Patent application number | Description | Published |
20110031007 | Electromagnetic interference noise reduction board using electromagnetic bandgap structure - As a multi-layered board, an EMI noise reduction board, having an electromagnetic bandgap structure with band stop frequency properties inserted into an inner portion of the board, includes a first area, in which a ground layer and a power layer are formed, and a second area, placed on a side surface of the first area, in which it has the electromagnetic bandgap structure formed therein so as to shield an EMI noise radiated to the outside through the side surface of the first area. The electromagnetic bandgap structure includes a plurality of first conductive plates, placed along the edge of the board, a plurality of second conductive plates, disposed on a planar surface that is different from the first conductive plates such that the second conductive plates are alternately disposed with the first conductive plates, and a via, which connects the first conductive plates to the second conductive plates. | 02-10-2011 |
20110061925 | Printed circuit board having electromagnetic bandgap structure - Disclosed is a printed circuit board including an electromagnetic bandgap structure. The electromagnetic bandgap structure for blocking a noise is inserted into the printed circuit board. The electromagnetic bandgap structure can include a first conductive plate; a second conductive plate arranged on a planar surface that is different from that of the first conductive plate; a third conductive plate arranged on a planar surface that is different from that of the second conductive plate; and a stitching via unit configured to connect the first conductive plate and the third conductive plate by bypassing the planar surface on which the second conductive plate is arranged and including a first inductor element. | 03-17-2011 |
20110067914 | Printed circuit board having electromagnetic bandgap structure - Disclosed is a printed circuit board into which an electromagnetic bandgap structure for blocking a noise is inserted. The electromagnetic bandgap structure can include a first conductor and a second conductor arranged on different planar surfaces, a third conductor arranged on a same planar surface that is different from a planar surface where the second conductor is arranged, and a first stitching via unit configured to connect the first conductor to the third connector through the planar surface where the second conductor is arranged and being electrically separated from the second conductor. The first conductor can include a first plate, a second plate spaced from the first plate, and a second stitching unit configured to electrically connect the first plate to the second plate through a planar surface that is different from a planar surface where the first plate and the second plate are arranged. | 03-24-2011 |
20110067915 | Electromagnetic interference noise reduction board using electromagnetic bandgap structure - An EMI noise reduction board is disclosed. The electromagnetic interference (EMI) noise reduction board having an electromagnetic bandgap structure for shielding a noise includes: a first area having a ground layer and a power layer; a second area placed in a side portion of the first area having an electromagnetic bandgap structure therein. The electromagnetic bandgap structure includes: a plurality of first conductive plates and a plurality of second conductive plates placed on a same planar surface along the side portion of the first area; and a stitching via configured to electrically connect the first conductive plate to the second conductive plate through a planar surface that is different from the first conductive plate and the second conductive plate. | 03-24-2011 |
20110067917 | Printed circuit board having electromagnetic bandgap structure - Disclosed is a printed circuit board including an electromagnetic bandgap structure. The electromagnetic bandgap structure, which includes a first dielectric material for interlayer insulation and is for blocking a noise, is inserted into the printed circuit board. The electromagnetic bandgap structure can include a first conductive plate, a second conductive plate arranged on a planar surface that is different from that of the first conductive plate, a third conductive plate arranged on a same planar surface as the first conductive plate, and a stitching via unit configured to connect the first conductive plate and the third conductive plate through the planar surface on which the second conductive plate is arranged. A second dielectric material having a permittivity that is different from that of the first dielectric material is interposed between any two of the first conductive plate, the second conductive plate, and the third conductive plate. | 03-24-2011 |
Patent application number | Description | Published |
20080266018 | Electromagnetic bandgap structure and printed circuit board - An electromagnetic bandgap structure and a printed circuit board that can solve a mixed signal problem between an analog circuit and a digital circuit are disclosed. In accordance with an embodiment of the present invention, the electromagnetic bandgap structure can include a metal layer; and a plurality of mushroom type structures including a metal plate and a via. Here, the plurality of mushroom type structures can be formed on the metal layer in a stacked structure. With the present invention, the small sized electromagnetic bandgap structure can have a lower bandgap frequency. | 10-30-2008 |
20080266026 | Electromagnetic bandgap structure and printed circuit board - An electromagnetic bandgap structure and a printed circuit board that can solve a mixed signal problem between an analog circuit and a digital circuit are disclosed. In accordance with an embodiment of the present invention, the electromagnetic bandgap structure can include a first metal layer; a first dielectric layer, stacked in the first metal layer; a metal plate, stacked in the first dielectric layer; a via, connecting the first metal layer to the metal plate; a second dielectric layer, stacked in the metal plate and the first dielectric layer; and a second metal layer, stacked in the second dielectric layer. Here, a hole can be formed on the metal plate. With the present invention, the electromagnetic bandgap structure can lower a noise level more within the same frequency band as compared with other structures having the same size. | 10-30-2008 |
