DOUBLE LAYER CAPACITORS

Brand Owner (click to sort) Address Description
HNGRYNSITE Liebherr-Hausgeräte GmbH Memmenger Strasse 77-79 Ochsenhausen 88416 Germany Double layer capacitors; battery modules for energy buffering; DC/DC actuators; electronic control systems and electronic components; electronic control apparatus; data transmission systems; electrical and electronic devices, equipment and apparatus for the purposes of telematics, data processing and telecommunications, equipment and apparatus for broadcasting, reception and transmission of information, data processing equipment, computer terminals for telephone, cable, satellite and/or telematic networks; terminals for telematics, carriers of all kinds for recording and reproducing sound, images or signals; computers, microcomputer apparatus, computers, computer peripheral devices, computer memories, modems, interfaces, electricity distribution consoles, electric cables, digital discs, laser apparatus, infrared remote controls, laboratory apparatus utilizing ultrasounds and printed circuits; devices for the capture, retrieval, recording, processing, storage, transmission, broadcasting, reception and reproduction of digital or non-digital information, data, text, sound and images; software and hardware for the electronic connection of components; computers, microcomputers or internet applications; electronic sensor system for the collection, storage, processing and transmission of image data, software and hardware for data transfer via the internet;HUNGRY SIGHT;Refrigerators and freezers; refrigerating cabinets for wine; refrigerating cabinets for beverages, in particular for beer; air-conditioning installations; heating and ventilating apparatus; forced aeration systems; air treatment systems; air humidifying systems, in particular for vehicles and flying machines; heating apparatus for de-icing systems; heating apparatus, ventilating apparatus and air-conditioning systems (HVAC) for rail vehicles, including having energy supplying properties; steam heating apparatus for rail vehicles, and parts and accessories therefor, including air valves for steam heating apparatus; solar energy powered heating apparatus, in particular heating systems using waste heat; air conditioning apparatus including pressure protection for high-speed trains; turbine ventilators [ventilation apparatus] for use in rail vehicles; toilet systems for vehicles, in particular rail vehicles; air cleaning machines, air conditioning systems, air-conditioning apparatus for cabins; air conditioning devices for use in bleed air systems of propulsion mechanisms; components adapted for air conditioning systems, including turbine ventilators, heat exchangers, dosing valves being parts of air conditioning apparatus; water purification installations; lighting; electric torches;
MAXCAP STANDARD OIL COMPANY, THE Cleveland OH Double Layer Capacitors;
MAXCAP KANTHAL GLOBAR, INC 3425 HYDE PARK BOULEVARD P.O. BOX 339 NIAGARA FALLS NY 14302 double layer capacitors;ISSUE NEW CERTIFICATE TO: CESIWID, INC., 600 MAIN PLACE TOWER, BUFFALO, NY 14202, A NEW YORK CORPORATION;
MAXCAP DLC STANDARD OIL COMPANY, THE Cleveland OH DOUBLE LAYER CAPACITORS;MAX CAP;DLC;
 

Where the owner name is not linked, that owner no longer owns the brand

   
Technical Examples
  1. Electrodes of a double-layer capacitor are designed so that sub-capacitors formed at each electrode are stressed substantially equally at the rated voltage of the double-layer capacitor. In an exemplary embodiment, each electrode includes a current collector and an active electrode layer, such as a layer of activated carbon. The electrodes are held apart by a porous separator, and the assembly is immersed in an electrolyte. The thicknesses of the active electrode layers differ, resulting in asymmetrical construction of the capacitor. Different thicknesses cause the sub-capacitors to have different capacitances. When voltage is applied to the double-layer capacitor, the voltage is divided unequally between the unequal sub-capacitors. Properly selected thicknesses allow the voltages at the sub-capacitors to stress equally each sub-capacitor. The rated voltage of the double-layer capacitor can then be increased without overstressing the sub-capacitors.