Apparatus and method for automatic digitizer fault detection

US 5,335,230 A
Filed: 08/12/1991
Issued: 08/02/1994
Est. Priority Date: 08/12/1991
Status: Expired due to Term

First Claim

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1. An apparatus for detecting faults in a digitizer, the digitizer having a plurality of operative electrodes, comprising:

source means for energizing the digitizer including a constant direct current source, a constant direct voltage source, and a first switch means for selectively coupling either the constant current source or the constant voltage source to the digitizer;

an analog-to-digital converter coupled to the digitizer and to the source means;

a controller coupled to the output of the analog-to-digital converter for performing fault detection routines;

means coupled to the controller for indicating information about the operability of the digitizer;

a second switch means for selectively connecting the source means and the analog-to-digital converter to the digitizer, the first and second switch means including analog switches controlled by the controller;

a non-volatile memory coupled to the controller;

a plurality of test electrodes within the digitizer coupled to the analog-to-digital converter; and

a wiring harness for connecting the analog-to-digital converter and the source means to the digitizer.

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Abstract

An automatic fault detection apparatus which requires no human intervention. The apparatus includes a source for energizing the digitizer including a constant direct current source and a constant direct voltage source, and a switch for selectively coupling either the constant current source or the constant voltage source to the digitizer. An analog-to-digital converter couples to the digitizer and to the source. A controller couples to the output of the analog-to-digital converter. Switches selectively connect the source and the analog-to-digital converter to the digitizer and include analog switches controlled by the controller. A non-volatile memory couples to the controller. An indicator coupled to the controller provides information about digitizer operability. A plurality of test electrodes within the digitizer couple to the analog-to-digital converter. Finally, a wiring harness connects the analog-to-digital converter and the source to the digitizer. The apparatus couples to operative electrodes within the digitizer. The method of the present invention includes four tests for detecting faults within digitizers.

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24 Claims

1. An apparatus for detecting faults in a digitizer, the digitizer having a plurality of operative electrodes, comprising:
- source means for energizing the digitizer including a constant direct current source, a constant direct voltage source, and a first switch means for selectively coupling either the constant current source or the constant voltage source to the digitizer;
  
  an analog-to-digital converter coupled to the digitizer and to the source means;
  
  a controller coupled to the output of the analog-to-digital converter for performing fault detection routines;
  
  means coupled to the controller for indicating information about the operability of the digitizer;
  
  a second switch means for selectively connecting the source means and the analog-to-digital converter to the digitizer, the first and second switch means including analog switches controlled by the controller;
  
  a non-volatile memory coupled to the controller;
  
  a plurality of test electrodes within the digitizer coupled to the analog-to-digital converter; and
  
  a wiring harness for connecting the analog-to-digital converter and the source means to the digitizer.

2. A method for detecting a change in resistance across one conductive layer of a digitizer having two normally-separated conductive layers comprising the steps of:
- measuring a first resistance value between first and second end electrodes of the one conductive layer while the one conductive layer is separated from the other conductive layer;
  
  storing the first resistance value;
  
  measuring a second resistance value between the first and second end electrodes of the one conductive layer while the one conductive layer is separated from the other conductive layer;
  
  comparing the second resistance value with the previously stored first resistance value;
  
  indicating a pass indication if the difference between the second resistance value and the previously stored first resistance value is less than a predetermined number; and
  
  indicating a fail indication if the difference between the second resistance value and the previously stored first resistance value is greater than the predetermined number.
- View Dependent Claims (3, 4, 5, 6)
- - 3. The method as recited in claim 2, wherein the steps of measuring comprise the substeps of:
    - coupling a constant current source to the first end electrode on the one conductive layer;
      
      coupling a ground to the second end electrode on the one conductive layer;
      
      coupling a controller to the first end electrode; and
      
      measuring a voltage between the first and second end electrodes, the resistance values each being proportional to the voltage.
  - 4. The method as recited in claim 3, wherein the step of coupling a constant current source comprises the substep of closing a first analog switch in response to a signal from the controller.
  - 5. The method as recited in claim 3, wherein the step of coupling a ground comprises the substep of closing a second analog switch in response to a signal from the controller.
  - 6. The method as recited in claim 3, wherein the step of coupling a controller comprises the substep of closing a third analog switch in response to a signal from the controller.

