| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 174119000 | Composite or noncircular strand section | 20 |
| 20100206612 | COILED RIBBON AS CONDUCTOR FOR STIMULATION ELECTRODES - One aspect is a coil including a laminate having metal layers. The coil is configured for the electrical connection of stimulation electrodes. One of the metal layers exhibits good electrical conductivity and another metal layer great mechanical strength. | 08-19-2010 |
| 20100230132 | NON-METALLIC, INTEGRATED SENSOR-INTERCONNECT DEVICE, MANUFACTURING PROCESS, AND RELATED APPLICATIONS - Exemplary embodiments provide materials, devices and arrays of integrated sensor assembly, as well as methods for forming and using such devices and arrays in sensing systems. In one embodiment, the integrated sensor assembly can include an interconnecting member and at least one sensor member connected with the interconnecting member at any location thereof. Each of the sensor member and the interconnecting member can include a core element and a polymer. The core element for the sensor member and the core element for the interconnecting member can be electrically interconnected. Various embodiments can also include a connector member connected to the interconnecting member for transmitting sensing signals from or to the sensor member. | 09-16-2010 |
| 20110036616 | POWER CABLE - A power cable ( | 02-17-2011 |
| 20130008688 | COVERING MATERIAL, COVERED RECTANGULAR ELECTRIC WIRE AND ELECTRICAL DEVICE - Provided is a covering material, in which the covering material is a covering material for covering a rectangular electric wire in such a way that the covering material is spirally wound around the rectangular electric wire in a manner partially overlapping with itself; and the covering material includes a backing having a tensile modulus of elasticity at 25° C. of 5.0 GPa or more. | 01-10-2013 |
| 20130008689 | COVERING MATERIAL FOR RECTANGULAR ELECTRIC WIRE, RECTANGULAR ELECTRIC WIRE COVERED WITH COVERING MATERIAL FOR RECTANGULAR ELECTRIC WIRE, AND ELECTRICAL DEVICE USING THE SAME - The covering material for a rectangular electric wire of the present invention is a covering adhesive tape for covering a rectangular electric wire, wherein a viscoelastic material layer is disposed on one side of the backing of the covering material. In particular, in the covering material for a rectangular electric wire of the present invention, the viscoelastic material layer preferably includes a silicone-based adhesive agent composition, and the backing preferably includes a polyimide resin. | 01-10-2013 |
| 20130206451 | FLAT CABLE COVERING AND FLAT CABLE COMPRISING THE SAME - There is provided a flat cable covering that possesses superior flame retardance, heat resistance, durability, blocking resistance, processability and other properties and, at the same time, is eco-friendly without use of halogen-based flame retardants and antimony-based flame retarding assistants. The flat cable covering includes a base film; and an anchor coat layer and a heat seal layer stacked in that order on the base film, wherein the heat seal layer comprises a resin composition including at least 70 to 30% by weight of a filler component composed mainly of a flame retardant and 30 to 70% by weight of a resin component composed mainly of a polyester-based resin, and the flame retardant is a non-halogen-based flame retardant including a metal salt of phosphinic acid and contained in an amount of 5 to 40% by weight based on the whole resin composition. | 08-15-2013 |
| 20130233592 | SIGNAL TRANSMISSION LINE DISPOSED WITH CONDUCTIVE PLASTIC MATERIAL LAYER - A signal transmission line disposed with a conductive plastic material layer is provided, which relates to the field of signal transmission line technologies, and specifically to electromagnetic interference (EMI) protection of the signal transmission line. The signal transmission line at least includes a metal wire disposed with an insulation layer, a conductive plastic material layer is disposed outside the metal wire disposed with the insulation layer, and an insulation outer coating layer is disposed outside the conductive plastic material layer. A conductive plastic material layer is used as a shielding layer for EMI protection. The conductive plastic material is also called conductive polymer plastic and has characteristics such as good conductivity and good antistatic property. | 09-12-2013 |
| 20150047876 | BUSBAR | 02-19-2015 |
