Material-discernment proximity sensor

US 10,644,697 B2
Filed: 02/11/2016
Issued: 05/05/2020
Est. Priority Date: 02/11/2016
Status: Active Grant

First Claim

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1. A material-discerning sensing device, comprising:

an antenna comprising a plurality of conductive loops and configured to radiate a wireless signal, the antenna defining an interior region devoid of any of the plurality of conductive loops and an exterior region outside the plurality of conductive loops;

a capacitive sensor comprising a conductive pattern at least a portion which is provided within the interior region or within a projection of the interior region, the capacitive sensor also comprising a conductive bar provided in the exterior region or in a projection of the exterior region and electrically coupled to the conductive pattern, wherein the capacitive sensor is configured to receive the wireless signal from the antenna; and

a control circuit coupled to the antenna and to the conductive bar, wherein the control circuit is configured to detect a change in a characteristic of an electrical signal from the capacitive sensor;

wherein the conductive pattern includes a longitudinal portion, a first plurality of parallel conductors extending away from the longitudinal portion in a first direction and orthogonal to the longitudinal portion, and a second plurality of parallel conductors extending away from the longitudinal portion in a second direction opposite the first direction and orthogonal to the longitudinal portion.

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Abstract

A material-discerning sensing device includes an antenna, a capacitive proximity sensor, and a control circuit. The antenna includes multiple conductive loops and is configured to radiate a wireless signal. The antenna defines an interior region devoid of the conductive loops and an exterior region outside the conductive loops. The capacitive proximity sensor includes a conductive pattern provided within the interior region or within a projection of the interior region, as well as a conductive bar. The control circuit is configured to detect a change in a characteristic of an electrical signal from the capacitive sensor. The conductive pattern includes a longitudinal portion, a first plurality of parallel conductors extending away from the longitudinal portion in a first direction and orthogonal to the longitudinal portion, and a second plurality of parallel conductors extending away from the longitudinal portion in a second direction opposite the first direction.

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20 Claims

1. A material-discerning sensing device, comprising:
- an antenna comprising a plurality of conductive loops and configured to radiate a wireless signal, the antenna defining an interior region devoid of any of the plurality of conductive loops and an exterior region outside the plurality of conductive loops;
  
  a capacitive sensor comprising a conductive pattern at least a portion which is provided within the interior region or within a projection of the interior region, the capacitive sensor also comprising a conductive bar provided in the exterior region or in a projection of the exterior region and electrically coupled to the conductive pattern, wherein the capacitive sensor is configured to receive the wireless signal from the antenna; and
  
  a control circuit coupled to the antenna and to the conductive bar, wherein the control circuit is configured to detect a change in a characteristic of an electrical signal from the capacitive sensor;
  
  wherein the conductive pattern includes a longitudinal portion, a first plurality of parallel conductors extending away from the longitudinal portion in a first direction and orthogonal to the longitudinal portion, and a second plurality of parallel conductors extending away from the longitudinal portion in a second direction opposite the first direction and orthogonal to the longitudinal portion.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The material-discerning sensing device of claim 1, wherein a portion of each conductor of the first and second pluralities of parallel conductors is within the projection of the interior region, and another portion of each conductor of the first and second pluralities of parallel conductors crosses a projection of at least one of the plurality of conductive loops of the antenna.
  - 3. The material-discerning sensing device of claim 1, wherein each conductor of the first and second pluralities of parallel conductors has a length and a common width, and each conductor of the first plurality of parallel conductors is spaced apart from an adjacent conductor of the first plurality of parallel conductors by a distance that is substantially the same as the common width.
  - 4. The material-discerning sensing device of claim 3, wherein each conductor of the second plurality of parallel conductors are spaced apart from one another by a distance that is substantially the same as the common width.
  - 5. The material-discerning sensing device of claim 3, wherein the lengths of the first and second pluralities of parallel conductors are substantially the same.
  - 6. The material-discerning sensing device of claim 1, wherein each conductor of the first and second pluralities of parallel conductors has an electrical connection only to the longitudinal portion of the conductive pattern.

