Projected capacitive touch sensing

US 9,274,654 B2
Filed: 10/27/2010
Issued: 03/01/2016
Est. Priority Date: 10/27/2009
Status: Active Grant

First Claim

Patent Images

1. A projected capacitive touch sensing system comprising:

a first substrate on which a common plate electrode is positioned;

an electromagnetic radiation source configured to emit electromagnetic radiation that is coupled into the first substrate, such that at least a portion of the emitted electromagnetic radiation experiences total internal reflection within the first substrate;

a second substrate on which patterned capacitive touch sensing electrodes that are oriented in a plane are positioned, the plane parallel and spaced apart from the common plate electrode, and the patterned capacitive touch sensing electrodes positioned such that each of a plurality of pairs of adjacent patterned capacitive touch sensing electrodes in the plane experience a capacitance therebetween, wherein the capacitance between a pair of the plurality of pairs of adjacent patterned capacitive touch sensing electrodes in the plane changes in response to changes in a distance between the first substrate on which the common plate electrode is positioned and the second substrate on which the pair of adjacent patterned capacitive touch sensing electrodes in the plane are positioned, and wherein the common plate electrode is common to the patterned capacitive touch sensing electrodes;

a photo-capacitive or photo-conductive layer positioned on the second substrate, wherein the photo-capacitive or photo-conductive layer causes chances in capacitance or conductance in response to chances in the distance between the first substrate and the second substrate on which the photo-capacitive or photo-conductive layer is positioned;

deformable dielectric material positioned between the common plate electrode and the patterned electrodes; and

electronic circuitry configured to sense changes in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and chances in capacitance or conductance of the photo-capacitive or photo-conductive layer in response to changes in the distance between the first substrate on which the common plate electrode is positioned and the second substrate on which the pair of adjacent patterned capacitive touch sensing electrodes and the photo-capacitive or photo-conductive layer are positioned, and determine an input based on the sensed change in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and chance in capacitance or conductance of the photo-capacitive or photo-conductive layer.

View all claims

3 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

Methods, systems, and apparatus relate to touch sensors that are configured to measure input applied to the sensor from a user. Some implementations involve the measurement of changes in capacitance between pairs of adjacent patterned electrodes to detect input at a touch sensor.

66 Citations

View as Search Results

21 Claims

1. A projected capacitive touch sensing system comprising:
- a first substrate on which a common plate electrode is positioned;
  
  an electromagnetic radiation source configured to emit electromagnetic radiation that is coupled into the first substrate, such that at least a portion of the emitted electromagnetic radiation experiences total internal reflection within the first substrate;
  
  a second substrate on which patterned capacitive touch sensing electrodes that are oriented in a plane are positioned, the plane parallel and spaced apart from the common plate electrode, and the patterned capacitive touch sensing electrodes positioned such that each of a plurality of pairs of adjacent patterned capacitive touch sensing electrodes in the plane experience a capacitance therebetween, wherein the capacitance between a pair of the plurality of pairs of adjacent patterned capacitive touch sensing electrodes in the plane changes in response to changes in a distance between the first substrate on which the common plate electrode is positioned and the second substrate on which the pair of adjacent patterned capacitive touch sensing electrodes in the plane are positioned, and wherein the common plate electrode is common to the patterned capacitive touch sensing electrodes;
  
  a photo-capacitive or photo-conductive layer positioned on the second substrate, wherein the photo-capacitive or photo-conductive layer causes chances in capacitance or conductance in response to chances in the distance between the first substrate and the second substrate on which the photo-capacitive or photo-conductive layer is positioned;
  
  deformable dielectric material positioned between the common plate electrode and the patterned electrodes; and
  
  electronic circuitry configured to sense changes in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and chances in capacitance or conductance of the photo-capacitive or photo-conductive layer in response to changes in the distance between the first substrate on which the common plate electrode is positioned and the second substrate on which the pair of adjacent patterned capacitive touch sensing electrodes and the photo-capacitive or photo-conductive layer are positioned, and determine an input based on the sensed change in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and chance in capacitance or conductance of the photo-capacitive or photo-conductive layer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 2. The projected capacitive touch sensing system of claim 1:
    - wherein the patterned capacitive touch sensing electrodes comprise a series of column electrodes and a series of row electrodes that are oriented perpendicular to the column electrodes, the series of column electrodes and the series of row electrodes being positioned such that adjacent row and column electrodes experience a capacitance therebetween, where the capacitance between a particular column electrode that is adjacent to a particular row electrode changes based on changes in a distance between the common plate electrode and the particular column electrode and the particular row electrode; and
      
      wherein the electronic circuitry is configured to sense a change in capacitance between the particular column electrode and the particular row electrode and determine an input based on the sensed change in capacitance between the particular column electrode and the particular row electrode.
  - 3. The projected capacitive touch sensing system of claim 2, wherein the electronic circuitry is configured to sense a capacitance between the particular column electrode and the particular row electrode independently of a capacitance between the particular column electrode and the common plate electrode and independently of a capacitance between the particular row electrode and the common plate electrode.
  - 4. The projected capacitive touch sensing system of claim 2, wherein the series of column electrodes and the series of row electrodes are substantially coplanar.
  - 5. The projected capacitive touch sensing system of claim 2:
    - wherein the series of column electrodes have a diamond pattern and the series of row electrodes have a diamond pattern such that the column electrodes and the row electrodes each have diamond-shaped pads that are located at positions where the column electrodes and the row electrodes do not overlap and that are connected by relatively narrow lines located at positions where the column electrodes and the row electrodes overlap;
      
