Patent application number | Description | Published |
20100214721 | Electric double layer capacitor package - An electric double layer capacitor package includes a package body including a groove region formed by removing a portion from a surface thereof, an electric double layer capacitor disposed in the groove region of the package body, and including first and second electrodes and an ion permeable separator disposed between the first and second electrodes, and first and second conductive vias each disposed in an inner portion of the package body and each having one end connected to one of the first and second electrodes, respectively and the other end extending from the one end toward a bottom surface of the package body in the case that the surface is defined as an upper region of the package body. The electric double layer capacitor package can be surface-mounted without using an additional structure. The use of the electric double layer capacitor package achieves a reduction in thickness and mounting area, thereby contributing to the production of lighter and smaller products. | 08-26-2010 |
20100308838 | ELECTRONIC APPARATUS TRANSMITTING AND RECEIVING SIGNAL THROUGH SINGLE WIRE - There is provided an electronic apparatus transmitting and receiving a signal through a single wire that that has a main electronic apparatus and a sub-electronic apparatus connected through a single wire, transmits status information and performs control and communication through the single wire. The electronic apparatus transmitting and receiving a signal through a single wire may include: a sub-electronic apparatus transmitting a detection signal containing status information through a single wire, and performing a predetermined operation upon receiving a response signal to the detection signal; and a main electronic apparatus receiving the detection signal through the single wire and transmitting the response signal having a different signal format from the detection signal to the sub-electronic apparatus. | 12-09-2010 |
20100328846 | Electrode for electric double layer capacitor, method of manufacturing the same, and electric double layer capacitor - An electrode for an electric double layer capacitor includes a current collector including an aluminum (Al) foil layer and a highly conductive metal layer having a higher conductivity than Al and laminated on the Al foil layer, a groove formed in the Al foil layer to cause the highly conductive metal layer to contact an electrode material, and an electrode layer formed of the electrode material on the groove and the Al foil layer. | 12-30-2010 |
20110002084 | Chip-type electric double layer capacitor and method of manufacturing the same - A chip-type electric double layer capacitor includes: an exterior case including a housing space formed therein and formed of insulation resin; a first external terminal buried in the exterior case and including a first surface exposed to the housing space and a second surface exposed to the outside of the exterior case; a second external terminal buried in the exterior case and including a first surface exposed to the housing space and a second surface exposed to the outside of the exterior case; and an electric double layer cell disposed in the housing space so as to be electrically connected to the first surfaces of the first and second external terminals. | 01-06-2011 |
20110002085 | Electrode for capacitor and electric double layer capacitor having the same - There are provided an electrode for a capacitor and an electric double layer capacitor having the same. The electrode for a capacitor may include: activated carbon; and 25 to 75 parts by weight of carbon aerogel per 100 parts by weight of the activated carbon. The electrode according to an aspect of the invention has excellent bonding strength between electrode materials and is free of defects such as aggregation and cracking. An electric double layer capacitor having this electrode has high capacitance and low internal resistance. | 01-06-2011 |
20110013344 | Polarizable electrode for capacitor and electric double layer capacitor having the same - There is provided a polarizable electrode for a capacitor and an electric double layer capacitor having the same. The polarizable electrode is a gel-state mixture including carbon nanotubes (CNTs) forming a network structure, porous carbon materials dispersed between the CNTs, and ionic liquids allowing the CNTs and the porous carbon materials to be dispersed. The polarizable electrode secures an electrical connection path between an electrode and a collector and prevents separation between the porous carbon materials and the ionic liquids using the network structure formed by the CNTs. Accordingly, the electric double layer capacitor having the polarizable electrode has low contact resistance between the electrode and the collector and has low possibility of polarization occurrence between the electrode and an electrolyte, resulting in high capacitance and high energy efficiency due to low equivalent series resistance. | 01-20-2011 |
20110043967 | Super capacitor and method of fabricating the same - There is provided a super capacitor and a method of fabricating the same. The method includes providing a substrate in which a plurality of nanoholes are formed, forming a first electrode layer on one face of the substrate, filling the nanoholes with a conductive material to form conductive nanowires, removing the substrate such that the conductive nanowires are placed on the first electrode layer, forming a solid electrolyte layer on the first electrode layer on which the conductive nanowires are formed, and forming a second electrode layer on the solid electrolyte layer, the second electrode layer being separated from the first electrode layer. | 02-24-2011 |
20110043968 | Hybrid super capacitor - There is provided a super capacitor employing a novel hybrid system. The super capacitor includes an anode comprising a transition metal oxide, a cathode comprising a carbide pre-doped with Li ions, a separator disposed between the anode and the cathode to separate the anode and the cathode from each other, and an electrolyte contacting the anode and the cathode. | 02-24-2011 |
