Patent application number | Description | Published |
20090080141 | Multi electrode series connected arrangement supercapacitor - The present invention is an electrochemical double layer capacitor (EDLC) series stack formed into a single electrolyte cell structure. The concatenated multiple electrode assembly stack has electrode assemblies electrically connected in series. The electrode assemblies have a double-sided activated carbon electrode formed on a current collector. Power tabs are connected to the end electrode assemblies. An electrolyte is also provided. A poly bag contains the electrolyte and the electrode assemblies. The electrode assemblies form a double-sided activated-carbon electrode on a current collector. The EDLC stack has a number of segments and mass free zones separating them. The segments are folded so that mass free zones are disposed at the apex of each fold. | 03-26-2009 |
20090279230 | Electrode structure for the manufacture of an electric double layer capacitor - A method is provided of manufacturing an electrode for an electric double layer capacitor, including mixing an active material, a conductive material and a binder. In this method, Ketjen Black is used as the conductive material and a fluorosurfactant is an additive for enhancing fluidity of the slurry. Also, an electrode for an electric double layer capacitor and an electric double layer capacitor using the electrode are provided. Use of the electric double layer capacitor increases the amount of the active material, so that the electrical capacitance is increased, thus providing the electric double layer capacitor in which the amount of the conductive material is decreased and the electrical resistance is decreased. | 11-12-2009 |
20100053844 | High voltage EDLC cell and method for the manufacture thereof - An EDLC device in which the double layer capacitors themselves are produced lithographically. The resultant EDLC can be of any capacitance and voltage combination for a particular application. The entire lithographically formed entity can be housed in a single container and rated according to its capacitance and voltage standoff characteristics. Through material control processes, the electrochemical composites developed onto the current collector is unilaterally equalized, providing the desired distributed voltage standoffs, thus promoting the ability to design high voltage independent cells without the normal electronic balancing circuitry associated with multiple series-connected electrochemical cells. | 03-04-2010 |
20100079109 | METHODS AND APPARATUS FOR STORING ELECTRICITY - In some embodiments, a system includes a battery and a capacitor bank. The battery is electrically coupled to a load device and is configured to supply power to the load device when the system is in a first configuration. The system is in the first configuration when a current requirement of the load device is less than a current threshold. The capacitor bank includes a plurality of capacitors and is electrically coupled to the battery when the system is in a second configuration. The battery and the capacitor bank are configured to collectively provide power to the load device when the system is in the second configuration. The system is in the second configuration when the current requirement of the load device is greater than the current threshold. | 04-01-2010 |
20100266878 | PRISMATIC POLYMER CASE FOR ELECTROCHEMICAL DEVICES - A case structure generally includes a trough shaped base section, a positive end piece, a negative end piece, and a cover section. The trough shaped base section includes a bottom and two side wall members. The positive and negative end piece are disposed at opposite ends of the base section and include an electrically conductive material at least partially embedded within a thermoplastic material. The cover section is disposed on the base section for sealing the prismatic case. The base section and the cover section can be made from, for example, a polymeric material. | 10-21-2010 |
20110032661 | MULTI ELECTRODE SERIES CONNECTED ARRANGEMENT SUPERCAPACITOR - The present invention is an electrochemical double layer capacitor (EDLC) series stack formed into a single electrolyte cell structure. The concatenated multiple electrode assembly stack has electrode assemblies electrically connected in series. The electrode assemblies have a double-sided activated carbon electrode formed on a current collector. Power tabs are connected to the end electrode assemblies. An electrolyte is also provided. A poly bag contains the electrolyte and the electrode assemblies. The electrode assemblies form a double-sided activated-carbon electrode on a current collector. The EDLC stack has a number of segments and mass free zones separating them. The segments are folded so that mass free zones are disposed at the apex of each fold. | 02-10-2011 |
20110149473 | ENERGY STORAGE IN EDLCS BY UTILIZING A DIELECTRIC LAYER - A composition comprising an electrode or an electrical double-layer capacitor with dielectric material is disclosed, along with methods of making the composition. The present invention improves upon state-of-the-art electrodes and capacitors by coating a material of high dielectric constant onto the surface of the electrode to produce improved electrical properties. The composition is particularly useful for design of novel electrical double-layer capacitors. | 06-23-2011 |
20110271855 | HIGH VOLTAGE EDLC CELL AND METHOD FOR THE MANUFACTURE THEREOF - A method of manufacturing an electrode includes printing an electrode ink on a portion of a substrate using a rotary lithographic printer. The electrode ink is allowed to dry on the substrate. A separator material is printed on the portion of the substrate using the rotary lithographic printer. A sealant wall is printed around the portion of the substrate using the rotary lithographic printer. | 11-10-2011 |
