ABSTRACT
The efficiency is found to be very high at remote locations and acceptable for applications such as biomedical implant devices and lighting of bulbs. The design provides the basis for controlling the power transfer to any direction at any distance within the design. The ability to gain more wireless power transfer and support a wide area has been studied in various fields such as biomedical applications and charging portable devices. However, users are still required to closely engage these mobile devices, restricting mobility and orientation when charge is applied. A primary transmitter structure supports a secondary transmitter which is architected in the form of six loops forming a hexagonal frame and created from the same inductor. A circular coil compared with over a given area. The design actually provides the ability to increase the short- and long-range performances of wireless power transfer systems by using a primary and secondary transmission involving relay coils.
