Patent application number | Description | Published |
20090208833 | Thin Film Electrochemical Cell for Lithium Polymer Batteries and Manufacturing Method Therefor - An electrochemical cell sub-assembly and a method for manufacturing same. The electrochemical cell sub-assembly includes a current collector sheet having a pair of opposite surfaces and a pair of opposite edges, each surface being coated with a respective layer of electrode material. A layer of polymer electrolyte envelopes both layers of electrode material and one of the pair of edges of the current collector sheet, thereby encapsulating the one edge of the current collector sheet while leaving exposed the other edge of the current collector sheet. | 08-20-2009 |
20100078895 | DEVICE AND METHOD FOR THE PLUGGING OF SERVICES IN CONDUITS - A plug for a tubular service entrance of a conduit, wherein the plug includes a core body having a central hollow channel extending from a first end to second end of the core body; at least one flexible fin extending radially outwardly from the core body and having an outer diameter greater than the inner diameter of the tubular service entrance so that the plug is adapted to fit tightly into the tubular service entrance, and wherein the at least one flexible fin is deformable to adapt to the shape of the service entrance and apply a lateral force against the inner diameter of the service entrance. A plug dispensing magazine for storing and dispensing service entrance plugs to be service entrances of a conduit prior to installation of a liner in the conduit and a method of sealing the service entrances. | 04-01-2010 |
20110310240 | DETECTION OF NON-PROTRUDING POTABLE WATER CONDUIT OR WATERMAIN SERVICES USING THERMAL IMAGING - A method and system of detecting a service entrance in a conduit having a rehabilitation liner, comprising generating heat using a heat source; introducing the heat into the lined conduit; allowing the lined conduit to cool; generating a thermal image of the lined conduit using an infrared camera system; detecting temperature differentiations in the lined conduit in order to detect a service entrance wherein the service entrance is a non-protruding service entrance, a partially-protruding service entrance or a service entrance in a saddle fixed to the conduit. | 12-22-2011 |
20120222756 | DEVICE AND METHOD FOR THE PLUGGING OF SERVICES IN CONDUITS - A plug for a tubular service entrance of a conduit, wherein the plug includes a core body having a central hollow channel extending from a first end to second end of the core body; at least one flexible fin extending radially outwardly from the core body and having an outer diameter greater than the inner diameter of the tubular service entrance so that the plug is adapted to fit tightly into the tubular service entrance, and wherein the at least one flexible fin is deformable to adapt to the shape of the service entrance and apply a lateral force against the inner diameter of the service entrance. A plug dispensing magazine for storing and dispensing service entrance plugs to be service entrances of a conduit prior to installation of a liner in the conduit and a method of sealing the service entrances. | 09-06-2012 |
20140268617 | SUPERCAPACITOR STRUCTURES - Supercapacitor structures are provided which include, for example: one or more layers of supercapacitors; and one or more contact tabs. The one or more contact tabs electrically contact and extend outward from the supercapacitor structure to facilitate electrical connection to the supercapacitor structure, and the one or more contact tabs include a multi-contact tab. The multi-contact tab is configured and sized with multiple contact locations which are disposed external to the supercapacitor structure. Various supercapacitor structures are provided, including one supercapacitor structure with a shared C-shaped current collector, and another supercapacitor structure with stacked supercapacitors. One or more additional multi-contact tabs may also extend from the supercapacitor structure(s) and distribute the same or a different capacitor voltage than the multi-contact tab. | 09-18-2014 |
20140287277 | ENERGY STORAGE STRUCTURES AND FABRICATION METHODS THEREOF - Energy storage structures and fabrication methods are provided. The method include: providing first and second conductive sheet portions separated by a permeable separator sheet, and defining, at least in part, outer walls of the energy storage structure, the first and second surface regions of the first and second conductive sheet portions including first and second electrodes facing first and second (opposite) surfaces of the permeable separator sheet; forming an electrolyte receiving chamber, defined, at least in part, by the first and second surface regions, including: bonding the first and second conductive sheet portions, and the permeable separator sheet together with at least one bonding border forming a bordering frame around at least a portion of the first and second electrodes; and providing an electrolyte within the electrolyte receiving chamber, including in contact with the first and second electrodes, with the electrolyte being capable of passing through the permeable separator sheet. | 09-25-2014 |
20150092343 | ULTRA-CAPACITOR STRUCTURES AND ELECTRONIC SYSTEMS WITH ULTRA-CAPACITOR STRUCTURES - Ultra-capacitor structures and electronic systems and assemblies are provided. In one aspect, the ultra-capacitor structure is configured to selectively power and at least partially house electronic component(s) therein. In one embodiment, the ultra-capacitor structure includes a thermally conductive material facilitating dissipation of heat generated. In another embodiment, the ultra-capacitor structure includes an electrically conductive sheet facilitating electromagnetic shielding. In another aspect, an electronic system includes: an electronic device including electronic component(s); and a support structure physically receiving and electrically coupling to the electronic device, and including an ultra-capacitor structure configured to selectively power the electronic component(s) of the electronic device when electrically coupled to the support structure. In another aspect, an electronic assembly has a first region including electronic component(s), and a second region including an ultra-capacitor structure configured to selectively power the electronic component(s) of the electronic assembly, where the first region is spaced apart from the second region. | 04-02-2015 |
20160087460 | ULTRA-CAPACITOR STRUCTURES WITH MULTIPLE ULTRA-CAPACITOR CELLS AND METHODS THEREOF - Ultra-capacitor structures and methods thereof are presented. In one aspect, a structure includes: an ultra-capacitor structure having multiple ultra-capacitor cells; and a switching mechanism, the switching mechanism being operable to selectively connect different electrical interconnect configurations of the multiple ultra-capacitor cells of the ultra-capacitor structure to provide any one of a plurality of different voltages or currents to at least one electrical load, and to selectively control charging of the multiple ultra-capacitor cells using energy from at least one battery. In another aspect, a method includes: obtaining an ultra-capacitor structure having multiple ultra-capacitor cells; connecting different electrical interconnect configurations of the multiple ultra-capacitor cells of the ultra-capacitor structure to provide any one of a plurality of different voltages or currents to at least one electrical load; and charging the ultra-capacitor structure using energy from at least one battery. | 03-24-2016 |