Contact touchscreen with an improved insulated spacer arrangement

US 5,220,136 A
Filed: 11/26/1991
Issued: 06/15/1993
Est. Priority Date: 11/26/1991
Status: Expired due to Term

First Claim

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1. A sensor comprising:

a) a substrate having a top face, a bottom face, and a first conductive layer on the top face;

b) a cover sheet above the first conductive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface, a bottom surface, and a second conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the second conductive layer can be pressed into contact with corresponding portions of the first conductive layer of the substrate for generation of signals corresponding to the portions of the cover sheet pressed; and

c) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is less than 0.65,wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior.

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Abstract

A contact sensor comprises a first sheet of flexible material and second sheet. The first sheet is capable of being energized to establish an electrical potential thereon. The second sheet can be energized to establish an electrical potential in juxtaposition with the first sheet. The two sheets are formed of materials that tend to stick together. To keep the sheets apart, a plurality of substantially uniform discrete insulating islands are used. By the use of a non-square insulating island spacing pattern with the island spacing satisfying rigorous criteria, the two sheets can be prevented from sticking together without unduly increasing the amount of force required to activate the device. The sensor is particularly useful as a transparent touchscreen.

122 Citations

26 Claims

1. A sensor comprising:
- a) a substrate having a top face, a bottom face, and a first conductive layer on the top face;
  
  b) a cover sheet above the first conductive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface, a bottom surface, and a second conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the second conductive layer can be pressed into contact with corresponding portions of the first conductive layer of the substrate for generation of signals corresponding to the portions of the cover sheet pressed; and
  
  c) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is less than 0.65,wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior.
- View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 15, 16, 18, 19, 20, 21, 22)
- - 4. The sensor of claim 1 wherein the first conductive layer and the second conductive layer have different conductivities.
  - 5. The sensor of claim 1 or 3 when the first conductive layer and the second conductive layer have substantially the same conductivity.
  - 6. The sensor of claim 1 wherein the first conductive layer and the second conductive layer have substantially the same conductivity, and the sensor includes means attached to both conductor layers for connecting to an electrical circuit to produce an electrical field in both conductive layers, the electrical fields being orthogonal to each other.
  - 7. The sensor of claim 1, 2, or 3 wherein substantially all of the insulation islands are distributed in the array having a repeating pattern.
  - 8. The sensor of claim 1, 2, or 3 wherein the insulation islands are uniformly distributed.
  - 9. The sensor of claim 1, 2, or 3 wherein the repeating pattern is rectangular, the rectangles having a length and a width, the ratio of the width to the length of the rectangle being less than 0.85.
  - 10. The sensor of claim 1, 2 or 3 wherein the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is less than 0.6.
  - 11. The sensor of claim 9 wherein the repeating pattern is rectangular, the rectangles having a length and a width, the ratio of the width to the length of the rectangle being less than 0.75.
  - 12. The sensor of claim 1 wherein the repeating pattern is a parallelogram pattern.
  - 13. The sensor of claim 1 wherein the repeating pattern is a hexagonal pattern.
  - 15. The sensor of claim 1, 2 or 3 wherein the insulation islands are integral with the cover sheet.
  - 16. The sensor of claim 1 or 3 wherein the insulation islands are attached to the first conductive layer.
  - 18. The sensor of claim 1, 2, or 3 wherein the insulation islands have a height of about 0.0005 to about 0.015 inch and a diameter of about 0.001 to about 0.02 inch.
  - 19. A cathode ray tube having the sensor of claim 1, 2, or 3 thereon.
  - 20. The sensor of claim 1, 2, or 3 wherein the substrate is a cathode ray tube.
  - 21. The sensor of claim 1, 2, or 3 wherein the substrate is a liquid crystal display.
  - 22. The sensor of claim 1, 2, or 3 wherein the substrate is an electroluminescent display.

2. An electrographic contact sensor for disposing upon a data-containing surface so as to permit generation of electrical signals corresponding to x- and y-coordinates of any portion of the data, the sensor comprising:
- a) a transparent substrate having a top face and a bottom face, with a transparent resistive layer on the top face, the bottom face being shaped and sized for placement on the data-containing surface;
  
  b) means attached to the resistive layer for connecting to an electrical circuit to produce orthogonal electrical fields in the resistive layer;
  
  c) a transparent cover sheet above the resistive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface and a bottom surface with a transparent conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the conductive layer can be pressed into contact with corresponding portions of the resistive layer of the substrate for generation of electrical signals corresponding to the portions of the cover sheet pressed, and wherein the cover sheet and the substrate are formed of materials that can stick together; and
  
  d) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is a sufficient amount less than 0.65 that the cover sheet and the substrate do not stick together;
  
  wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior.
- View Dependent Claims (14, 17)
- - 14. The sensor of claim 2 or 3 wherein the data-containing surface is nonplanar, and the bottom face of the substrate conforms to the nonplanar data-containing surface.
  - 17. The sensor of claim 2 wherein the insulation islands are attached to the conductive layer.

