Capacitive touch sensor system

US 8,963,843 B2
Filed: 08/28/2008
Issued: 02/24/2015
Est. Priority Date: 08/28/2008
Status: Active Grant

First Claim

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1. A method of matrix sensing using delay-based capacitance sensing, the method comprising:

applying a sensing signal to a plurality of first-axis lines as active lines;

applying a disturbance signal to a plurality of second-axis lines; and

identifying a location of a touch by measuring a change in cross-capacitance at intersections between the first-axis and second-axis lines,wherein applying the sensing signal comprises applying a series of first pulses to one of said first-axis lines, each first pulse having a leading edge transition in a first direction and a trailing edge transition in a second direction, andwherein applying the disturbance signal comprises applying individual second pulses in a sequential manner swept across the plurality of second-axis lines, each second pulse having a leading edge transition in the second direction and a trailing edge transition in the first direction, and the leading and trailing edges of each individual second pulse being substantially aligned with the leading and trailing edges of one corresponding first pulse of said series of first pulses.

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Abstract

A method of matrix sensing using delay-based capacitance sensing, including using X-axis lines as active lines for capacitance measurements and using Y-axis lines as a disturbance to identify the location of a touch in a key matrix is disclosed. A sensing signal is applied to the X-axis lines, and a disturbance signal is applied to the Y-axis lines. If a location is touched, cross-capacitance is reduced, which is measured by sweeping data along the X-axis lines.

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18 Claims

1. A method of matrix sensing using delay-based capacitance sensing, the method comprising:
- applying a sensing signal to a plurality of first-axis lines as active lines;
  
  applying a disturbance signal to a plurality of second-axis lines; and
  
  identifying a location of a touch by measuring a change in cross-capacitance at intersections between the first-axis and second-axis lines,wherein applying the sensing signal comprises applying a series of first pulses to one of said first-axis lines, each first pulse having a leading edge transition in a first direction and a trailing edge transition in a second direction, andwherein applying the disturbance signal comprises applying individual second pulses in a sequential manner swept across the plurality of second-axis lines, each second pulse having a leading edge transition in the second direction and a trailing edge transition in the first direction, and the leading and trailing edges of each individual second pulse being substantially aligned with the leading and trailing edges of one corresponding first pulse of said series of first pulses.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1 further comprising using a single first-axis line and N second-axis lines, wherein N is greater than zero.
  - 3. The method of claim 2 further comprising correlating the touch location in a key matrix, and wherein a maximum number of keys that can be pressed along the first-axis line is equal to N−
    - 1, and wherein N is greater than one.
  - 4. The method of claim 1 further comprising performing the method in a rectangular matrix configuration.
  - 5. The method of claim 1 further comprising performing the method in a diamond-shaped matrix.
  - 6. The method of claim 1 further comprising an M×
    - N matrix, wherein M is the number of lines in the first-axis, N is the number of lines in the second-axis, and assuming the maximum number of lines in the second-axis affected by a touch is three, the maximum number of touches allowed in a single first-axis line is (N/3−
      
      1), and wherein the maximum number of touches is greater than zero and is not fractional.
  - 7. The method of claim 1 wherein “
    - ghost touch”
      
      is substantially eliminated without using an additional matrix line.

8. A touch pad or touch screen comprising:
- a plurality of first-axis lines; and
  
  a plurality of second-axis lines,a first driving circuitry configured to apply a sensing signal to the first-axis lines,a second driving circuitry configured to apply a disturbance signal to the second-axis lines,a sensing circuit configured to determine a location of a touch by measuring a change in cross-capacitance at intersections between the first-axis and second-axis lines,wherein said first driving circuitry applies the sensing signal as a series of first pulses on one of said first-axis lines, each first pulse having a leading edge transition in a first direction and a trailing edge transition in a second direction; and
  
  wherein said second driving circuitry applies the disturbance signal as individual second pulses in a sequential manner swept across the plurality of second-axis lines, each second pulse having a leading edge transition in the second direction and a trailing edge transition in the first direction, and the leading and trailing edges of each individual second pulse being substantially aligned with the leading and trailing edges of one corresponding first pulse of said series of first pulses.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
- - 9. The touch pad or touch screen of claim 8 wherein the disturbance signal is generated by a signal generator.
  - 10. The touch pad or touch screen of claim 8 further comprising using a single first-axis line and N second-axis lines, wherein N is greater than zero.
  - 11. The touch pad or touch screen of claim 10 wherein the sensing circuitry correlates the touch location in a key matrix, and wherein a maximum number of keys that can be pressed is equal to N−
    - 1, and wherein N is greater than one.
  - 12. The touch pad or touch screen of claim 8 further comprising a rectangular matrix configuration.
  - 13. The touch pad or touch screen of claim 8 further comprising a diamond-shaped matrix.
  - 14. The touch pad or touch screen of claim 8 further comprising an M×
    - N matrix, wherein M is the number of lines in the first-axis, N is the number of lines in the second-axis, and assuming the maximum number of lines in the second-axis affected by a touch is three, the maximum number of touches allowed in a single first-axis is (N/3−
      
      1), and wherein the maximum number of touches is greater than 0 and is not fractional.
  - 15. The touch pad or touch screen of claim 8 wherein “
    - ghost touch”
      
      is substantially eliminated without using an additional matrix line.
  - 16. The touch pad or touch screen of claim 8 wherein the sensing signal is generated by a signal generator.

17. A method, comprising:
- applying a sensing signal to a first-axis line of a capacitive touch sensor, said sensing signal comprising a series of first pulses, each first pulse having a leading edge transition in a first direction and a trailing edge transition in a second direction;
  
  applying a disturbance signal to a plurality of second-axis lines of said capacitive touch sensor, said disturbance signal comprising a second pulse having a leading edge transition in the second direction and a trailing edge transition in the first direction;
  
  wherein applying the disturbance signal further comprises applying the second pulse to only one individual second-axis line at a time such that the leading and trailing edges of each second pulse are substantially aligned with the leading and trailing edges of a corresponding one of the first pulse of said series of first pulses; and
  
  sensing change in capacitance at intersections of the first and second-axis lines to identify location of a touch made to the capacitive touch sensor.
- View Dependent Claims (18)
- - 18. The method of claim 17, wherein applying the disturbance signal further comprises sweeping application of the second pulse across individual ones of the plurality of second-axis lines.

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Current Assignee
STMicroelectronics Asia Pacific Pte Limited (STMicroelectronics NV)
Original Assignee
STMicroelectronics Asia Pacific Pte Limited (STMicroelectronics NV)
Inventors
Ningrat, Kusuma Adi, Ng, Chee Yu, Noviello, Giuseppe
Primary Examiner(s)
Pervan, Michael

Application Number

US12/200,567
Publication Number

US 20100051354A1
Time in Patent Office

2,371 Days
Field of Search

345/173, 345174-178, 178 1801- 1907
US Class Current

345/173
CPC Class Codes

G06F 3/0418   for error correction or com...

G06F 3/04182   Filtering of noise external...

G06F 3/044   by capacitive means

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

Capacitive touch sensor system

First Claim

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Abstract

17 Citations

18 Claims

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Capacitive touch sensor system

First Claim

1 Assignment

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Abstract

17 Citations

18 Claims

Specification

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Use Cases

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Others