Class / Patent application number | Description | Number of patent applications / Date published |
174384000 | Wall structure | 23 |
20080202806 | SHIELDING DEVICE - A shielding device configured to provide EMI or ESD protection to an electronic component ( | 08-28-2008 |
20090000819 | ELECTROMAGNETIC INTERFERENCE SHIELDED PANEL AND METHOD OF MANUFACTURE - An electromagnetic interference shielded panel and method of manufacture. The panel includes one or more frame members having a rib adapted to provide sacrificial material when a first skin member is welded to the frame member. The first skin member is welded to the frame members of a frame assembly prior to bonding of a core member and a second skin member to the first skin member and frame assembly. | 01-01-2009 |
20090152000 | Electromagnetic Interference Shielded Panel - An electromagnetic interference shielded panel and method of manufacture. The panel includes one or more frame members having a rib adapted to provide sacrificial material when a first skin member is welded to the frame member. The first skin member is welded to the frame members of a frame assembly prior to bonding of a core member and a second skin member to the first skin member and frame assembly. | 06-18-2009 |
20090211802 | ELECTROMAGNETIC INTERFERENCE (EMI) SHIELDING APPARATUS AND RELATED METHODS - According to various aspects, exemplary embodiments are provided of shielding apparatus suitable for use in providing electromagnetic interference shielding for one or more electrical components on a substrate. In one exemplary embodiment, a shielding apparatus generally includes first and second walls. The first wall includes laterally spaced-apart detent protrusions. The second wall includes an edge portion disposed relative to the first wall such that an interface between the edge portion of the second wall and the first wall is substantially sealed against the ingress and/or egress of electromagnetic interference through the interface. The edge portion of the second wall is engaged generally between and laterally confined by the laterally spaced-apart detent protrusions of the first wall, such that the laterally spaced-apart detent protrusions inhibit movement of the second wall relative to the first wall. Accordingly, this helps retain the interface between the edge portion of the second wall and the first wall substantially sealed against the ingress and/or egress of electromagnetic interference through the interface. | 08-27-2009 |
20090250262 | INDUCTOR WITH PATTERNED GROUND PLANE - An inductor with patterned ground plane is described. In one design, the inductor includes a conductor formed on a first layer and a patterned ground plane formed on a second layer under the conductor. The patterned ground plane has an open center area and a shape matching the shape of the conductor. The patterned ground plane includes multiple shields, e.g., eight shields for eight sides of an octagonal shape conductor. Each shield has multiple slots formed perpendicular to the conductor. Partitioning the patterned ground plane into separate shields and forming slots on each shield help prevent the flow of eddy current on the patterned ground plane, which may improve the Q of the inductor. Multiple interconnects couple the multiple shields to circuit ground, which may be located at the center of the conductor. | 10-08-2009 |
20100200288 | EMI-Shielding Solutions for Computer Enclosures Using Combinations of Two and Three-Dimensional Shapes Formed in Sheet Metal - The present invention provides a configuration of a computer-chassis containment or other electromagnetic device method for manufacture in which a “one-hit” solution may be implemented to provide adequate electromagnetic interference shielding (EMC shielding) and is configured such that shielding gaskets, “spoons” or other excessive structures may be reduced or eliminated completely. Patterned sinusoidal “patterns” that are stamped, molded, cut, or extruded into one or more sides of a “box” provide sufficient EMI shielding, such that the need for gaskets is reduced or eliminated. | 08-12-2010 |
20110083895 | Three-Dimensional Shapes with multiple Parametric geometries and Surfaces Formed in Electronics Enclosures for Providing Electromagnetic Interference (EMI) Shielding - The present invention provides a configuration of an electronics enclosure, including a computer chassis in which three-dimensional shapes that may be in the form of a partial or quarter-sphere or cube or other periodic “patterns” may be stamped, molded, cut, or extruded into a lid and a five-sided “box” to provide improved EMI shielding, such that the need for gaskets is reduced or eliminated. | 04-14-2011 |
20110155445 | SHIELD CAN OF MOBILE TERMINAL - A shield can of a mobile terminal is provided. The shield can of the mobile terminal includes: at least one shield can installed in a main circuit board of the mobile terminal, and at least one separation wall formed between electronic elements in which electromagnetic interference occurs within the shield can. Hence, shield ability can be improved and simplified manufacturing process of the separation wall can reduce cost. | 06-30-2011 |