| 20090038820 | COATING NEURAL ELECTRODES WITH CARBON NANOTUBES AND VARIATIONS - The present invention provides a method and system of using carbon nanotubes (CNTs) to coat neural electrodes of different geometries and materials. Additional elements such as gold platinum, polypyrrole, polyethylenedioxythiophene or other conductive polymers and covalent linkage through an amide bond are formed with the CNTs for attachment to the neural electrodes. Such CNT-coated electrodes have properties that improve the recording or stimulation characteristics of the electrodes, thus aiding the study of neural functions or the treatment of neural diseases. | 02-12-2009 |
| 20090277666 | HEAT-RESISTANT RESIN VARNISH, HEAT-RESISTANT RESIN FILMS, HEAT-RESISTANT RESIN COMPOSITES, AND INSULATED WIRE - A heat-resistant resin varnish characterized by comprising a polyamideimide resin whose terminal isocyanate group is blocked with a blocking agent and a polyamic acid, which is freed from viscosity increase even without employing any complicated step such as heating or cooling and which is easily applicable to a substrate and can form, through curing, films having excellent strength and elongation (toughness) equivalent to those of polyimide resin; heat-resistant resin films which are made of a heat-resistant resin formed by baking the varnish and have excellent toughness; heat-resistant composites having the heat-resistant resin films; and insulated wire which is covered with an insulating coating film made from the varnish through curing and having excellent toughness and which can be easily manufactured at a low cost. | 11-12-2009 |
| 20110147043 | SELF-HEALING INSULATION FOR MAGNET WIRE - A process for remediating the insulating properties of magnet wire insulation is described. Magnet wire, used in electric motors and other electrical devices, comprises an electrically-conductive core covered by a thin insulating layer. The insulating layer may be damaged or compromised during manufacture or service. A process for incorporating polymerizable materials, sequestered in microcapsules, within the insulating layer is described. When the insulating layer is subjected to conditions sufficient to compromise its insulating character, the microcapsules fracture and release their contents which then polymerize and re-establish the insulating properties of the layer. | 06-23-2011 |
| 20110174519 | CNT-INFUSED FIBER AS A SELF SHIELDING WIRE FOR ENHANCED POWER TRANSMISSION LINE - A wire includes a plurality of carbon nanotube infused fibers in which the infused carbon nanotubes are aligned parallel to the fiber axes. An electromagnetic shield for a wire includes a plurality of carbon nanotube infused fibers, in which the infused carbon nanotubes are aligned radially about the fiber axes. The plurality of carbon nanotube infused fibers are arranged circumferentially about the wire with the fiber axes parallel to the wire. A self-shielded wire includes 1) a wire that includes a plurality of carbon nanotube infused fibers in which the infused carbon nanotubes are aligned parallel to the fiber axes; and 2) an electromagnetic shield that includes a plurality of carbon nanotube infused fibers in which the carbon nanotubes are aligned radially about the fiber axes. The axes of the carbon nanotube infused fibers of the wire and the carbon nanotube infused fibers of the electromagnetic shield share are parallel. | 07-21-2011 |
| 20110180304 | CROSSLINKABLE POLYMER COMPOSITION - The invention relates to a Polymer Composition comprising
| 07-28-2011 |
| 20110290528 | Insulating varnish and insulated wire formed by using the same - An insulating varnish includes a polyamide-imide resin varnish including a solvent and a polyamide-imide resin, and an organosol. The polyamide-imide resin varnish is obtained by a synthesis reaction between a resin component (X) and an isocyanate component (Y). The resin component (X) is obtained by a synthesis reaction between a diamine component and an acid component in presence of an azeotropic medium. The diamine component includes aromatic diamines including a divalent aromatic group having three or more aromatic rings. The isocyanate component (Y) includes a diisocyanate (Y1) a molecule of which includes a bend structure. | 12-01-2011 |
| 20120241191 | INSULATING COATING MATERIAL AND INSULATED WIRE USING THE SAME - An insulating coating material includes a polyamide-imide resin insulating coating material, and surface-treated inorganic fine particles dispersed in the polyamide-imide resin insulating coating material. A viscosity measured by an E-type viscometer is 1000 to 4000 mPa·s at 30° C. and at a shear rate of 200 s-1 and 4000 to 12000 mPa·s at 30° C. and at a shear rate of 1 s-1. An insulated wire includes a rectangular conductor, and an insulating layer formed on the rectangular conductor and including the insulating coating material. | 09-27-2012 |
