POWER CONVERSION DEVICES

Brand Owner (click to sort) Address Description
AKUKA Shenzhen Flypower Co., LTD Building A1-2, Haosan LinPoKeng Industry Shajing Town, Bao'an District Shenzhen China Power conversion devices, DC/AC power converters, Electric charging cables, Electric power converters, Electrical power devices, namely, multimedia outlets, Power adapters, and USB cables;The wording AKUKA has no meaning in a foreign language.;
ELECTRONIC TELEMETRY & POWER CONDITIONING Electronic Telemetry and Power Conditioning 3 Clear Vista Drive Rolling Hills Estates CA 90274 Power conversion devices, power converters, and power inverters; Electronic circuit card assemblies with integrated circuits; Power converters for electric vehicles; Electrical wiring harnesses; Electric power transformers; Electrical inductors; Power supplies for telecommunications transmitters, data centers, data servers and signal transponders;ELECTRONIC TELEMETRY AND POWER CONDITIONING;Retail store services and on-line retail store services featuring power conversion devices, power converters, and power inverters, electronic circuit card assemblies with integrated circuits, power converters for electric vehicles, electrical wiring harnesses, electric power transformers, electrical inductors, and power supplies for telecommunications transmitters, data centers, data servers and signal transponders;
LIGHTELLIGENCE Lightelligence Inc. 201 Washington Street, STE 1700 Boston MA 02108 Power conversion devices, power converters, power inverters, and computing component of electronic computers, namely, central processing units (CPU), computer motherboards and computer interface boards; Integrated circuits, all aforementioned goods are for artificial intelligence and scientific computing;
 

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

    
Technical Examples
  1. A system and method for power control in wind turbines are provided. The method includes switching a plurality of switching devices in a power conversion component of the wind turbine system in a normal switching mode to provide power flow through the power conversion component. The method further includes switching the plurality of switches devices in the power conversion component of the wind turbine system in a short circuit switching mode to prevent power flow through the power conversion component.