Self powered mili, micro, and nano electronic chips
First Claim
1. A self charging self-storage electronic chipset that produces its own power through Radio Frequency (RF) power harvesting that includes, but is not limited to, one electrical conductive coil wire over which a carbon nanotube with magnetic bacteria have been attached which will resonate in the presence of RF fields causing voltage and current to be generated in the electrical conductive coil wire with said power being stored on a layer of carbon nanotube storage media, which will be used to power the chip and or other chips.
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Accused Products
Abstract
Self powered mico, mili, and nano electronic chips having one or more methods of self-power production. Comprising a series of carbon nanotubes with attached magnetic bacteria for creating vibration with the existing Radio Frequency (RF) fields of the oscillators included in the electronic device or ambient RF fields across coils. As well as a layer of Ni—Mn—Ga magnetoplastic layer which is deformed by magnetic flux lines to cause current flow thorough coils of wire. This configuration creates a power generator on the chipset comprising of magnetic fields and a coil configured to focus the magnetic field in the electrical conductive elements of the coil.
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Citations
20 Claims
- 1. A self charging self-storage electronic chipset that produces its own power through Radio Frequency (RF) power harvesting that includes, but is not limited to, one electrical conductive coil wire over which a carbon nanotube with magnetic bacteria have been attached which will resonate in the presence of RF fields causing voltage and current to be generated in the electrical conductive coil wire with said power being stored on a layer of carbon nanotube storage media, which will be used to power the chip and or other chips.
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14. A self charging self-storage electronic chipset that produces its own power through Radio Frequency (RF) power harvesting that includes, but is not limited to, one Ni—
- Mn—
Ga magnetoplastic crystal magnetic conductive crystal over which a carbon nanotube with magnetic bacteria have been attached which will resonate in the presence of RF fields causing voltage and current to be generated in the Ni—
Mn—
Ga magnetoplastic crystal with said power being stored on a layer of carbon nanotube storage media, which will be used to power the chip and or other chips.
- Mn—
Specification