| 20130008687 | CONDUCTIVE FILM STRUCTURE CAPABLE OF RESISTING MOISTURE AND OXYGEN AND ELECTRONIC APPARATUS USING THE SAME - A conductive film structure capable of resisting moisture and oxygen and an electronic apparatus using the same are provided. The conductive film structure includes a metal electrode, a metal oxide layer, and an insulating layer. The metal oxide layer is disposed on the metal electrode and includes an oxide of the metal electrode. The insulating layer covers the metal oxide layer and has at least one pinhole therein. | 01-10-2013 |
| 20130037304 | INSULATED WIRE - An insulated wire having:
| 02-14-2013 |
| 20130240244 | INSULATED WIRE AND COIL FORMED BY USING THE SAME - An insulated wire includes a flat type conductor, and an insulating film on an outer periphery of the flat type conductor. The insulating film includes a polyimide layer including a polyimide and having a breaking elongation percentage of more than 80%. | 09-19-2013 |
| 20140360756 | ELECTRICALLY INSULATED WIRE - An electrically insulated wire includes a rectangular conductor having a substantially rectangular cross section with corners shaped in a circular arc, and an electrical insulating coating formed by heating an electrical insulating varnish applied to coat an outer periphery of the rectangular conductor. The electrical insulating coating includes a thickest portion and a thinnest portion in a peripheral direction thereof. The rectangular conductor has a curvature radius of the corners of 0.6 mm or less and a ratio L | 12-11-2014 |
| 20160035463 | METHOD FOR BONDING FLAT CABLE AND BONDING OBJECT, ULTRASONIC BONDING DEVICE, AND CABLE - Provided is a method capable of reducing the amount of a coating part remaining between a conductor and a bonding object. A chip comes closer to an anvil so that the flat cable and the terminal are sandwiched between the chip and the anvil. The flat cable and the terminal are pressed so as to come close to each other. When the chip ultrasonically vibrates, vibrations of the chip propagate to the terminal, causing the terminal to ultrasonically vibrate. Then heat is generated in a plate part by friction between the chip and the plate part. The coating part being positioned between the conductor and the plate part melts from the generated heat and is removed. Thereby the conductor and the plate part come into contact with each other resulting in a solid-phase bonding together. | 02-04-2016 |
| 174119000 | Coated, compositions | 12 |
| 20100206612 | COILED RIBBON AS CONDUCTOR FOR STIMULATION ELECTRODES - One aspect is a coil including a laminate having metal layers. The coil is configured for the electrical connection of stimulation electrodes. One of the metal layers exhibits good electrical conductivity and another metal layer great mechanical strength. | 08-19-2010 |
| 20100230132 | NON-METALLIC, INTEGRATED SENSOR-INTERCONNECT DEVICE, MANUFACTURING PROCESS, AND RELATED APPLICATIONS - Exemplary embodiments provide materials, devices and arrays of integrated sensor assembly, as well as methods for forming and using such devices and arrays in sensing systems. In one embodiment, the integrated sensor assembly can include an interconnecting member and at least one sensor member connected with the interconnecting member at any location thereof. Each of the sensor member and the interconnecting member can include a core element and a polymer. The core element for the sensor member and the core element for the interconnecting member can be electrically interconnected. Various embodiments can also include a connector member connected to the interconnecting member for transmitting sensing signals from or to the sensor member. | 09-16-2010 |
| 20110036616 | POWER CABLE - A power cable ( | 02-17-2011 |
| 20130008688 | COVERING MATERIAL, COVERED RECTANGULAR ELECTRIC WIRE AND ELECTRICAL DEVICE - Provided is a covering material, in which the covering material is a covering material for covering a rectangular electric wire in such a way that the covering material is spirally wound around the rectangular electric wire in a manner partially overlapping with itself; and the covering material includes a backing having a tensile modulus of elasticity at 25° C. of 5.0 GPa or more. | 01-10-2013 |
| 20130008689 | COVERING MATERIAL FOR RECTANGULAR ELECTRIC WIRE, RECTANGULAR ELECTRIC WIRE COVERED WITH COVERING MATERIAL FOR RECTANGULAR ELECTRIC WIRE, AND ELECTRICAL DEVICE USING THE SAME - The covering material for a rectangular electric wire of the present invention is a covering adhesive tape for covering a rectangular electric wire, wherein a viscoelastic material layer is disposed on one side of the backing of the covering material. In particular, in the covering material for a rectangular electric wire of the present invention, the viscoelastic material layer preferably includes a silicone-based adhesive agent composition, and the backing preferably includes a polyimide resin. | 01-10-2013 |
