a secondary operation. | 02-18-2016 |
| 20160155539 | READILY STRIPPABLE CABLE | 06-02-2016 |
| 20180025806 | FLEXIBLE FLAT CABLE | 01-25-2018 |
| 20120103657 | HIGH-SPEED CARD CABLE - Techniques described herein generally relate to ground planes. In some examples, an electrical cable is described that can include multiple signal lines. The multiple signal lines can be arranged to extend along a length of the electrical cable. A ground plane can be spaced apart from the multiple signal lines. The ground plane can include a mesh structure and an electrically conductive layer that is arranged to coat the mesh structure. The mesh structure can include multiple resin fibers. | 05-03-2012 |
