Class / Patent application number | Description | Number of patent applications / Date published |
361434000 | Systems (e.g., plural cells, standby exciting voltage) | 12 |
20080198531 | CAPACITIVE DEIONIZATION SYSTEM FOR WATER TREATMENT - A capacitive deionization (CDI) system for deionizing water is disclosed. The CDI system comprises at least a flow through capacitor (FTC) module, at least a first supercapacitor, at least a second supercapacitor, at least a third supercapacitor and a controller. The FTC module comprises a plurality electrodes for removing ions from water flowing between the electrodes under an electric field applied between the electrodes. The first supercapacitor is connected between the potential source and the FTC module for amplifying energy provided by the potential source. The second supercapacitor is connected to the FTC module for receiving energy from the FTC module for regenerating the electrodes of the FTC module. The third supercapacitor is adapted for exchanging energy with the FTC module for regenerating the electrodes of the FTC module. The controller is adapted for regulating deionization rate of the water and regeneration of the electrodes of the FTC module. | 08-21-2008 |
20080239628 | PROTECTION DEVICE FOR ASSEMBLED BATTERY, AND BATTERY PACK UNIT - A protection device for an assembled battery includes a sampling unit which individually samples voltages of batteries of the assembled battery to generate sampled voltages, a holding unit which holds the sampled voltages to generate a plurality of holding voltages, a multiplexer which sequentially reads the holding voltages and outputs each voltage to a common output node, a measuring unit configured to measure the individual voltages and the state of charges of the batteries based on a voltage of the node in a measuring period within a constant measuring cycle, and a control unit configured to turn on/off the sample switches at the same time within the measuring period and repeatedly turn on/off at least one sample switch selected from the plurality of sample switches in accordance with the state of charge in a term other than the measuring period. | 10-02-2008 |
20090122465 | ELECTROLYTE TRANSISTOR AND METHOD OF FABRICATING THE SAME - Electrolyte transistor including a gate structure, two sources/drains, an electrolyte layer and a buried conductive layer is provided. The gate structure including a gate dielectric layer and a gate is located above a substrate. The two sources/drains are separated from each other and located above the substrate on each side the gate structure. The electrolyte layer is located between and contacts the two sources/drains, and located between and contacts the gate structure and the substrate. The buried conductive layer is located between the electrolyte layer and the substrate. The electrolyte layer between the two sources/drains includes a channel. The conductivity of the electrolyte layer between the two sources/drains is changed by a redox reaction, so as to turn on or turn off the channel. | 05-14-2009 |
20110080688 | ASSEMBLED FLEXIBLE TEXTILE CAPACITOR MODULE - An assembled flexible textile capacitor module including a plurality of flexible textile capacitors and at least one flexible connecting board is provided. The flexible connecting board is connected electrically between two adjacent flexible textile capacitors, so that the flexible textile capacitors are connected in series, in parallel, or in series-parallel. | 04-07-2011 |
20110216475 | STACKED SOLID-STATE ELECTROLYTIC CAPACITOR WITH MULTI-DIRECTIONAL PRODUCT LEAD FRAME STRUCTURE - A stacked solid-state electrolytic capacitor with multi-directional product lead frame structure includes a plurality of capacitor units, a substrate unit and a package unit. The capacitor units are stacked onto each other. Each capacitor unit has a positive electrode and a negative electrode, the positive electrode of each capacitor unit has a positive pin extended outwards, the positive pins are electrically stacked onto each other, and the negative electrodes are electrically stacked onto each other. The substrate unit has at least one positive guiding substrate electrically connected to the positive pins of the capacitor units and a plurality of negative guiding substrates electrically connected to the negative electrodes of the capacitor units. The package unit covers the capacitor units and one part of the substrate unit in order to expose an end of the at least one positive guiding substrate and an end of each negative guiding substrate. | 09-08-2011 |
20110228446 | Electrolytic Capacitor - An apparatus is disclosed which includes an electrolytic capacitive element with multiple capacitor sections. | 09-22-2011 |
20120014036 | SOLID ELECTROLYTIC CAPACITOR ELEMENT, METHOD FOR MANUFACTURING SAME, AND JIG FOR MANUFACTURING SAME - Provided is a jig for manufacturing electrolytic capacitor elements wherein the jig is for forming dielectric layers on the surfaces of anode bodies by anodic oxidation or for forming semiconductor layers on the dielectric layers formed on the surfaces of the anode bodies. The jig for manufacturing the electrolytic capacitor elements comprises (i) a plurality of power supply circuits which are provided on an insulating substrate and to each of which a voltage-limiting value and a current-limiting value can be set, (ii) connection terminals for the anode bodies which are electrically connected to the respective outputs of the power supply circuits, and (iii) a terminal for setting the voltage-limiting values to the power supply circuits and a terminal for setting the current-limiting values to the power supply circuits; in the jig, a proper current can be set corresponding to the progress of the anodic oxidation and electrolytic polymerization. A method for manufacturing the electrolytic capacitor elements using the jig. | 01-19-2012 |
20130077205 | ENERGY STORAGE MODULE - Disclosed herein is an energy storage module. | 03-28-2013 |
20130107423 | POWER STORAGE MODULE FOR RAILWAY VEHICLES | 05-02-2013 |
20140036411 | STORAGE UNIT FOR STORING ELECTRICAL ENERGY HAVING A LOW-RESISTANCE CONTACTED ENERGY STORE - The invention relates to a storage unit. The storage unit has at least one energy store, wherein the energy store has a positive and a negative electrical connecting terminal. The energy store is designed to be charged and discharged with electrical energy via the positive and the negative electrical connecting terminal. According to the invention, the storage unit has an electrically conductive contact rail which is at least indirectly connected to the positive connecting terminal, and an electrically conductive contact rail which is at least indirectly connected to the negative connecting terminal. The contact rails are each connected to at least one external electrical connecting terminal of the storage unit. The contact rails are each electrically connected to the respective connecting terminal of the energy store by means of an electrically conductive fibrous web or a strand comprising a plurality of individual lines. | 02-06-2014 |
20140043726 | IMPLANTABLE CARDIOVERTER DEFIBRILLATOR CAPACITOR ASSEMBLY WITH FLEX CIRCUIT - An implantable cardioverter defibrillator (“ICD”) comprises a battery, control circuitry and a capacitor assembly. The capacitor assembly includes at least one capacitor, a flex circuit for connection to the control circuitry of the ICD and a first and second support portions. The flex circuit is arranged between the first and second support portions and includes a plurality of tangs for connecting to the anode and cathode of the capacitor(s), as well as to the control circuitry of the ICD. | 02-13-2014 |
20140376157 | NON-REDUCIBLE LOW TEMPERATURE SINTERABLE DIELECTRIC POWER ELECTRONIC CAPACITOR MODULE FOR VEHICLE - A power electronic capacitor module for vehicle that may reduce the number of solderings by inserting and thereby mounting a capacitor between a single pair of bus bars and thereby may simplify an assembly process. The power electronic capacitor module for vehicle may include a single pair of bus bars disposed to be separate from each other and each having an external electrode support member; an insulating support frame formed to expose the external electrode support member and wrap around a single pair of bus bars and thereby support the bus bars; and a capacitor element having a single pair of external electrodes and inserted between a single pair of bus bars to thereby be supported by the bus bars or the external electrode support members and electrically connect the external electrodes to the external electrode support members. | 12-25-2014 |