7. An apparatus, comprising:
- a dielectric structure having a first surface and a second surface opposite the first surface;
  
  a first conductive structure provided on the first surface of the dielectric structure and forming an antenna coil that includes multiple conductive loops which define an interior region devoid of any of the conductive loops of the antenna coil;
  
  a second conductive structure provided on the second surface of the dielectric structure and forming a conductive pattern, wherein the conductive pattern includes a plurality of conductors extending away from a central conductive portion in at least two different directions;
  
  wherein the central conductive portion is within the interior region when projected on to the second surface; and
  
  a control circuit coupled to the first conductive structure and the second conductive structure and operable to;
  
  cause the first conductive structure to produce an electric field;
  
  detect a change in a capacitance of the second conductive structure resulting from a change in the electric field; and
  
  detect a proximity based on the change in the capacitance of the second conductive structure.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
- - 8. The apparatus of claim 7, wherein the central conductive portion comprises an elongate conductor and wherein adjacent conductors of the plurality of conductors are parallel to each other.
  - 9. The apparatus of claim 8, wherein each conductor of the plurality of conductors has a length and a common width, and the plurality of conductors are spaced apart from one another by a distance that is substantially the same as the common width.
  - 10. The apparatus of claim 7, wherein adjacent conductors of the plurality of conductors are not parallel to each other.
  - 11. The apparatus of claim 7, wherein at least a portion of each of the plurality of conductors is within the interior region when projected on to the second surface of the dielectric structure.
  - 12. The apparatus of claim 7, wherein a portion of each of the plurality of conductors is within the interior region when projected on to the second surface of the dielectric structure, and another portion of each of the plurality of conductors crosses at least one of the conductive loops of the antenna coil when projected on to the second surface of the dielectric structure.
  - 13. The apparatus of claim 7, further comprising a conductive bar formed on the second surface outside the first conductive structure when projected on to the second surface, wherein the conductive bar is electrically connected to the second conductive structure.
  - 14. The apparatus of claim 7, wherein the plurality of conductors extend away from the central conductive portion in at least three different directions.
  - 15. The apparatus of claim 7, wherein each conductor of the plurality of conductors has an electrical connection only to the central conductive portion.

16. A sensor apparatus, comprising:
- a dielectric structure having a first surface and a second surface opposite the first surface;
  
  a first conductive structure provided on the first surface of the dielectric structure and forming an antenna coil that includes multiple conductive loops that define a central region devoid of any of the conductive loops of the antenna coil;
  
  a second conductive structure provided on the second surface of the dielectric structure and forming a conductive pattern, wherein the conductive pattern includes a central longitudinal portion and a first plurality of parallel conductors extending away from the central portion in a first direction and a second plurality of parallel conductors extending away from the central portion in a second direction opposite the first direction;
  
  wherein the central region has a length, and wherein the central longitudinal portion extends more than 80% of the length of the central region and is within the central region when projected on to the second surface of the dielectric structure; and
  
  a controller coupled to the first conductive structure, wherein the controller is operable to;
  
  cause the first conductive structure to produce an electric field;
  
  measure a change in a capacitance of the second conductive structure resulting from a change in the electric field; and
  
  detect a proximity based on the change in the capacitance of the second conductive structure.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The sensor apparatus of claim 16, wherein at least a portion of each of the first and second plurality of parallel conductors is within the central region when projected on to the second surface of the dielectric structure.
  - 18. The sensor apparatus of claim 16, wherein a portion of each of the first and second plurality of parallel conductors is within the central region when projected on to the second surface, and another portion of each of the first and second plurality of parallel conductors crosses at least one of the conductive loops of the antenna coil when projected on to the second surface of the dielectric structure.
  - 19. The sensor apparatus of claim 16, further comprising a conductive bar formed on the second surface outside the first conductive structure when projected on to the second surface, wherein the conductive bar is electrically connected to the second conductive structure.
  - 20. The sensor apparatus of claim 19, wherein the antenna coil has a width and the conductive bar has a width, and the width of the conductive bar is substantially the same as the width of the antenna coil.

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Current Assignee
Texas Instruments, Inc.
Original Assignee
Texas Instruments, Inc.
Inventors
Almholt, Thomas
Primary Examiner(s)
Jansen, II, Michael J
Assistant Examiner(s)
Quiles, Ivelisse Martinez

Application Number

US15/041,729
Publication Number

US 20170235386A1
Time in Patent Office

1,545 Days
Field of Search
US Class Current
CPC Class Codes

G06F 3/0445   using two or more layers of...

G06F 3/046   by electromagnetic means

H03K 17/9535   with variable amplitude

H03K 17/955   using a capacitive detector

H03K 2217/94036   Multiple detection, i.e. wh...

H03K 2217/96075   involving bridge circuit

Material-discernment proximity sensor

First Claim

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20 Claims

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Material-discernment proximity sensor

First Claim

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Abstract

14 Citations

20 Claims

Specification

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