| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 174392000 | Grid | 9 |
| 20080245563 | Electromagnetic Wave Shielding Device - An electromagnetic wave shielding layer | 10-09-2008 |
| 20080277157 | Electromagnetic Wave Shielding Sheet and Process For Producing the Same - An electromagnetic wave shielding sheet | 11-13-2008 |
| 20150101860 | ELECTRONIC DEVICE PROTECTION - A method includes permitting a first signal having a first electromagnetic waveform to pass through an apparatus. The method further includes blocking a second signal having a second electromagnetic waveform at the apparatus, wherein the second electromagnetic waveform is different than the first electromagnetic waveform. The apparatus includes a non-conductive substrate and a plurality of cells including conductive members coupled to the non-conductive substrate, where the conductive members are arranged to form a first discontinuous mesh, where regions between the conductive members of the first discontinuous mesh include a phase change material, and where the phase change material undergoes a phase transition from substantially non-conductive to substantially conductive. | 04-16-2015 |
| 174393000 | Conductive woven layer | 6 |
| 20090126987 | Fold-in braided shield - A braided shield includes a housing formed from a plurality of wires braided together and having a dual-layer configuration. The housing has an outer layer integrally formed with an inner layer. A support is at least partially disposed in the housing, and the inner layer is disposed between the support and the outer layer. The inner layer and outer layer reduce electromagnetic radiation leakage into/out of the housing by reducing the number of holes in the housing. Forming the braided shield includes providing the housing, which defines a longitudinal axis and a passage extending along the longitudinal axis. The housing has an end portion, and the end portion is compressed transverse to the longitudinal axis. The end portion is then forced into the passage. Accordingly, the braid shield reduces or eliminates electromagnetic radiation while providing a strong and consistent crimp with the support. | 05-21-2009 |
| 20120186870 | ELECTROMAGNETIC RADIATION ATTENUATING LAMINAR MESH - The present invention relates to a laminar mesh that attenuates electromagnetic radiation, designed to be preferably applied in buildings in order to protect certain architectural areas or parts against electromagnetic waves, characterised in that it is made by attaching to each other a textile mesh ( | 07-26-2012 |
| 20130333938 | SHIELDED CABLE - A shielded cable includes: at least one conductor; an insulator with which a surface of the at least one conductor is coated, the insulator having a hardness of 10 or more and 90 or less; and a shield layer disposed on a periphery of the insulator, the shield layer being formed by braiding plated fibers. | 12-19-2013 |
| 20140262478 | EMI Shielding Textile Fabric, Wrappable Sleeve Constructed Therefrom and Method of Construction Thereof - A textile fabric, sleeve formed therefrom, and methods of construction thereof are provided. The fabric forms an elongate wall constructed from lengthwise extending warp yarns woven with widthwise extending weft yarns. At least some of the warp yarns are electrically conductive and have a first diameter. The weft yarns have a second diameter that is at least 25 percent less than the first diameter of the warp yarns. As such, the conductive warp yarns are brought into closer proximity with one another than if the weft yarns were the same diameter as the warp yarns. Accordingly, the ability of the fabric and sleeve formed therewith to provide shielding protection against EMI is enhanced. | 09-18-2014 |
| 20150083482 | ELECTRIC CABLE - An electric cable includes a conductor core including conductors each covered with an insulation layer, and a braided layer formed on an outer periphery of the conductor core. The braided layer includes a braid of a first line group and a second line group. The first line group includes first metal lines and first fiber lines arranged along a longitudinal direction of the conductor core and is spirally wound around the outer periphery of the conductor core. The second line group includes second metal lines and second fiber lines arranged along the longitudinal direction of the conductor core and is spirally wound around the outer periphery of the conductor core in a direction opposite to the first line group. | 03-26-2015 |
| 20150129297 | CONNECTION METHOD BETWEEN BRAIDED SHIELD LAYER OF SHILED WIRE AND DRAIN WIRE, AND CONNECTION STRUCTURE OF THE SAME - [Technical Problem] | 05-14-2015 |
