Data input device with a circuit responsive to stylus up/down position

US 4,575,580 A
Filed: 04/06/1984
Issued: 03/11/1986
Est. Priority Date: 04/06/1984
Status: Expired due to Fees

First Claim

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1. In an apparatus having a writing surface and a means for generating an electrical signal representative of a contact point location on said writing surface including:

first and second resistive sheets positioned so as to overlap one another to define said writing surface;

means for maintaining said first and second resistive sheets in a spaced apart relationship such that said sheets are adapted for electrical contact with each other at a point corresponding to said contact point only when pressure is applied at said contact point;

a source of energizing potential;

means for alternately energizing said first and second resistive sheets to alternately establish a voltage gradient on each of said sheets in a direction different from one another such that a voltage is generated on the alternately non-energized sheet whose value is a function of the position of said contact point on the energized sheet, each point on said writing area thereby being uniquely defined by a unique combination of voltages on said first and second resistive sheets; and

means for detecting and outputting the voltage appearing on each resistive sheet when said sheet is in a non-energized state such that during each alternate energizing cycle first and second voltages are obtained and output which are uniquely representative of the present position on the writing surface of said contact point,an improvement comprising;

means for periodically biasing one of said resistive sheets such that an overvoltage is generated thereon when said first and second resistive sheets are not in electrical contact with each other at a contact point, said overvoltage defined to be a voltage that is outside of the normal range of voltages that can exist on a non-energized resistive sheet when said first and second resistive sheets are in electrical contact with each other at a contact point;

overvoltage detection means responsive to said detecting means for detecting when said one of said resistive sheets has an overvoltage generated thereon; and

means responsive to the detection of said overvoltage for preventing the output of voltages by said outputting means and for maintaining said bias on said one of said resistive sheets.

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Abstract

A data input device includes a pair of resistive sheets positioned so as to overlap one another to define a common writing area. These sheets are separated from one another by a layer of material that is only electrically conductive under pressure. An energizing voltage is alternatively applied to each sheet such that the pressure of a stylus or the like at a contact point on the surface of the writing area generates first and second output voltages representative of the X and Y coordinates of the contact point. A circuit periodically biases one of the resistive sheets. The bias circuit causes an overvoltage outside of the normal range of voltages to be generated on this resistive sheet when no electrical contact presently exits between the two resistive sheets, indicating that a stylus is not presently applying pressure to a contact point on the surface of the data input device. This circuit also causes a voltage within the normal range of voltages to be generated on the biased resistive sheet when an electrical contact does exist between the two resistive sheets. Another circuit detects the overvoltage and causes the bias to be maintained on the resistive sheet until a subsequent stylus contact point is created. The first and second output voltages obtained during or just before a stylus-up state are not output.

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22 Claims

1. In an apparatus having a writing surface and a means for generating an electrical signal representative of a contact point location on said writing surface including:
- first and second resistive sheets positioned so as to overlap one another to define said writing surface;
  
  means for maintaining said first and second resistive sheets in a spaced apart relationship such that said sheets are adapted for electrical contact with each other at a point corresponding to said contact point only when pressure is applied at said contact point;
  
  a source of energizing potential;
  
  means for alternately energizing said first and second resistive sheets to alternately establish a voltage gradient on each of said sheets in a direction different from one another such that a voltage is generated on the alternately non-energized sheet whose value is a function of the position of said contact point on the energized sheet, each point on said writing area thereby being uniquely defined by a unique combination of voltages on said first and second resistive sheets; and
  
  means for detecting and outputting the voltage appearing on each resistive sheet when said sheet is in a non-energized state such that during each alternate energizing cycle first and second voltages are obtained and output which are uniquely representative of the present position on the writing surface of said contact point,an improvement comprising;
  
  means for periodically biasing one of said resistive sheets such that an overvoltage is generated thereon when said first and second resistive sheets are not in electrical contact with each other at a contact point, said overvoltage defined to be a voltage that is outside of the normal range of voltages that can exist on a non-energized resistive sheet when said first and second resistive sheets are in electrical contact with each other at a contact point;
  
  overvoltage detection means responsive to said detecting means for detecting when said one of said resistive sheets has an overvoltage generated thereon; and
  
