COVER-TESTING FIXTURE FOR RADIO FREQUENCY SENSITIVE DEVICES

US 20140266149A1
Filed: 12/03/2013
Published: 09/18/2014
Est. Priority Date: 03/12/2013
Status: Abandoned Application

First Claim

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1. An apparatus for determining variations in the metallic content of a cover of a mobile communications device at a plurality of different locations corresponding to multiple antenna positions adjacent the cover, the apparatus comprising:

a radio frequency signal generator for generating a standing wave along a transmission line, the transmission line including a first conductor strip;

a first planar nonconductive substrate having a first side, the first conductor strip formed from a thin conductive film on, about and proximate to the perimeter of the first side of the first planar nonconductive substrate, the first conductor strip being connected at a first end to the radio frequency signal generator and configured to transmit a signal on a frequency corresponding to the standing wave, the signal exciting a plurality of magnetic field peaks extending along the first conductor strip and coinciding with a predetermined positioning of the cover at the plurality of different locations corresponding to the multiple antenna positions adjacent the cover;

the transmission line further comprising a second planar conductor formed from a thin metallic film substantially covering a first side of a second nonconductive planar substrate, the second nonconductive planar substrate and the second planar conductor being substantially parallel to the first conductor strip, the second conductor being electromagnetically coupled to the first conductor strip;

and wherein the plurality of magnetic field peaks, excited by the signal, are additionally configured to electromagnetically couple potential metallic content of the cover to the first conductor strip such that variations in metallic content of the cover at one or more different locations of the cover, proximate to the multiple antenna positions adjacent to the cover, create detectable deviations in a frequency loss response of the transmission line whereby the plurality of different locations of the cover are simultaneously tested for variations in the metallic content.

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Abstract

A method for determining variations in the metallic content of a cover of a mobile communications device at different locations simultaneously includes configuring a radio frequency signal generator to generate a standing wave along a transmission line including a first conductor formed from a thin conductive film on a first side of a first nonconductive substrate and transmitting a signal on a frequency corresponding to the standing wave to excite a plurality of magnetic and electric field peaks along the first conductor coinciding with the positioning of the cover at different locations wherein the transmission line also includes a second conductor formed from a thin metallic film substantially covering a first side of a second nonconductive substrate positioned parallel to the first nonconductive substrate whereby the second conductor is electromagnetically coupled to the first conductor to identify detectable deviations in the scattering parameters (S-11) or return loss response of the transmission line.

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20 Claims

1. An apparatus for determining variations in the metallic content of a cover of a mobile communications device at a plurality of different locations corresponding to multiple antenna positions adjacent the cover, the apparatus comprising:
- a radio frequency signal generator for generating a standing wave along a transmission line, the transmission line including a first conductor strip;
  
  a first planar nonconductive substrate having a first side, the first conductor strip formed from a thin conductive film on, about and proximate to the perimeter of the first side of the first planar nonconductive substrate, the first conductor strip being connected at a first end to the radio frequency signal generator and configured to transmit a signal on a frequency corresponding to the standing wave, the signal exciting a plurality of magnetic field peaks extending along the first conductor strip and coinciding with a predetermined positioning of the cover at the plurality of different locations corresponding to the multiple antenna positions adjacent the cover;
  
  the transmission line further comprising a second planar conductor formed from a thin metallic film substantially covering a first side of a second nonconductive planar substrate, the second nonconductive planar substrate and the second planar conductor being substantially parallel to the first conductor strip, the second conductor being electromagnetically coupled to the first conductor strip;
  
  and wherein the plurality of magnetic field peaks, excited by the signal, are additionally configured to electromagnetically couple potential metallic content of the cover to the first conductor strip such that variations in metallic content of the cover at one or more different locations of the cover, proximate to the multiple antenna positions adjacent to the cover, create detectable deviations in a frequency loss response of the transmission line whereby the plurality of different locations of the cover are simultaneously tested for variations in the metallic content.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The apparatus of claim 1, wherein the number of the plurality of magnetic field peaks corresponding to the plurality of different locations may be varied to correspond with at least one different location by adjusting the frequency of the radio frequency signal generator whereby the at least one different location simultaneously tested for variations in metallic content.
  - 3. The apparatus of claim 1, wherein the magnetic peaks couple or decouple with the cover'"'"'s structure to detect physical nonconformities of a shape of the cover.
  - 4. The apparatus of claim 3 wherein a physical nonconformity of the shape of the cover is a warp of the cover.
  - 5. The apparatus of claim 1, further comprising at least one nonconductive guide member attached to the first planar nonconductive substrate and configured to retain the cover adjacent the second side of the first planar nonconductive substrate such that the cover is electromagnetically coupled to the first conductor strip when the first conductor strip is excited with the radio frequency signal source.
  - 6. The apparatus of claim 1, wherein the first conductor strip is positioned to extend proximate to the periphery of the cover.
  - 7. The apparatus of claim 1, wherein the first and second planar nonconductive substrates are interconnected with a plurality of spaced apart nonconductive connectors that maintain a predetermined distance between the first and second substrates.
  - 8. The apparatus of claim 1, wherein the mobile communications device is a cellular phone and the potential metal content of the cover is in a coating that is a non-conductive vacuum metalized finish applied to an exterior surface of the cover.