20090015354 | Electromagnetic bandgap structure, printed circuit board comprising this and method thereof - An electromagnetic bandgap structure and a printed circuit board including it as well as a method of manufacturing thereof that can solve a mixed signal problem between an analog circuit and a digital circuit are disclosed. The electromagnetic bandgap structure in accordance with an embodiment of the present invention can include: a first metal layer; a first dielectric layer, stacked on the first metal layer; a metal plate, stacked on the first dielectric layer; a second dielectric layer, stacked on the metal plate and the first dielectric layer; a second metal layer, stacked on the second dielectric layer; and a via, directed from the metal plate to the first metal layer and the second metal layer. The via can be connected to the first metal layer and is not connected the second metal layer. | 01-15-2009 |
20090084582 | Printed circuit board having stepped conduction layer - A printed circuit board having a stepped conduction layer is disclosed. In one embodiment of the invention, a printed circuit board is provided in which at least one conduction layer configured for use as a signal transmission layer is divided into at least two base regions and at least one connecting region connecting any adjacent two of the base regions, where the connecting region is stepped to a lower height than those of the base regions. The stepped conduction layer in the printed circuit board can be used to resolve the problem of mixed signals in a printed circuit board equipped with various parts and components, including an analog circuit and digital circuit, etc. | 04-02-2009 |
20090085691 | Printed circuit board with embedded chip capacitor and chip capacitor embedment method - A printed circuit board having an embedded chip capacitor is disclosed. According to an embodiment of the present invention, a printed circuit board having an embedded chip capacitor can include a first conductive layer; a second conductive layer, placed away from the first conductive layer; a chip capacitor, placed between the first conductive layer and the second conductive layer and having a second electrode, connected to the second conductive layer; and a via, connecting the first conductive layer to a first electrode of the chip capacitor. With the present invention, a problem mixed signals can be solved in the printed circuit board including an analog circuit and a digital circuit board by using the chip capacitor embedded in the printed circuit board as an electromagnetic bandgap structure. Here, various electrical devices or elements are mounted in the printed circuit board. | 04-02-2009 |
20090145646 | Electromagnetic bandgap structure and printed circuit board - According to the present invention, the board can include a dielectric layer; a plurality of conductive plates; and a stitching via, to electrically connect two of the conductive plates to each other. Here, the stitching via can include a first via and a second via, respectively, passing through the dielectric layer and having one end part being placed on a same planar surface as each of the two conductive plates; a connection pattern, having each end part being connected to the other end part of the first via and the second via, respectively; and a first extension pattern, placed on the same planar surface as one of the conductive plates and having one end part being connected to the one end part of the first via and the end part being connected to one of the conductive plates. | 06-11-2009 |
20090322450 | ELECTROMAGNETIC BANDGAP STRUCTURE AND PRINTED CIRCUIT BOARD - An electromagnetic bandgap structure and a printed circuit board having the same are disclosed. In accordance with an embodiment of the present invention, the electromagnetic bandgap structure can include a plurality of conductive layers, placed between two conductive layers; and a stitching via, configured to make an electrical connection between any two conductive layers of the conductive layers. Here, the stitching via can include a first via, one end part of the first via configured to any one of the two conductive plates; a second via, one end part of the second via configured to the other of the two conductive plates; and a connection pattern, placed on a planar surface that is different from the conductive plates, between the two conductive layers and configured to make an electrical connection between the other end part of the first via and the other end part of the second via. Any one of the first via and the second via can be formed to penetrate a same planar surface as at least one of the two conductive layers. | 12-31-2009 |
20100127790 | ELECTROMAGNETIC BANDGAP STRUCTURE AND PRINTED CIRCUIT BOARD - An electromagnetic bandgap structure is disclosed. In accordance with an embodiment of the present invention, the electromagnetic bandgap structure that blocks a noise of a certain frequency band can include 4 or more conductive plates, a first stitching via, which electrically connects any two of the conductive plates with each other by having a part of the first stitching via pass through a planar surface that is different from a planar surface of the conductive plates, a second stitching via, which electrically connects another two of the conductive plates with each other by having a part of the second stitching via pass through a planar surface that is different from a planar surface of the conductive plates, and a stitching via chain, which electrically connects the first stitching via and the second stitching via with each other. | 05-27-2010 |
20100132996 | ELECTROMAGNETIC BANDGAP STRUCTURE AND PRINTED CIRCUIT BOARD - In accordance with an embodiment of the present invention, an electromagnetic bandgap structure includes a plurality of conductive plates, and a multi-via connection part, which electrically connects any two of the plurality of conductive plates with each other. Here, the multi-via connection part includes: a first multi-via, including a first via, having one end part connected to one of the two conductive plates, and at least one other via connected in serial to the first via through a conductive trace; a second multi-via, including a second via, having one end part connected to the other of the two conductive plates, and at least one other via connected in serial to the second via through a conductive trace; and a conductive connection pattern, connecting any one of the vias included in the first multi-via and any one of the vias included in the second multi-via with each other. | 06-03-2010 |