20110266047 | ENCLOSURE OF ELECTRONIC DEVICE - An enclosure includes a plate. The plate defines a number of through holes. A first shield extends from an edge bounding each through hole. A second shield extends from the edge bounding each through hole, opposite to the first shields. Each through hole is partially covered by a corresponding first shield and a corresponding second shield. The enclosure with the shields can shield the electronic device from electromagnetic interference. | 11-03-2011 |
20120145450 | SHIELDING DEVICE - A shielding device includes a frame body and a connector. The frame body is composed of multiple sideboards. One of the sideboards is formed with a receiving hole and at least three arcuate slots. The connector has a main body section, a connection end section and at least three arcuate protrusions. The three arcuate protrusions are formed on an end face of the main body section at a front end of the connector corresponding to the arcuate slots. The arcuate protrusions are fixedly installed in the arcuate slots of the frame body to securely connect the connector with the frame body. Accordingly, the shielding device meets the requirement for high torque specification. | 06-14-2012 |
20120318573 | ELECTROMAGNETIC SHIELDING CONFIGURATION - An electromagnetic shielding configuration comprising a first electrically conductive wall having a first surface and a second electrically conductive wall having a second surface. The first surface is oppositely disposed from the second surface, wherein interfacing of the first conductive wall and the second conductive wall forms an enclosure wall. The first surface comprises at least one stepped edge forming a plurality of surfaces of unequal lateral displacement, and a corrugated surface on at least one of the plurality of surfaces, the corrugated surface formed by a series of apices extending radially from the first surface. The second surface is substantially a conjugate of the first surface. | 12-20-2012 |
20130199836 | SHIELD COVER AND SHIELD STRUCTURE - The present invention is to provide a shield cover and a shield structure which can be improved according to an electromagnetic shielding means. The shield cover by processing a conductive plate slidably includes a front shield portion, a back shield portion, a side shield portion, connections, an entry and a receiving space, and covers a wiring harness | 08-08-2013 |
20150366107 | PANEL FOR BROADBAND ELECTROMAGNETIC SHIELDING - A panel for an electromagnetic shield includes a light-weight, porous, electrically-conductive core layer of metallic foam having generally parallel opposed surfaces and a face sheet having rigidity properties superior to the rigidity properties of the core layer laminated to a surface of the core layer. Alternatively, a panel for a broadband electromagnetic shield includes a composite fiber-reinforced core having opposed surfaces and a layered electrically-conductive composite cover disposed on a surface of the core. The cover includes a first stratum of porous metal exhibiting pronounced low-frequency electromagnetic shielding properties and a second stratum of electrically-conductive elements exhibiting pronounced high-frequency electromagnetic shielding properties secured in an overlapping electrically-continuous relationship to the first stratum, the first stratum being a metallic lattice, and the electrically-conductive elements being a non-woven veil of electrically-nonconductive metal-coated fibers. | 12-17-2015 |
20160044840 | Method for Producing a Housing Having Shielding Against Electric and/or Magnetic Radiation, and Housing Having the Shielding - In a method for producing a housing having shielding against electric and/or magnetic radiation, an electrically and/or magnetically conductive foil and a housing made of an electrically and/or magnetically non-conductive material and having an outer and an inner wall are provided. The foil is shaped such that a shape of the foil corresponds to a shape of the outer or inner wall of the housing. The foil is arranged on the inner or outer wall of the housing. | 02-11-2016 |
20160095266 | ELECTROMAGNETIC INTERFERENCE (EMI) SHIELDING APPARATUS INCLUDING ELECTRICALLY-CONDUCTIVE FOAM - According to various aspects, exemplary embodiments are disclosed of shielding apparatus or assemblies including electrically-conductive foam frames and covers or lids attachable to the frames. Also disclosed are exemplary embodiments of electrically-conductive foam frames for shielding apparatus or assemblies. Further, exemplary embodiments are disclosed of methods relating to making shielding apparatus or assemblies including electrically-conductive foam frames. Additionally, exemplary embodiments are disclosed of methods relating to providing shielding for one or more components on a substrate. | 03-31-2016 |
20160150685 | ELECTROMAGNETIC SHIELDING STRUCTURE - An electromagnetic shielding structure in one aspect of the present invention comprises one and more gripping members and a shielding case. The shielding case has a roof section and a plurality of side walls. The roof section comprises a polygonal panel that is shaped so as not to fit inside a 30 mm×30 mm square region. The side walls comprise panels that are provided so as to hang from portions corresponding to part or entirety of some of sides of the polygonal roof, and each side wall is configured to contact the gripping member at a position within a predetermined distance from an edge of that side wall in a direction perpendicular to both a thickness direction of that side wall and a thickness direction of a printed circuit board. | 05-26-2016 |