20110102972 | Chip-type electric double layer capacitor cell and method of manufacturing the same - There is provided a chip-type electric double layer capacitor comprising: a resin case having a housing space provided therein and formed of insulating resin and first and second external terminals inserted into the resin case by insert injection molding. Each of the external terminals has a first portion exposed to an outer surface of the resin case for external contact and a second portion exposed to an inner surface of the housing space for internal contact. a sealing portion includes a groove portion provided in the resin case along a circumference of at least one of the first and second external terminals and a resin filling the groove portion. An electric double layer capacitor cell is mounted in the housing space and electrically connected to the second portion of the first and second external terminals. | 05-05-2011 |
20110133757 | Apparatus and method for evaluating capacitor - There is provided an apparatus for evaluating a capacitor, including: a charge/discharge control unit | 06-09-2011 |
20110168945 | Positive active material and method of preparing the same - Provided are a positive active material and a method of preparing the same. The positive active material includes LiM | 07-14-2011 |
20110170233 | Chip-type electric double layer capacitor cell and method of manufacturing the same - There is provided a chip-type electric double layer capacitor cell and a method of manufacturing the same. The chip-type electric double layer capacitor cell includes a separator folded to include first and second folded portions with first and second open portions formed in opposite directions by the first and second folded portions, and first and second electrodes inserted into the first and second open portions. The positions of the first and second electrodes are fixed by the first and second folded portions of the separator, and accordingly, the appropriate arrangement of the plurality of first and second electrodes is facilitated. A short circuit between the first and second electrodes is avoided to thereby increase the capacitance of the chip-type electric double layer capacitor cell. | 07-14-2011 |
20110170234 | Electric double layer capacitor - There is provided an electric double layer capacitor including: a multilayer electric double layer capacitor cell including first and second electrodes facing each other with an ion-permeable separator interposed therebetween; and an insulating tape with which to enclose an outer surface of the multilayer electric double layer capacitor cell and having a plurality of pores. In the electric double layer capacitor, movements between the first and second electrodes and the ion-permeable separator are minimized so that the area of the facing surfaces of the first and second electrodes increases. Accordingly, high capacitance may be achieved. In addition, the pores formed in the insulating tape facilitate the path of an electrolyte so that the impregnation of the electrolyte into the multilayer electric double layer capacitor cell is thereby facilitated. | 07-14-2011 |
20110188171 | Electric double layer capacitor and method of manufacturing the same - There is provided an electric double layer capacitor and a method of manufacturing the same. The electric double layer capacitor includes first and second electrodes facing each other; and an ion-permeable separator interleaved between the first and second electrodes, wherein at least one of the first and second electrodes includes a metallic fiber being compressed to have pores therein and an electrode material filling the pores. The electric double layer capacitor has low equivalent series resistance (ESR) and high output density. Also, since the electrodes are formed to be thin, the electric double layer capacitor can be miniaturized. | 08-04-2011 |
20110300290 | Device for fabricating electrode by roll to roll process and method for fabricating electrode - There are provided a device for fabricating an electrode by a roll-to-roll process and a method for fabricating an electrode. The device for fabricating an electrode includes an unwinding roll and a winding roll travelling an electrode material; a film forming roll disposed between the unwinding roll and the winding roll allowing the electrode material to travel along a cylindrical surface of the film forming roll and having a cooling unit cooling the electrode material; and an evaporation unit receiving a lithium source and mounted for the received lithium source to form a thin film in the electrode material positioned on the film forming roll. Thereby, the lithium is deposited in a vacuum atmosphere such that the process is simple and the deposition rate and the deposition uniformity of lithium can be improved. | 12-08-2011 |
20110300449 | Electrode for secondary power source and method of manufacturing electrode for secondary power source - Provided are a method of manufacturing an electrode for a secondary power source, and a secondary power source. The method includes forming an electrode active material on a conductive sheet, forming a Li thin film layer by depositing lithium (Li) on the electrode active material, doping the electrode active material with the deposited Li, and controlling a doping level by monitoring the doping amount of Li. Accordingly, a cathode is doped with Li ions before a cell is assembled, thereby simplifying the manufacturing process, enhancing the doping rate of Li ions, and making the doping amount even. | 12-08-2011 |
20110304952 | Electrolyte for lithium ion capacitor and lithium ion capacitor including the same - There are provided an electrolyte for a lithium ion capacitor and a lithium ion capacitor including the same. The electrolyte for a lithium ion capacitor according to the present invention includes: a lithium salt; and a mixing solvent including i) two or more compounds selected from a group consisting of cyclic carbonate compounds, ii) one or more compounds selected from a group consisting of linear carbonate compounds represented by a specified Formula, and iii) one or more compound selected from a group consisting of propionate compound represented by a specified Formula. | 12-15-2011 |