      wherein a capacitance between a diamond-shaped pad of the particular column electrode that is adjacent to a diamond-shaped pad of the particular row electrode changes based on changes in a distance between the common plate electrode and the particular column electrode and the particular row electrode; and
      
      wherein the electronic circuitry is configured to sense a change in capacitance between the diamond-shaped pad of the particular column electrode and the diamond-shaped pad of the particular row electrode and determine an input based on the sensed change in capacitance between the diamond-shaped pad of the particular column electrode and the diamond-shaped pad of the particular row electrode.
  - 6. The projected capacitive touch sensing system of claim 2, wherein the electronic circuitry comprises:
    - transmitters that are each positioned at one of the column electrodes and that are each configured to apply an excitation voltage to the corresponding column electrode;
      
      receivers that are each positioned at one of the row electrodes and that are each configured to measure a current coupled into the corresponding row electrode based on excitation voltages applied to the column electrodes; and
      
      a processor configured to control the transmitters to apply excitation voltages to the column electrodes in a sequence in which only one column electrode is applied with an excitation voltage at a time,wherein the processor is configured to sense a change in capacitance between the particular column electrode and the particular row electrode by sensing a change in current measured by the receiver positioned at the particular row electrode at a time when the transmitter positioned at the particular column electrode was applying an excitation voltage to the particular column electrode.
  - 7. The projected capacitive touch sensing system of claim 1, wherein the electronic circuitry is configured to sense a decrease in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and determine an input based on the sensed decrease in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes.
  - 8. The projected capacitive touch sensing system of claim 1, wherein the electronic circuitry is configured to sense an increase in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and determine an input based on the sensed increase in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes.
  - 9. The projected capacitive touch sensing system of claim 1, wherein the deformable dielectric material positioned between the common plate electrode and the patterned electrodes comprises an elastomer.
  - 10. The projected capacitive touch sensing system of claim 1, wherein the deformable dielectric material positioned between the common plate electrode and the patterned electrodes comprises a fluid.
  - 11. The projected capacitive touch sensing system of claim 10, wherein the deformable dielectric material positioned between the common plate electrode and the patterned electrodes comprises substantially air.
  - 12. The projected capacitive touch sensing system of claim 1, wherein the deformable dielectric material positioned between the common plate electrode and the patterned electrodes comprises a sheet of compressible dielectric material.
  - 13. The projected capacitive touch sensing system of claim 1, further comprising:
    - a display device that is configured to display an image and that is positioned below the common plate electrode, the patterned capacitive touch sensing electrodes, and the deformable dielectric material.
  - 14. The projected capacitive touch sensing system of claim 13, wherein the common plate electrode is made of a transparent conductive material, the patterned capacitive touch sensing electrodes are made of the transparent conductive material, and the deformable dielectric material has an index of refraction that matches an index of refraction of the transparent conductive material such that images displayed by the display device are perceivable through the common plate electrode, the patterned capacitive touch sensing electrodes, and the deformable dielectric material.
  - 15. The projected capacitive touch sensing system of claim 14, wherein the electronic circuitry is configured to determine a location of the determined input, map the location of the determined input to an image displayed by the display device, and control an application based on the mapping of the location of the determined input to the image displayed by the display device.
  - 16. The projected capacitive touch sensing system of claim 1, wherein the electronic circuitry is configured to determine a touch input based on the sensed change in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes.
  - 17. The projected capacitive touch sensing system of claim 1, wherein the electronic circuitry is configured to sense an amount of change in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes and determine an amount of force supplied based on the amount of change in capacitance between the pair of adjacent patterned capacitive touch sensing electrodes.
  - 18. The projected capacitive touch sensing system of claim 1, wherein the first and second substrates are oriented such that the common plate electrode faces the patterned capacitive touch sensing electrodes and being configured to enable relative movement between the common plate electrode and the patterned capacitive touch sensing electrodes in response to a touch input.
  - 19. The projected capacitive touch sensing system of claim 18, wherein the first substrate is relatively flexible and the second substrate is relatively rigid.
  - 20. The projected capacitive touch sensing system of claim 19, wherein the first substrate has a surface that receives a touch input and is configured to bend in response to force applied by the touch input, thereby moving the common plate electrode closer to the patterned capacitive touch sensing electrodes in a vicinity of a contact point of the touch input.
  - 21. The projected capacitive touch sensing system of claim 20, wherein the first substrate isolates electric fields from outside of the touch sensing system from impacting the capacitance between the pair of adjacent patterned capacitive touch sensing electrodes.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Microsoft Technology Licensing LLC (Microsoft Corporation)
Original Assignee
Perceptive Pixel Incorporated (Microsoft Corporation)
Inventors
Slobodin, David Elliott, Westhues, Jonathan
Primary Examiner(s)
Yodichkas, Aneeta
Assistant Examiner(s)
ELNAFIA, SAIFELDIN E

Application Number

US12/913,491
Publication Number

US 20110096025A1
Time in Patent Office

1,952 Days
Field of Search

345173-175, 178/18.01, 178/18.03
US Class Current

1/1
CPC Class Codes

G06F 2203/04105   Pressure sensors for measur...

G06F 2203/04109   FTIR in optical digitiser, ...

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

G06F 3/0446   using a grid-like structure...

G06F 3/0447   Position sensing using the ...

Projected capacitive touch sensing

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

66 Citations

21 Claims

Specification

Solutions

Use Cases

Quick Links

Projected capacitive touch sensing

First Claim

3 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

66 Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links