20160157393 | ELECTROMAGNETIC INTERFERENCE GASKET | 06-02-2016 |
174385000 | Hole geometry | 1 |
20150366112 | KNIT EMI SHIELD AND METHOD OF CONSTRUCTION THEREOF - An electromagnetic interference (EMI) shield assembly and method of construction is provided. The assembly includes a body having a wall of warp knit nonmetallic yarn having opposite sides extending generally parallel with one another between opposite ends and a plurality of weft inserted metal wires. The wire is inserted to provide discrete bundles each arranged in side-by-side relation with one another and extending beyond the opposite sides of the wall to provide a plurality of exposed free ends. The nonmetallic yarn is looped about the wires, thereby fixing the wire relative to the nonmetallic yarn and to other wires in an optimal EMI shielding position. Metal brackets adapted for ready attachment to a source of electrical ground are attached to the exposed free ends. The individual bundles of wires extend parallel to one another, with a gap having a predetermined width extending between the adjacent bundles. | 12-17-2015 |
174386000 | Specific layers | 5 |
20100212951 | Electromagnetic interference noise reduction board using electromagnetic bandgap structure - An EMI noise reduction board using an electromagnetic bandgap structure is disclosed. In the EMI noise reduction board according to an embodiment of the present invention, an electromagnetic bandgap structure having band stop frequency properties can be inserted into an inner portion of the board so as to shield an EMI noise, in which the portion corresponds to an edge of the board and in which the EMI noise is conducted from the inside to the edge of the board and radiates to the outside of the board. | 08-26-2010 |
20110100701 | FARADAY CAGE AND DEVICE HAVING SAME - A Faraday cage includes a casing structured by a first housing having a first outer cover made of a conductive material, and a first inner cover made of a conductive material, which is accommodated in the first outer cover and is electrically insulated from the first outer cover, and a second housing having a second outer cover made of a conductive material, which fits the first outer cover, and a second inner cover made of a conductive material, which is accommodated in the second outer cover and is electrically insulated from the second outer cover, the first and second housings being separable from each other; and a filter cartridge disposed inside the casing configured to be separable into two pieces, which accommodates therein a first filter for collecting fine particles sucked in from the outside the casing. | 05-05-2011 |
20120138357 | ELECTROMAGNETIC SHIELDING ARTICLE - A shielding article includes a polymeric conductive layer and a protective layer disposed adjacent the polymeric conductive layer. The polymeric conductive layer provides electromagnetic shielding characteristics so as to prevent receipt of data from a radio frequency information component by an external device when the component is located between the external device on one side and the polymeric conductive and protective layers on the other side. The shielding article may be shaped to substantially surround the radio frequency information component. | 06-07-2012 |
20130233610 | ELECTROMAGNETICALLY-SHIELDING ENCLOSURE - A panel for an electromagnetic shield includes a light-weight, porous, electrically-conductive, fluid-permeable planar core layer defined between generally parallel first and second surfaces and a first face sheet laminated to the first surface of the core layer with rigidity properties superior to the rigidity properties of the core layer. The thickness of the first face sheet is substantially less than the thickness of the core layer. The core layer is made of metallic foam or a metal coating on an electrically-nonconductive, porous, nonmetallic substrate chosen from among nonwoven fibrous matting, paper, and open-cell nonmetallic foam. Also, the core layer may also may be made up of liberated branching metal nanostrands or a plurality of electrically-coupled, electrically-conductive particles, each taking the from of an electrically-nonconductive, nonmetallic substrate with a metal coating. The first face sheet includes a cured layer of resin and, distributed throughout the resin, electrically-conductive elements selected from among liberated branched metal nanostrands, metal wires, and metal meshes, in addition to fibers, woven fabric, nonwoven matting, or paper that are metal-coated. | 09-12-2013 |
20160037690 | ELECTROMAGNETIC SHIELD BODY AND BOX - An electromagnetic shield body includes a metal plate and insulating resin combined with each other by insert molding. The metal plate is provided with a projection portion projecting into the insulating resin from the metal plate. The projection portion has a supporting side that dams up and holds the insulating resin introduced into a space defined by the projection portion. | 02-04-2016 |