20110179642 | Chip capacitor embedment method - A method of embedding a chip capacitor in a printed circuit board including a first conductive layer and a dielectric layer placed on the first conductive layer includes removing the dielectric layer to form a cavity exposing the first conductive layer; seating a chip capacitor in the cavity; filling a filled material at a space excluding a space occupied by the chip capacitor in the cavity; forming a via penetrating the filled material and being connected to the chip capacitor; and stacking a conductive material to constitute a second conductive layer in surfaces of the via and the dielectric layer and in an surface of the filled material filled in the cavity. | 07-28-2011 |
20110180312 | Printed circuit board with embedded chip capacitor - A printed circuit board having an embedded chip capacitor includes a first conductive layer; a second conductive layer, placed away from the first conductive layer; a chip capacitor, having a first electrode connected to the first conductive layer through being seated in a cavity formed between the first conductive layer and the second conductive layer; a filled material, filled in a space excluding a space occupied by the chip capacitor in the cavity; and a via, penetrating the filled material and connecting the second conductive layer to the second electrode of the chip capacitor. | 07-28-2011 |
20110299264 | EMI NOISE SHIELD BOARD INCLUDING ELECTROMAGNETIC BANDGAP STRUCTURE - The present invention provides an EMI noise shield board in which an EBG structure is inserted. The EMI noise shield board in accordance with an embodiment of the present invention can include: a first board portion, an electronic part being mounted on an upper surface of the first board portion, a circuit for transferring a signal and power to the electronic part being in the first board portion; and
| 12-08-2011 |
20120138338 | PRINTED CIRCUIT BOARD HAVING STEPPED CONDUCTION LAYER - A printed circuit board having stepped conduction layer includes at least one conduction layer configured for use as a signal transmission layer, the at least one conduction layer being divided into at least two base regions and at least one connecting region connecting any adjacent two of the base regions, and the connecting region being stepped to a lower height than those of the base regions. A lower surface of the connecting region lies on a same plane as a lower surface of the base region, or an upper surface of the connecting region lies on a same plane as an upper surface of the base region. A bridge connecting structure between the connecting regions and the base regions is disposed in possible noise transfer paths between a noise source and a noise attenuation target positioned on the printed circuit board. | 06-07-2012 |
Patent application number | Description | Published |
20080264685 | Electromagnetic bandgap structure and printed circuit board - An electromagnetic bandgap structure and a printed circuit board that solve a mixed signal problem are disclosed. In accordance with embodiments of the present invention, the electromagnetic bandgap structure includes a first metal layer; a first dielectric layer, stacked in the first metal layer; a second metal layer, stacked in the first dielectric layer, and having a holed formed at a position of the second dielectric layer; a second dielectric layer, stacked in the second metal layer; a metal plate, stacked in the second dielectric layer; a first via, penetrating the hole formed in the second metal layer and connecting the first metal layer and the metal plate; a third dielectric layer, stacked in the metal plate and the second dielectric layer; a third metal layer, stacked in the third dielectric layer; and a second via, connecting the second metal layer to the third metal layer. | 10-30-2008 |
20100134213 | ELECTROMAGNETIC BANDGAP STRUCTURE AND CIRCUIT BOARD - An electromagnetic bandgap structure includes: first conductive plates, placed on a first planar surface, in which the first conductive plates are lined up in a first direction; second conductive plates, placed on a second planar surface and arranged at an area corresponding to an area in which the first conductive plates are disposed, in which the second conductive plates are lined up in the first direction; a first stitching via, electrically connecting any two adjacent conductive portions with each other and in which the two adjacent conductive portions are lined up in a direction that is different from the first direction on the first planar surface; and a second stitching via, electrically connecting any two adjacent conductive portions with each other and in which the two adjacent conductive portions are lined up in a direction that is different from the first direction on the second planar surface. | 06-03-2010 |
20120162934 | ELECTROMAGNETIC BANDGAP STRUCTURE AND PRINTED CIRCUIT BOARD - An electromagnetic bandgap structure and a printed circuit board that solve a mixed signal problem are disclosed. In accordance with embodiments of the present invention, the electromagnetic bandgap structure includes a first metal layer; a first dielectric layer, stacked in the first metal layer; a second metal layer, stacked in the first dielectric layer, and having a holed formed at a position of the second dielectric layer; a second dielectric layer, stacked in the second metal layer; a metal plate, stacked in the second dielectric layer; a first via, penetrating the hole formed in the second metal layer and connecting the first metal layer and the metal plate; a third dielectric layer, stacked in the metal plate and the second dielectric layer; a third metal layer, stacked in the third dielectric layer; and a second via, connecting the second metal layer to the third metal layer. | 06-28-2012 |