  means responsive to the detection of said overvoltage for preventing the output of voltages by said outputting means and for maintaining said bias on said one of said resistive sheets.
- View Dependent Claims (2, 4, 5, 6, 7, 8, 9, 11, 14)
- - 2. The improvement of claim 1 wherein said means for periodically biasing one of said resistive sheets includes means for biasing said one of said resistive sheets such that an in-range voltage not exceeding said normal range of voltages plus said threshold value is generated thereon if said first and second resistive sheets are in electrical contact at a contact point, said overvoltage detection means including means for detecting when said voltage is within the normal range of voltages on said one of said resistive sheets;
  - 4. The improvement of claim 1 wherein said outputting means further comprises means for preventing the output of the first and second voltages that had been most recently detected by said detection means prior to the detection of an overvoltage by said overvoltage detection means.
  - 5. The improvement of claim 1 wherein said means for maintaining said first and second resistive sheets in a spaced apart relationship comprises an insulative sheet positioned between said first and second resistive sheets and in contact therewith and adapted to become electrically conductive when pressure applied to said insulative sheet exceeds a predetermined minimum threshold.
  - 6. The improvement of claim 4 wherein said insulative sheet includes a plurality of metal particles distributed through the insulative sheet such that when pressure is applied to said insulative sheet above a predetermined minimum threshold, said metal particles create an electrically conductive path across said insulative sheet at the point of contact of said pressure.
  - 7. The improvement of claim 1 further comprising means responsive to said outputting means for averaging a plurality of successive first voltages and for averaging a plurality of successive second voltages and including means for outputting a first value representative of the average of said first voltages and a second value representative of the average of said second voltages.
  - 8. The improvement of claim 1 further comprising means responsive to said outputting means for optimizing the accuracy of said electrical signal representative of the location of a contact point on the surface of a writing area.
  - 9. The improvement of claim 7 wherein said optimizing means comprises:
  - 11. The improvement of claim 1 further comprising means for preventing the output of the first and second voltages that had been obtained most recently prior to the detection of an overvoltage by said overvoltage detection means.
  - 14. The improvement of claim 11 wherein said means for periodically biasing one of said resistive sheets includes means for biasing said one of said resistive sheets after each said detection of a first and second voltage representative of X and Y coordinates of a stylus position on said writing surface.

3. means responsive to the detection of said in-range voltage for disabling said overvoltage responsive means such that said bias on said one of said resistive sheets is removed.

10. means for comparing a value representative of said first voltage with a value representative of a first voltage previously detected, and for preventing the output of said value representative of said first voltage if said value is outside of a predetermined range above or below said previously detected first voltage value;
- andmeans for comparing a value representative of said second voltage with a value representative of a second voltage previously detected, and for preventing the output of said value representative of said second voltage if said value is outside of a predetermined range above or below said previously detected second voltage value.
- View Dependent Claims (13, 15, 16, 18, 19, 22)
- - 13. The improvement of claim 10 wherein said means for periodically biasing one of said resistive sheets includes means for biasing said one of said resistive sheets such that an in-range voltage substantially within said normal range of voltages is generated thereon if said first and second resistive sheets are in electrical contact at a contact point, said overvoltage detection means including means for detecting said in-range voltage;
    - means responsive to the detection of said in-range voltage for disabling said overvoltage responsive means such that said bias on said one of said resistive sheets is removed.
  - 15. The improvement of claim 10 further comprising means responsive to said outputting means comprising:
    - first averaging means for forming an average of a plurality of said first voltages and for outputting an X coordinate value representative of said average of said plurality of said first voltages;
      
      second averaging means for forming an average of a plurality of said second voltages and for outputting a Y coordinate value representative of said average of said plurality of said second voltages; and
      
      means for preventing the outputting of said X and Y coordinate values by said first and second averaging means, respectively, that had been obtained most recently prior to the detection of an overvoltage by said overvoltage detection means.
  - 16. The improvement of claim 13 further comprising:
    - means for detecting when a first voltage is outside of a determined range from the other said plurality of first voltages averaged by said first averaging means and for eliminating said out of range first voltage from said average formed by said first averaging means; and
      
      means for detecting when a second voltage is outside of a determined range from the other said second voltages averaged by said second averaging means and for eliminating said out of range second voltage from said average formed by said second averaging means.
  - 18. The method of claim 15 further comprising the step of outputting the X and Y coordinate voltages obtained in steps (a) and (b) if a voltage substantially within said normal range of voltages is detected in step (c) and not outputting said X and Y coordinate voltages if an overvoltage is detected in step (c).
  - 19. The method of claim 16 further comprising the steps of:
    - averaging a plurality of successive X coordinate voltages and generating an X coordinate average therefrom;
      
      averaging a plurality of Y coordinate voltages and generating a Y coordinate average therefrom.
  - 22. The method of claim 19 further comprising the step of preventing the outputting of the first and second voltages obtained immediately preceding the detection of said overvoltage.

12. In an apparatus having a writing surface and a means for generating an electrical signal representative of a stylus position on said writing surface including:
- first and second resistive sheets positioned so as to overlap one another to define said writing surface;
  
  means for maintaining said first and second resistive sheets in a spaced apart relationship such that said sheets are adapted for electrical contact with each other at a point on said writing area specified by pressure from said stylus;
  
  a source of energizing potential;
  
  first means for periodically energizing said first resistive sheet and for detecting a first voltage on said second resistive sheet representative of stylus position along an X coordinate axis;
  
  second means for periodically energizing said second resistive sheet alternately with said first means and detecting a second voltage on said first resistive sheet representative of stylus position along a Y coordinate axis; and
  
  means for outputting said first and second voltages,an improvement comprising;
  
  means for periodically biasing one of said resistive sheets such that an overvoltage is generated thereon when said first and second resistive sheets are not in electrical contact with each other at the point on said writing area under pressure from said stylus, said overvoltage defined to be a voltage that is outside of the range of voltages normally existing on a non-energized resistive sheet when said first and second resistive sheets are in electrical contact with each other at a contact point;
  
  overvoltage detection means for detecting when said one of said resistive sheets has an overvoltage generated thereon; and
  
  means responsive to the detection of said overvoltage for maintaining said bias on said one of said resistive sheets.

