WIRELESS ELECTRICAL CHARGING SYSTEMS

Brand Owner Address Description
EDEN EGGTRONIC ENGINEERING S.P.A. Via Giorgio Campagna, 8 I-41126 MODENA (Modena) Italy wireless electrical charging systems for charging electric and hybrid electric vehicles, electric drones, home appliances, domestic equipment, lighting apparatus, LED lighting apparatus, gaming consoles, smartwatches, display devices, namely, liquid crystal display monitors, wearable activity trackers, cameras, battery packs, head mounted augmented reality displays, namely, virtual reality headsets, laboratory robots, teaching robots, telepresence robots, security surveillance robots and humanoid robots with artificial intelligence; electrical and electronic devices, namely, smartwatches, display devices, namely, liquid crystal display monitors, wearable activity trackers, cameras, battery packs, head mounted augmented reality displays, namely, virtual reality headsets, laboratory robots, teaching robots, telepresence robots, security surveillance robots and humanoid robots with artificial intelligence, all with integrated wireless electrical charging systems; mobile or portable devices, namely, smartwatches, display devices, namely, liquid crystal display monitors, wearable activity trackers, cameras, battery packs, head mounted augmented reality displays, namely, virtual reality headsets, laboratory robots, teaching robots, telepresence robots, security surveillance robots and humanoid robots with artificial intelligence , all with wireless electrical charging systems; integrated circuits, application specific integrated circuits, application specific integrated circuits for power transfer, application specific integrated circuits for capacitive or inductive wireless power transfer; all of the foregoing excluding goods relating to the design of cars, automotive design, development of vehicles, design of land vehicle parts and vehicle engine design services;licensing of intellectual property relating to wireless electrical charging systems for charging electric vehicles and hybrid electric vehicles, electric drones, home appliances, domestic equipment, lighting apparatus, LED lighting apparatus, gaming consoles, smartwatches, display devices, fitness trackers, cameras, battery packs, head mounted augmented reality displays, laboratory robots, teaching robots, telepresence robots, security surveillance robots and humanoid robots with artificial intelligence; licensing of intellectual property relating to integrated circuits, application specific integrated circuits, application specific integrated circuits for power transfer, application specific integrated circuits for capacitive or inductive wireless power transfer; all of the foregoing excluding licensing of intellectual property relating to the design of cars, automotive design, development of vehicles, design of land vehicle parts and vehicle engine design services;design of wireless electrical charging systems for charging electric and hybrid electric vehicles, electric drones, home appliances, domestic equipment, lighting apparatus, LED lighting apparatus, gaming consoles, smartwatches, display devices, fitness trackers, cameras, battery packs, head mounted augmented reality displays, laboratory robots, teaching robots, telepresence robots, security surveillance robots and humanoid robots with artificial intelligence; design of integrated circuits, application specific integrated circuits, application specific integrated circuits for power transfer, application specific integrated circuits for capacitive or inductive wireless power transfer; all of the foregoing excluding design of cars, automotive design, development of vehicles, design of land vehicle parts and vehicle engine design services;
 

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

    
Technical Examples
  1. A wireless communication method and protocol, and wireless devices and systems for stimulation, are provided for communication between a wireless device and a charging device. During active wireless charging, communications (data transmission) from the wireless device to the charging device occurs via pulse loading the receive antenna of the receiving device. Because switching regulation in the receiving device may interfere with the communications, the switching regulation is disabled during a communications window. To further reduce the likelihood of misinterpretation of signals detected in the charging device resulting from the switching regulation or noise, the data bit rate of the pulse loading communications is maintained higher than the switching regulation frequency.