Maximum Electric Receptacle Trailing of Wireless Power Transfer
Carrara Lazarus*, Dinis Schaller
Department of Electrical Engineering, Ginzton Laboratory, Stanford University, Stanford, California 94305, USA
In this paper, Wireless Power Transfer (WPT) is investigated into the midrange operation considering the sixty-five cm distance wherever the facility transfer capability continues to be doable thanks to the optimum electrical resistance matching. Load facet Associate in Nursingd supply facet electrical resistance matching network are established, and an optimum coupling is found and varied in every of the space to attain most power interchangeableness. A comparison is finished to validate the mathematical rationalization with correct physical experiment and measured knowledge confirmed the advance of +3dB at sixty cm distance between the load and resonator coil.
Critical coupling; Power transfer potency; Wireless power transfer; Mutual coupling