| 20130206451 | FLAT CABLE COVERING AND FLAT CABLE COMPRISING THE SAME - There is provided a flat cable covering that possesses superior flame retardance, heat resistance, durability, blocking resistance, processability and other properties and, at the same time, is eco-friendly without use of halogen-based flame retardants and antimony-based flame retarding assistants. The flat cable covering includes a base film; and an anchor coat layer and a heat seal layer stacked in that order on the base film, wherein the heat seal layer comprises a resin composition including at least 70 to 30% by weight of a filler component composed mainly of a flame retardant and 30 to 70% by weight of a resin component composed mainly of a polyester-based resin, and the flame retardant is a non-halogen-based flame retardant including a metal salt of phosphinic acid and contained in an amount of 5 to 40% by weight based on the whole resin composition. | 08-15-2013 |
| 20130233592 | SIGNAL TRANSMISSION LINE DISPOSED WITH CONDUCTIVE PLASTIC MATERIAL LAYER - A signal transmission line disposed with a conductive plastic material layer is provided, which relates to the field of signal transmission line technologies, and specifically to electromagnetic interference (EMI) protection of the signal transmission line. The signal transmission line at least includes a metal wire disposed with an insulation layer, a conductive plastic material layer is disposed outside the metal wire disposed with the insulation layer, and an insulation outer coating layer is disposed outside the conductive plastic material layer. A conductive plastic material layer is used as a shielding layer for EMI protection. The conductive plastic material is also called conductive polymer plastic and has characteristics such as good conductivity and good antistatic property. | 09-12-2013 |
| 20150047876 | BUSBAR | 02-19-2015 |
| 20090038820 | COATING NEURAL ELECTRODES WITH CARBON NANOTUBES AND VARIATIONS - The present invention provides a method and system of using carbon nanotubes (CNTs) to coat neural electrodes of different geometries and materials. Additional elements such as gold platinum, polypyrrole, polyethylenedioxythiophene or other conductive polymers and covalent linkage through an amide bond are formed with the CNTs for attachment to the neural electrodes. Such CNT-coated electrodes have properties that improve the recording or stimulation characteristics of the electrodes, thus aiding the study of neural functions or the treatment of neural diseases. | 02-12-2009 |
| 20090277666 | HEAT-RESISTANT RESIN VARNISH, HEAT-RESISTANT RESIN FILMS, HEAT-RESISTANT RESIN COMPOSITES, AND INSULATED WIRE - A heat-resistant resin varnish characterized by comprising a polyamideimide resin whose terminal isocyanate group is blocked with a blocking agent and a polyamic acid, which is freed from viscosity increase even without employing any complicated step such as heating or cooling and which is easily applicable to a substrate and can form, through curing, films having excellent strength and elongation (toughness) equivalent to those of polyimide resin; heat-resistant resin films which are made of a heat-resistant resin formed by baking the varnish and have excellent toughness; heat-resistant composites having the heat-resistant resin films; and insulated wire which is covered with an insulating coating film made from the varnish through curing and having excellent toughness and which can be easily manufactured at a low cost. | 11-12-2009 |
| 20110147043 | SELF-HEALING INSULATION FOR MAGNET WIRE - A process for remediating the insulating properties of magnet wire insulation is described. Magnet wire, used in electric motors and other electrical devices, comprises an electrically-conductive core covered by a thin insulating layer. The insulating layer may be damaged or compromised during manufacture or service. A process for incorporating polymerizable materials, sequestered in microcapsules, within the insulating layer is described. When the insulating layer is subjected to conditions sufficient to compromise its insulating character, the microcapsules fracture and release their contents which then polymerize and re-establish the insulating properties of the layer. | 06-23-2011 |
