A battery case has first and second coils on opposing sides of a battery and has switching circuitry that is coupled between the first and second coils. The battery case has a battery that provides supplemental battery power wirelessly to a wireless power receiving device via the second coil when the switching circuitry is in an open state. The case can also receive power wirelessly with the first coil from a wireless charging mat when the switching circuitry is in the open state. In a closed state, the switching circuitry shorts the first and second coils together so that current flowing through the first coil flows through the second coil in series and so that wireless power from the wireless charging mat that is received with the first coil is transmitted wirelessly to the wireless power receiving device using the second coil.

A wireless electrical energy transmission system is provided. The system comprises a wireless transmission base configured to wirelessly transmit electrical energy or data via near field magnetic coupling to a receiving antenna configured within an electronic device. The wireless electrical energy transmission system is configured with at least one transmitting antenna and a transmitting electrical circuit positioned within the transmission base. The transmission base is configured so that at least one electronic device can be wirelessly electrically charged or powered by positioning the at least one device external and adjacent to the transmission base.

A wireless electrical energy transmission system is provided. The system comprises a wireless transmission base configured to wirelessly transmit electrical energy or data via near field magnetic coupling to a receiving antenna configured within an electronic device. The wireless electrical energy transmission system is configured with at least one transmitting antenna and a transmitting electrical circuit positioned within the transmission base. The transmission base is configured so that at least one electronic device can be wirelessly electrically charged or powered by positioning the at least one device external and adjacent to the transmission base.

Implementation, utilization and management of power sources, power generation and power supply, recharging of chargeable devices, transfer of power to and from storage devices, powering drones and robots with power storage devices for a surface and airborne micro-organism and matter identification system using artificial and machine learning algorithms. The entire application including all energy sources, power generation components, hardware, software, mobile components and ancillary hardware components will be referred to as the “system”.

Implementation, utilization and management of power sources, power generation and power supply, recharging of chargeable devices, transfer of power to and from storage devices, powering drones and robots with power storage devices for a surface and airborne micro-organism and matter identification system using artificial and machine learning algorithms. The entire application including all energy sources, power generation components, hardware, software, mobile components and ancillary hardware components will be referred to as the “system”.

A wireless electrical energy transmission system is provided. The system comprises a wireless transmission base configured to wirelessly transmit electrical energy or data via near field magnetic coupling to a receiving antenna configured within an electronic device. The wireless electrical energy transmission system is configured with at least one transmitting antenna and a transmitting electrical circuit positioned within the transmission base. The transmission base is configured so that at least one electronic device can be wirelessly electrically charged or powered by positioning the at least one device external and adjacent to the transmission base.

A wireless electrical energy transmission system is provided. The system comprises a wireless transmission base configured to wirelessly transmit electrical energy or data via near field magnetic coupling to a receiving antenna configured within an electronic device. The wireless electrical energy transmission system is configured with at least one transmitting antenna and a transmitting electrical circuit positioned within the transmission base. The transmission base is configured so that at least one electronic device can be wirelessly electrically charged or powered by positioning the at least one device external and adjacent to the transmission base.

Implementations of a power generator may include an enclosure including a cavity therein; a magnet supported within the cavity of the enclosure through one or more supports; and a coil disposed around the enclosure where the magnet may be configured to vibrate under the influence of one of a magnetic field generated by a coil or a resonant frequency emitted by a noise source where the vibration of the magnet generates electrical power with the coil.

Implementations of a power generator may include an enclosure including a cavity therein; a magnet supported within the cavity of the enclosure through one or more supports; and a coil disposed around the enclosure where the magnet may be configured to vibrate under the influence of one of a magnetic field generated by a coil or a resonant frequency emitted by a noise source where the vibration of the magnet generates electrical power with the coil.

A wireless power system may include an electronic device and a removable case. The electronic device and removable case may include wireless charging coils that are inductively coupled when the electronic device and the removable case are physically coupled. In a first mode, while the removable case is inductively coupled to the electronic device and the electronic device is not connected to a wired power source, a coil in the removable case transmits wireless power signals to the electronic device. In a second mode, while the removable case is inductively coupled to the electronic device and the electronic device is connected to a wired power source, the coil in the removable case receives wireless power signals from the electronic device. In a third mode, the removable case receives wireless power with a first coil and transmits wireless power to the electronic device with a second coil.