20120033347 | ELECTROCHEMICAL CAPACITORS - A method of manufacturing an electrode includes printing an electrode ink on a portion of a substrate using a rotary lithographic printer. The electrode ink is allowed to dry on the substrate. A separator material is printed on the portion of the substrate using the rotary lithographic printer. A sealant wall is printed around the portion of the substrate using the rotary lithographic printer. The substrates are then “stacked” and “folded” in appropriate configurations to obtain a desired capacitance and voltage standoff. | 02-09-2012 |
20120063057 | Methods and apparatus related to a purge valve for a capacitor - In some embodiments, an apparatus includes a housing and a purge valve. The housing defines a cavity and a lumen extending from a volume of the cavity to a volume outside the cavity. The purge valve is disposed within the lumen and includes an occlusion member. A portion of the occlusion member has a width substantially equal to a width of an end portion of the lumen such that the portion of the occlusion member is disposed within the end portion of the lumen when the purge valve is in a first configuration. The portion of the occlusion member being disposed outside the end portion of the lumen when the purge valve is in a second configuration. | 03-15-2012 |
20120187347 | ELECTRODE STRUCTURE FOR AN ENERGY STORAGE DEVICE - An electrode material composition for use in manufacturing energy storage device electrodes includes an active material, a conductive material including Ketjen Black, a binder comprising at least one of a polymer emulsion dispersed in water and a water-soluble polymer mixture, and a surfactant. The electrodes are manufactured by thy-mixing the active material and the conductive material to form a thy-mixed active material mixture. The drymixed active material mixture is then mixed with a binder solution to form a slurry and the slurry is coated onto a currently collector and dried to form an electrode. | 07-26-2012 |
20140002958 | HIGH VOLTAGE EDLC CELL AND METHOD FOR THE MANUFACTURE THEREOF | 01-02-2014 |
20140111906 | GRAPHENE ELECTROLYTIC CAPACITOR - The disclosure describes an improved electrolytic capacitor, more specifically, an electrolytic capacitor with a graphene-based energy storage layer and dielectric, and a method of making the improved electrolytic capacitor. The electrode with layered graphene energy storage and dielectric layers may be used in a variety of electrolytic capacitor configurations. | 04-24-2014 |
20140114592 | OPERATIONAL MONITORING OF ELECTROCHEMICAL CAPACITORS - The invention provides operational monitoring for electrochemical capacitors and, more specifically, the monitoring of operational performance characteristics of electrochemical capacitors using electrochemical impedance measurement in an application system in the field. The apparatus and methods of the present invention monitor the operational characteristics of a plurality of electrochemical capacitors in an application system with the goal of providing state of health information to the application system or through another monitoring or alert system. By generating an input monitoring signal to query each cell in the pack and calculating the impedance measurement signal from the resulting output signal, the real-time impedance measurements can be compared against a stored electrochemical impedance model to provide state of health information. Real-time monitoring data based on the state of health information can then be output to the application system or through another monitoring or alert system. | 04-24-2014 |
20140293513 | GRAPHENE-BASED HIGH VOLTAGE ELECTRODES AND MATERIALS - The disclosure describes an improved electrode with high voltage standoff characteristics and improved graphene-based materials and methods of making them for use therein. A graphene-based thin film material is described that may be applied or transferred to a current collector to create the improved electrode. The thin film comprises high aspect ratio graphene platelets applied to the surface of a current collector or other substrate in a known ratio to a film binder material. The film is produced with a desired layer thickness and graphene-to-binder ratio to produce a desired voltage standoff for the electrode. The film may include additional materials to achieve the desired dielectric and mechanical characteristics for the application, such as ferroelectric ceramic nanorods with a high aspect ratio and high dielectric constant and/or graphene sheets. The thin film dielectric materials may have applications in more than just the anode of the graphene electrolytic capacitor, but find application as a dielectric layer in other electrical applications, such as batteries, electrode sensor arrays, and nano-scale solid-state electronics. | 10-02-2014 |
20150029639 | METHODS AND APPARATUS RELATED TO A PURGE VALVE FOR A CAPACITOR - In some embodiments, an apparatus includes a housing and a purge valve. The housing defines a cavity and a lumen extending from a volume of the cavity to a volume outside the cavity. The purge valve is disposed within the lumen and includes an occlusion member. A portion of the occlusion member has a width substantially equal to a width of an end portion of the lumen such that the portion of the occlusion member is disposed within the end portion of the lumen when the purge valve is in a first configuration. The portion of the occlusion member being disposed outside the end portion of the lumen when the purge valve is in a second configuration. | 01-29-2015 |