20110305931 | Secondary power source and method for manufacturing the same - Disclosed is a secondary power source and a manufacturing method thereof. The secondary power source includes a unit cell formed by sequentially laminating a first electrode, a separation film, and a second electrode, wherein the first electrode is formed by forming a first electrode material, into which lithium ions can be irreversibly occluded, on a first conductive sheet, and the first electrode is laminated in the unit cell after lithium ions are occluded into the first electrode material by using a metal that can supply lithium ions. | 12-15-2011 |
20110310529 | Electrochemical capacitor and method for manufacturing the same - There are provided an electrochemical capacitor and a method for manufacturing the same. The electrochemical capacitor according to the present invention includes: a plurality of first and second electrodes disposed to be opposite to each other; a separator disposed between the first and second electrodes; wherein at least one of the plurality of first electrodes is made of an electrode material doped with lithium ions and a lithium layer having the dendrite is formed on the surface of the electrode material. | 12-22-2011 |
20110318639 | Lithium manganese oxide-carbon nano composite and method for manufacturing the same - There is provided a method for manufacturing a lithium manganese oxide-carbon nano composite by mixing a lithium ion solution with a manganese ion solution, dispersing a carbon material in the solution in which the lithium ion is mixed with the manganese ion, and forming the lithium manganese oxide on a surface of the carbon material by maintaining the solution in which the carbon material is dispersed at a predetermined temperature. In addition, there is provided the lithium manganese oxide-carbon nano composite formed by coating the carbon material with the lithium manganese oxide at a thickness of several nm. There is provided a manufacturing apparatus capable of coating the carbon material with the lithium manganese oxide at a thickness of several nm. | 12-29-2011 |
20120009461 | Energy storage module - An energy storage module formed by electrically connecting a plurality of energy storage cells using terminal connecting members which are resistant to corrosion or external impact is disclosed. The energy storage module includes terminal connection members, each including a first plate having a conductive flat bar shape and terminal insertion holes formed in both ends thereof and at least one second plate having the same shape as the first plate and stacked on the first plate, wherein the first plate has an insulating layer formed on lower surface thereof; and at least two energy storage cells having terminals inserted into the terminal insertion holes of the terminal connection members and electrically connected to each other in series or in parallel by the terminal connection members. | 01-12-2012 |
20120040227 | ENERGY STORAGE MODULE - There is provided an energy storage module including, a plurality of energy storage units having electrodes connected in series or in parallel, one or more cooling plates provided to alternate with the energy storage units, each having a flow path through which cooling water flows, so as to cool the energy storage units, and a housing surrounding the energy storage units and the cooling plates and including an inlet and an outlet through which the cooling water is drawn and discharged to thereby provide the cooling water to the cooling plates. | 02-16-2012 |
20120154976 | CONDUCTIVE PASTE COMPOSITION FOR INNER ELECTRODE, LAMINATED CERAMIC ELECTRONIC PART USING THE SAME AND MANUFACTURING METHOD THEREOF - There are provided a conductive paste composition for an inner electrode, and a laminated ceramic electronic part and a manufacturing method thereof using the conductive paste composition. The conductive paste composition includes metal powder coated with an organosilica compound formed by polymerization of an organosilane compound having a structure of R | 06-21-2012 |
20120297594 | METHOD OF MANUFACTURING CHIP-TYPE ELECTRIC DOUBLE LAYER CAPACITOR - A method of manufacturing a chip-type electric double layer capacitor, including: forming a lower case having an opened housing space and first and second external terminals buried therein, the first and second external terminals having first surfaces exposed to the housing space, respectively, and second surfaces exposed to an outer region of the lower case, respectively; mounting an electric double layer capacitor cell in the housing space such that the electric double layer capacitor cell is electrically connected to the first surfaces of the first and second external terminals exposed to the housing space; and mounting an upper cap on the lower case so as to cover the housing space. | 11-29-2012 |
20130194721 | ACTIVATED CARBON FOR LITHIUM ION CAPACITOR, ELECTRODE INCLUDING THE ACTIVATED CARBON AS ACTIVE MATERIAL, AND LITHIUM ION CAPACITOR USING THE ELECTRODE - Disclosed herein are an activated carbon for a lithium ion capacitor, including mesopores with a pore size of 2˜50 nm in a content of 20˜30% based on all pores therein, an electrode including the activated carbon as an active material, and a lithium ion capacitor using the electrode. Accordingly, there can be provided an activated carbon having appropriate mesopores for allowing an increase in capacitance by free adsorption and desorption of the lithium ions, and a lithium ion capacitor storage device having a long lifespan and high input and output characteristics and further having reliability on high-rate charging and discharging cycles by including the activated carbon as an active material. | 08-01-2013 |
20140233155 | CHIP-TYPE ELECTRIC DOUBLE LAYER CAPACITOR CELL AND METHOD OF MANUFACTURING THE SAME - A chip-type electric double layer capacitor includes: a resin case having a housing space provided therein and formed of insulating resin; first and second external terminals inserted into the resin case by insert injection molding, each having a first portion exposed to an outer surface of the resin case for external contact and a second portion exposed to an inner surface of the housing space for internal contact; a sealing portion including a groove portion provided in the resin case along a circumference of at least one of the first and second external terminals and a resin filling the groove portion; and an electric double layer capacitor cell mounted in the housing space and electrically connected to the second portion of the first and second external terminals. | 08-21-2014 |