| 20110174519 | CNT-INFUSED FIBER AS A SELF SHIELDING WIRE FOR ENHANCED POWER TRANSMISSION LINE - A wire includes a plurality of carbon nanotube infused fibers in which the infused carbon nanotubes are aligned parallel to the fiber axes. An electromagnetic shield for a wire includes a plurality of carbon nanotube infused fibers, in which the infused carbon nanotubes are aligned radially about the fiber axes. The plurality of carbon nanotube infused fibers are arranged circumferentially about the wire with the fiber axes parallel to the wire. A self-shielded wire includes 1) a wire that includes a plurality of carbon nanotube infused fibers in which the infused carbon nanotubes are aligned parallel to the fiber axes; and 2) an electromagnetic shield that includes a plurality of carbon nanotube infused fibers in which the carbon nanotubes are aligned radially about the fiber axes. The axes of the carbon nanotube infused fibers of the wire and the carbon nanotube infused fibers of the electromagnetic shield share are parallel. | 07-21-2011 |
| 20110180304 | CROSSLINKABLE POLYMER COMPOSITION - The invention relates to a Polymer Composition comprising
| 07-28-2011 |
| 20110290528 | Insulating varnish and insulated wire formed by using the same - An insulating varnish includes a polyamide-imide resin varnish including a solvent and a polyamide-imide resin, and an organosol. The polyamide-imide resin varnish is obtained by a synthesis reaction between a resin component (X) and an isocyanate component (Y). The resin component (X) is obtained by a synthesis reaction between a diamine component and an acid component in presence of an azeotropic medium. The diamine component includes aromatic diamines including a divalent aromatic group having three or more aromatic rings. The isocyanate component (Y) includes a diisocyanate (Y1) a molecule of which includes a bend structure. | 12-01-2011 |
| 20120241191 | INSULATING COATING MATERIAL AND INSULATED WIRE USING THE SAME - An insulating coating material includes a polyamide-imide resin insulating coating material, and surface-treated inorganic fine particles dispersed in the polyamide-imide resin insulating coating material. A viscosity measured by an E-type viscometer is 1000 to 4000 mPa·s at 30° C. and at a shear rate of 200 s-1 and 4000 to 12000 mPa·s at 30° C. and at a shear rate of 1 s-1. An insulated wire includes a rectangular conductor, and an insulating layer formed on the rectangular conductor and including the insulating coating material. | 09-27-2012 |
| 20130008687 | CONDUCTIVE FILM STRUCTURE CAPABLE OF RESISTING MOISTURE AND OXYGEN AND ELECTRONIC APPARATUS USING THE SAME - A conductive film structure capable of resisting moisture and oxygen and an electronic apparatus using the same are provided. The conductive film structure includes a metal electrode, a metal oxide layer, and an insulating layer. The metal oxide layer is disposed on the metal electrode and includes an oxide of the metal electrode. The insulating layer covers the metal oxide layer and has at least one pinhole therein. | 01-10-2013 |
| 20130037304 | INSULATED WIRE - An insulated wire having:
| 02-14-2013 |
| 20130240244 | INSULATED WIRE AND COIL FORMED BY USING THE SAME - An insulated wire includes a flat type conductor, and an insulating film on an outer periphery of the flat type conductor. The insulating film includes a polyimide layer including a polyimide and having a breaking elongation percentage of more than 80%. | 09-19-2013 |
| 20140360756 | ELECTRICALLY INSULATED WIRE - An electrically insulated wire includes a rectangular conductor having a substantially rectangular cross section with corners shaped in a circular arc, and an electrical insulating coating formed by heating an electrical insulating varnish applied to coat an outer periphery of the rectangular conductor. The electrical insulating coating includes a thickest portion and a thinnest portion in a peripheral direction thereof. The rectangular conductor has a curvature radius of the corners of 0.6 mm or less and a ratio L | 12-11-2014 |
| 20160035463 | METHOD FOR BONDING FLAT CABLE AND BONDING OBJECT, ULTRASONIC BONDING DEVICE, AND CABLE - Provided is a method capable of reducing the amount of a coating part remaining between a conductor and a bonding object. A chip comes closer to an anvil so that the flat cable and the terminal are sandwiched between the chip and the anvil. The flat cable and the terminal are pressed so as to come close to each other. When the chip ultrasonically vibrates, vibrations of the chip propagate to the terminal, causing the terminal to ultrasonically vibrate. Then heat is generated in a plate part by friction between the chip and the plate part. The coating part being positioned between the conductor and the plate part melts from the generated heat and is removed. Thereby the conductor and the plate part come into contact with each other resulting in a solid-phase bonding together. | 02-04-2016 |