3. An electrographic contact sensor for disposing upon a data-containing surface so as to prevent generation of electrical signals corresponding to x- and y- coordinates of any portion of the data, the sensor comprising:
- (a) a transparent substrate having a top face and a bottom face, with a first transparent conductive layer on the top face, the bottom face being shaped in size for placement on the data-containing surface;
  
  (b) a transparent cover sheet above the first transparent conductive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface and a bottom surface with a second transparent conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the second conductive layer can be pressed into contact with corresponding portions of a first conductive layer of the substrate for generation of electrical signals corresponding to the portions of the cover sheet pressed, and when the cover sheet and the substrate are formed of materials that can stick together;
  
  (c) means attached to the first conductive layer for connecting to an electrical circuit to produce a first electrical field in the first conductive layer;
  
  (d) means attached to the second conductive layer for connecting to an electric circuit to produce in the second conductive layer a second electrical field that is orthogonal to the first electrical field; and
  
  (e) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is a sufficient amount less than 0.65 that the cover sheet and the substrate do not stick together;
  
  wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior.

23. A discriminating contact sensor that is responsive to a contacting object, the sensor comprising:
- a) a first sheet of a flexible material capable of being enlarged to establish an electrical potential thereon;
  
  b) a second sheet capable of being energized to establish an electrical potential thereon in juxtaposition with the first sheet, the two sheets being formed of materials that tend to stick together; and
  
  c) a plurality of substantially uniform discrete insulating islands separating the first and second sheets through at least a portion of the sensor, the islands being sized so that pressure on the first sheet results in the sheets contacting, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island and its closest neighbor to (ii) the diameter of the repeating pattern is a sufficient amount less than 0.65 that the two sheets do not stick together,wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior.

24. A sensor comprising:
- a) a substrate having a top face, a bottom face, and a first conductive layer on the top face;
  
  b) a cover sheet above the first conductive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface, a bottom surface, and a second conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the second conductive layer can be pressed into contact with corresponding portions of the first conductive layer of the substrate for generation of signals corresponding to the portions of the cover sheet pressed; and
  
  c) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is less than 0.65,wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior;
  
  wherein the repeating pattern is rectangular, the rectangles having a length and a width, the width being about 0.13 inches and the length being about 0.18 inches.

25. An electrographic contact sensor for disposing upon a data-containing surface so as to permit generation of electrical signals corresponding to x- and y-coordinates of any portion of the data, the sensor comprising:
- a) a transparent substrate having a top face and a bottom face, with a transparent resistive layer on the top face, the bottom face being shaped and sized for placement on the data-containing surface;
  
  b) means attached to the resistive layer for connecting to an electrical circuit to produce orthogonal electrical fields in the resistive layer;
  
  c) a transparent cover sheet above the resistive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface and a bottom surface with a transparent conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the conductive layer can be pressed into contact with corresponding portions of the resistive layer of the substrate for generation of electrical signals corresponding to the portions of the cover sheet pressed, and wherein the cover sheet and the substrate are formed of materials that can stick together; and
  
  d) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is a sufficient amount less than 0.65 that the cover sheet and the substrate do not stick together;
  
  wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior;
  
  wherein the repeating pattern is rectangular, the rectangles having a length and a width, the width being about 0.13 inches and the length being about 0.18 inches.

26. An electrographic contact sensor for disposing upon a data-containing surface so as to prevent generation of electrical signals corresponding to x- and y-coordinates of any portion of the data, the sensor comprising:
- (a) a transparent substrate having a top face and a bottom face, with a first transparent conductive layer on the top face, the bottom face being shaped in size for placement on the data-containing surface;
  
  (b) a transparent cover sheet above the first transparent conductive layer with a gap between the cover sheet and the substrate, the cover sheet having a top surface and a bottom surface with a second transparent conductive layer on the bottom surface, wherein the cover sheet is sufficiently flexible that selected portions of the second conductive layer can be pressed into contact with corresponding portions of a first conductive layer of the substrate for generation of electrical signals corresponding to the portions of the cover sheet pressed, and when the cover sheet and the substrate are formed of materials that can stick together;
  
  (c) means attached to the first conductive layer for connecting to an electrical circuit to produce a first electrical field in the first conductive layer;
  
  (d) means attached to the second conductive layer for connecting to an electric circuit to produce in the second conductive layer a second electrical field that is orthogonal to the first electrical field; and
  
  (e) a plurality of insulation islands distributed in the gap between the cover sheet and the substrate to maintain the gap between the cover sheet and the substrate in the absence of pressure on the cover sheet, at least a portion of the insulation islands being distributed in an array having a repeating pattern so that the ratio of (i) the distance between each insulation island of said portion and its closest neighbor to (ii) the diameter of the repeating pattern is a sufficient amount less than 0.65 that the cover sheet and the substrate do not stick together;
  
  wherein the diameter of the pattern is equal to the diameter of the largest circle that can be drawn in the pattern where said circle contains no insulation islands in its interior;
  
  wherein the repeating pattern is rectangular, the rectangles having a length and a width, the width being about 0.13 inches and the length being about 0.18 inches.

Specification

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Litigation Campaign Assessment

Current Assignee
Tyco Electronics Corporation (TE Connectivity Ltd. (United Kingdom))
Original Assignee
Elographics Incorporated (Elo Touch Solutions, Inc.)
Inventors
Kent, Joel C.
Primary Examiner(s)
Schreyer, Stafford

Application Number

US07/798,664
Time in Patent Office

567 Days
Field of Search

178/18, 178/19
US Class Current

345/173
CPC Class Codes

G06F 3/045 using resistive elements, e...

Y10T 428/24149 Honeycomb-like

Contact touchscreen with an improved insulated spacer arrangement

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

122 Citations

26 Claims

Specification

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Contact touchscreen with an improved insulated spacer arrangement

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

122 Citations

26 Claims

Specification

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Solutions

Use Cases

Quick Links