Reduction of near field electro-magnetic scattering using high impedance metallization terminations
First Claim
1. A method of attenuating scattering electro-magnetic waves present on metallized areas within a mobile phone caused by components within the mobile phone, the method comprising placing discrete components near an edge of the metallized areas, the discrete components obstructing a current path of scattering electro-magnetic waves present on the metallized areas such that electric current due to the scattering electro-magnetic waves present on the metallized areas encounters higher impedances as the scattering electro-magnetic waves flow through the discrete components near the edge of the metallized areas, the higher impedances attenuating the scattering electro-magnetic waves emitted from the edge of the metallized areas.
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Abstract
The present invention uses metallization termination techniques to reduce the electro-magnetic field scattering at the edges of metallized areas. The metallization termination techniques provide a gradual transition from high conductivity areas to high impedance areas. The mobile phone antenna illuminates the PCB allowing currents to flow on the PCB. When the currents reach edges of the PCB they flow through a region of increasingly high impedance without reflecting back or scattering.
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Citations
10 Claims
- 1. A method of attenuating scattering electro-magnetic waves present on metallized areas within a mobile phone caused by components within the mobile phone, the method comprising placing discrete components near an edge of the metallized areas, the discrete components obstructing a current path of scattering electro-magnetic waves present on the metallized areas such that electric current due to the scattering electro-magnetic waves present on the metallized areas encounters higher impedances as the scattering electro-magnetic waves flow through the discrete components near the edge of the metallized areas, the higher impedances attenuating the scattering electro-magnetic waves emitted from the edge of the metallized areas.
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6. A mobile phone that attenuates scattering electro-magnetic waves present on metallized areas within the mobile phone caused by components within the mobile phone, the mobile phone comprising:
discrete components placed near an edge of metallized areas, the discrete components obstructing a current path of scattering electro-magnetic waves present on the metallized areas such that electric current due to the scattering electro-magnetic waves present on the metallized areas encounters higher impedances as the scattering electro-magnetic waves flow through the discrete components near the edge of the metallized areas, the high impedances attenuating the scattering electro-magnetic waves emitted from the edge of the metallized areas. - View Dependent Claims (7, 8, 9, 10)
Specification