Method for configuring an electronic device having an inductive receiver coil with ultra-thin shielding layer
First Claim
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1. A method for configuring an electronic device for being inductively powered or charged, comprising:
- configuring an inductive receiver coil for generating current in response to being exposed to an alternating magnetic field generated substantially on a first side of the inductive receiver coil; and
disposing an ultra-thin soft magnetic shielding layer, comprising a thickness less than or equal to one hundred micrometers (100 μ
m), on a second side of the inductive receiver coil, opposite to the first side where the magnetic field is generated, the soft magnetic shielding layer configured to mitigate formation of eddy currents within the shielding layer and an overlying object wherein forming within the soft magnetic shielding layer, via laser cutting, a plurality of slits substantially parallel to magnetic flux lines and orthogonal to eddy current flow, wherein the soft magnetic shielding material is attached to a transparent adhesive foil, and laser energy is directed towards the soft magnetic shielding material layer at desired sites to evaporate corresponding soft magnetic shielding material to form the slits, wherein the transparent adhesive foil remains intact, said slits configured to impose a large impedance to eddy current formation extending from an outer perimeter of the shielding layer toward a middle region of the shielding layer, wherein the middle region comprises;
a material selected from a group consisting of;
Mumetal, nanocristaline metal and amorphous metals and the slits are not present in the middle region.
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Abstract
An electronic device which is inductively powered or charged has a receiver coil on which a metal object can be placed without causing deterioration of the coil'"'"'s magnetic field and without generating heat in the metal object. An ultra-thin, flexible, high magnetic permeability metal foil having a thickness of 50 μm or less is provided as a shielding layer between the coil and the object. Radial slits are provided in the shielding layer, which suppress unwanted eddy currents in the layer to reduce power transfer losses and heat generation.
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Citations
3 Claims
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1. A method for configuring an electronic device for being inductively powered or charged, comprising:
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configuring an inductive receiver coil for generating current in response to being exposed to an alternating magnetic field generated substantially on a first side of the inductive receiver coil; and disposing an ultra-thin soft magnetic shielding layer, comprising a thickness less than or equal to one hundred micrometers (100 μ
m), on a second side of the inductive receiver coil, opposite to the first side where the magnetic field is generated, the soft magnetic shielding layer configured to mitigate formation of eddy currents within the shielding layer and an overlying object wherein forming within the soft magnetic shielding layer, via laser cutting, a plurality of slits substantially parallel to magnetic flux lines and orthogonal to eddy current flow, wherein the soft magnetic shielding material is attached to a transparent adhesive foil, and laser energy is directed towards the soft magnetic shielding material layer at desired sites to evaporate corresponding soft magnetic shielding material to form the slits, wherein the transparent adhesive foil remains intact, said slits configured to impose a large impedance to eddy current formation extending from an outer perimeter of the shielding layer toward a middle region of the shielding layer, wherein the middle region comprises;a material selected from a group consisting of;
Mumetal, nanocristaline metal and amorphous metals and the slits are not present in the middle region. - View Dependent Claims (2, 3)
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Specification