17. A method for outputting an accurate electrical signal representative of the most recent position of a stylus on a writing surface, with an apparatus having first and second resistive sheets positioned so as to overlap one another to define said writing surface, means for maintaining said first and second resistive sheets in a spaced apart relationship such that said sheets are adapted for electrical contact with each other at a point on said writing surface specified by pressure from said stylus, and a source of energizing potential, comprising the steps of:
- I(a) energizing said first resistive sheet and detecting an X coordinate voltage on said second resistive sheet representative of stylus position along an X coordinate axis;
  
  (b) energizing said second resistive sheet and detecting a Y coordinate voltage on said first resistive sheet representative of stylus position along a Y coordinate axis;
  
  (c) energizing one of said first and second resistive sheets and at the same time biasing the other of said first and second resistive sheets such that if a point contact exists between said first and second resistive sheets the voltage generated on the other of said first and second resistive sheets is substantially within the normal range of voltages detected on an unbiased non-energized resistive sheet in contact with an energized resistive sheet, and if no contact between the two resistive sheets exists the voltage generated on said other resistive sheet is an overvoltage outside of said normal range of voltages;
  
  (d) detecting if the voltage generated in step (c) on said other resistive sheet is substantially within said normal range of voltages;
  
  (e) removing the bias on said other resistive sheet and repeating of steps (a)-(c) where the voltage detected in step (d) is substantially within said normal range of voltages;
  
  (f) detecting if the voltage generated in step (c) is an overvoltage;
  
  (g) maintaining the bias on said other resistive sheet where said overvoltage is detected in step (f);
  
  (h) periodically detecting the voltage on said other resistive sheet and detecting when said voltage drops to a value substantially within said normal range of voltages for a non-energized resistive sheet; and
  
  (i) removing the bias on said other resistive sheet and repeating of steps (a)-(c) where the voltage detected in step (h) is substantially within said normal range of voltages.
- View Dependent Claims (20)
- - 20. The method of claim 17 further comprising the steps of:
    - eliminating from said X coordinate average any X coordinate voltages that are outside of a predetermined range, at least one other X coordinate voltage being averaged; and
      
      eliminating from said Y coordinate average any Y coordinate voltages that are outside of a predetermined range from at least one other Y coordinate voltage being averaged.

21. A method for improving the accuracy of electrical signals output by a data input device that are representative of the contact point position of a stylus on a writing surface, said input device having first and second resistive sheets positioned so as to overlap one another to define said writing surface, means for maintaining said first and second resistive sheets in a spaced apart relationship such that said sheets are adapted for electrical contact with each other at a point corresponding to said contact point only when pressure is applied at said contact point, a source of energizing potential, means for alternately energizing one of said first and second resistive sheets to alternately establish a voltage gradient on each of said sheets in a direction different from one another and for maintaining the other of said first and second resistive sheet in a non-energized state such that a voltage is generated on each said non-energized sheet whose value is a function of said contact point position of said stylus on said writing surface, each point on said writing surface thereby being defined by a unique combination of first and second voltages on said first and second resistive sheets, and means for outputting said first and second voltages, comprising the steps of:
- (a) periodically biasing one of said resistive sheets to an overvoltage when said sheet is not in electrical contact with the opposite energized resistive sheet, said overvoltage defined to be a voltage that is outside the normal range of voltages existing on a non-energized resistive sheet plus a threshold value, when said resistive sheets are in electrical contact with one another, said biasing means acting to create a voltage on said non-energized resistive sheet that is within said normal range of voltages plus said threshold value if an electrical contact exists between said two resistive sheets;
  
  (b) maintaining said overvoltage bias on said one of said resistive sheets in response to the detection of an overvoltage until subsequent electrical contact between said resistive sheets is reestablished;
  
  (c) removing said overvoltage bias and maintaining said bias removed for a selected period in response to said reestablishing of electrical contact between said resistive sheets; and
  
  (d) repeating of step (a).

Specification

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Current Assignee
Astec International Limited (Emerson Electric Company)
Original Assignee
Astec International Limited (Emerson Electric Company)
Inventors
Jandrell, Louis H. M.
Primary Examiner(s)
Schreyer, Stafford D.

Application Number

US06/597,509
Time in Patent Office

704 Days
Field of Search

178/18, 178/19, 178/20, 338/90, 346/21
US Class Current

178/18.05
CPC Class Codes

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

Data input device with a circuit responsive to stylus up/down position

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

46 Citations

22 Claims

Specification

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Data input device with a circuit responsive to stylus up/down position

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

46 Citations

22 Claims

Specification

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Use Cases

Quick Links

Others