9. A method for determining variations in the metallic content of a cover of a mobile communications device at a plurality of different locations corresponding to multiple antenna positions adjacent the cover, the method comprising:
- configuring a radio frequency signal generator to generate a standing wave along a transmission line, the transmission line including a first conductor strip wherein the first conductor strip formed from a thin conductive film positioned on, about and proximate to the perimeter of a first side of a first planar nonconductive substrate and wherein the first conductor strip is connected at a first end to the radio frequency signal generator;
  
  transmitting, with the signal generator, a signal on a frequency corresponding to the standing wave whereby the signal excites a plurality of magnetic field peaks along the first conductor strip coinciding with a predetermined positioning of the cover at the plurality of different locations that correspond to the multiple antenna positions;
  
  wherein the transmission line further comprises a second planar conductor formed from a thin metallic film substantially covering a first side of a second nonconductive planar substrate, the second nonconductive planar substrate and the second planar conductor being substantially parallel to the first conductor strip, the second conductor being electromagnetically coupled to the first conductor strip;
  
  whereby the plurality of magnetic field peaks, excited by the signal, electromagnetically couple potential metallic content of the cover to the first conductor strip such that variations in metallic content of the cover at one or more different locations of the cover, proximate to the multiple antenna positions adjacent to the cover, create detectable deviations in the return loss (S-11) response of the transmission line; and
  
  identifying detectable deviations in the return loss (S-11) response of the transmission line as an indication of the metallic content of the cover at the one or more different locations on the cover.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
- - 10. The method of claim 9, further comprising varying the number of the plurality of magnetic field peaks corresponding to the plurality of different locations by adjusting the frequency of the radio frequency signal generator whereby the at least one different location simultaneously tested for variations in metallic content.
  - 11. The method of claim 9 further comprising identifying detectable deviations in the return loss (S-11) response of the transmission line as an indication of one or more physical nonconformities of a shape of the cover.
  - 12. The method of claim 11 wherein the physical nonconformity of the shape of the cover is a warp of the cover.
  - 13. The method of claim 9, further comprising utilizing at least one nonconductive guide member attached to the first planar nonconductive substrate to retain the cover adjacent the second side of the first planar nonconductive substrate such that the cover is electromagnetically coupled to the first conductor strip when the first conductor strip is excited with the radio frequency signal source.
  - 14. The method of claim 9, wherein the first conductor strip is positioned to extend proximate to the periphery of the cover.
  - 15. The method of claim 9, wherein the first and second planar nonconductive substrates are interconnected with a plurality of spaced apart nonconductive connectors that maintain a predetermined distance between the first and second substrates.
  - 16. The method of claim 9, wherein the mobile communications device is a cellular phone and the potential metal content of the cover is in a coating that is a non-conductive vacuum metalized finish applied to an exterior surface of the cover.
  - 17. The method of claim 9, further comprising simultaneously identifying detectable deviations in the return loss (S-11) response of the transmission line as an indication of the metallic content of the cover at a plurality of different locations on the cover.

18. A system for determining variations in the metallic content of a cover of a mobile communications device at a plurality of different locations corresponding to multiple antenna positions adjacent the cover, the system including:
- a test apparatus comprising;
  
  a transmission line including a first conductor strip;
  
  a first planar nonconductive substrate having a first side, the first conductor strip formed from a thin conductive film on, about and proximate to the perimeter of the first side of the first planar nonconductive substrate, the first conductor strip being connected at a first end to the radio frequency signal generator and configured to transmit a signal on a frequency corresponding to the standing wave, the signal exciting a plurality of magnetic field peaks extending along the first conductor strip and coinciding with a predetermined positioning of the cover at the plurality of different locations corresponding to the multiple antenna positions adjacent the cover;
  
  the transmission line including a second planar conductor formed from a thin metallic film substantially covering a first side of a second nonconductive planar substrate, the second nonconductive planar substrate and the second planar conductor being substantially parallel to the first conductor strip, the second conductor being electromagnetically coupled to the first conductor strip; and
  
  at least one nonconductive guide member attached to the first planar nonconductive substrate to retain the cover adjacent the second side of the first planar nonconductive substrate such that the cover is electromagnetically coupled to the first conductor strip when the first conductor strip is excited with the radio frequency signal source;
  
  a radio frequency signal generator coupled to the first conductor for generating a standing wave along the transmission line;
  
  a display, the display configured to show the return loss response of the transmission line; and
  
  wherein the plurality of magnetic field peaks, excited by the signal, are additionally configured to electromagnetically couple potential metallic content of the cover to the first conductor strip such that variations in metallic content of the cover at one or more different locations of the cover, proximate to the multiple antenna positions adjacent to the cover, create detectable deviations in the return loss response.
- View Dependent Claims (19, 20)
- - 19. The system of claim 18 wherein the number of the plurality of magnetic field peaks corresponding to the plurality of different locations may be varied to correspond with at least one different location by adjusting the frequency of the radio frequency signal generator whereby the at least one different location simultaneously tested for variations in metallic content.
  - 20. The system of claim 18, wherein the mobile communications device is a cellular phone and the potential metal content of the cover is in a coating that is a non-conductive vacuum metalized finish applied to an exterior surface of the cover.

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Current Assignee
Google Technology Holdings LLC (Alphabet Inc.)
Original Assignee
Motorola Mobility LLC (Lenovo Group Ltd.)
Inventors
Martinez, Juan M., Sai Ananthanarayanan, Peruvemba Ranganathan, Cheo, Francis C.

Application Number

US14/095,261
Publication Number

US 20140266149A1
Time in Patent Office

Days
Field of Search
US Class Current

324/71.1
CPC Class Codes

H04M 1/0202 Portable telephone sets, e....

H04M 1/24 Arrangements for testing

COVER-TESTING FIXTURE FOR RADIO FREQUENCY SENSITIVE DEVICES

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

19 Citations

20 Claims

Specification

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COVER-TESTING FIXTURE FOR RADIO FREQUENCY SENSITIVE DEVICES

First Claim

2 Assignments

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0 Petitions

Subscription Required

Accused Products

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Abstract

19 Citations

20 Claims

Specification

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Use Cases

Quick Links

Others