7. A method for detecting a change in uniformity of resistance across one conductive layer of a digitizer having two normally-separated conductive layers comprising the steps of:
- measuring a first voltage value at a test electrode on the one conductive layer between first and second end electrodes of the one conductive layer while the one conductive layer is separated from the other conductive layer;
  
  storing the first voltage value;
  
  measuring a second voltage value at the test electrode on the one conductive layer while the one conductive layer is separated from the other conductive layer;
  
  comparing the second voltage value with the previously stored first voltage value;
  
  indicating a pass indication if the difference between the second voltage value and the previously stored first voltage value is less than a predetermined number; and
  
  indicating a fail indication if the difference between the second voltage value and the previously stored first voltage value is greater than the predetermined number.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The method as recited in claim 7, wherein the steps of measuring comprise the substeps of:
    - coupling a constant voltage source to the first end electrode on the one conductive layer;
      
      coupling a ground to the second end electrode on the one conductive layer; and
      
      coupling a controller to the test electrode on the one conductive layer.
  - 9. The method as recited in claim 8, wherein the step of coupling a constant voltage source comprises the substep of closing a first analog switch in response to a signal from the controller.
  - 10. The method as recited in claim 8, wherein the step of coupling a ground comprises the substep of closing a second analog switch in response to a signal from the controller.
  - 11. The method as recited in claim 10, wherein the step of coupling a controller comprises the substep of closing a third analog switch in response to a signal from the controller.

12. A method for detecting a change in separation resistance between first and second conductive layers within a digitizer comprising the steps of:
- measuring a first resistance value between an end electrode on the first conductive layer and an end electrode on the second conductive layer of the digitizer while the first conductive layer is separated from the second conductive layer;
  
  storing the first resistance value;
  
  measuring a second resistance value between the end electrode of the first conductive layer and the end electrode of the second conductive layer of the digitizer;
  
  comparing the second resistance value with the previously stored first resistance value; and
  
  indicating a pass indication if the second resistance value is less than the previously stored first resistance value.
- View Dependent Claims (13, 14, 15, 16, 17)
- - 13. The method as recited in claim 12, further comprising the steps of:
    - measuring a predetermined number of additional resistance values between the end electrode of the first conductive layer and the end electrode of the second conductive layer;
      
      summing the deviations of the additional resistance values from the second resistance value;
      
      comparing the sum of the deviations to a predetermined threshold deviation;
      
      indicating a fail indication if the sum of the deviations is less than the predetermined threshold deviation; and
      
      repeating the method if the sum of the deviations is greater than the predetermined threshold deviation.
  - 14. The method as recited in claim 12, wherein the steps of measuring each resistance value comprises the substeps of:
    - coupling a constant current source to the end electrode on the first conductive layer;
      
      coupling a ground to the end electrode on the second conductive layer;
      
      coupling a controller to the end electrode on the first conductive layer; and
      
      measuring a voltage at the end electrode on the first conductive layer, the first and second resistances each being proportional to the voltage.
  - 15. The method as recited in claim 14, wherein the step of coupling a constant current source comprises the substep of closing a first analog switch in response to a signal from the controller.
  - 16. The method as recited in claim 14, wherein the step of coupling a ground comprises the substep of closing a second analog switch in response to a signal from the controller.
  - 17. The method as recited in claim 14, wherein the step of coupling a controller comprises the substep of closing a third analog switch in response to a signal from the controller.

18. A method for detecting faults within a digitizer comprising the steps of:
- measuring a voltage value between first and second conductive layers;
  
  measuring a predetermined number of additional voltage values between the first and second conductive layers;
  
  summing the deviations of the additional voltage values from the one voltage value;
  
  comparing the sum of the deviations with a predetermined threshold deviation;
  
  indicating a pass indication if the sum of the deviations is less than the predetermined threshold; and
  
  indicating a fail indication if the sum of the deviations is greater than the predetermined threshold.
- View Dependent Claims (19, 20, 21, 22)
- - 19. The method as recited in claim 18, wherein the step of measuring comprises the substeps of:
    - coupling a constant voltage source to a first electrode on the first conductive layer;
      
      coupling a ground to a second electrode on the first conductive layer;
      
      coupling a controller to a third electrode on the second conductive layer; and
      
      measuring a voltage at the third electrode.
  - 20. The method as recited in claim 18, wherein the step of coupling a constant voltage source comprises the substep of closing a first analog switch in response to a signal from the controller.
  - 21. The method as recited in claim 18, wherein the step of coupling a ground comprises the substep of closing a second analog switch in response to a signal from the controller.
  - 22. The method as recited in claim 18, wherein the step of coupling a controller comprises the substep of closing a third analog switch in response to a signal from the controller.

23. An apparatus for detecting faults in a digitizer having an operative electrode comprising:
- source means for energizing the digitizer;
  
  an analog-to-digital converter coupled to the digitizer and to the source means;
  
  a controller coupled to the output of the analog-to-digital converter for performing fault detection routines;
  
  switch means for selectively connecting the source means and the analog-to-digital converter to the digitizer; and
  
  a test electrode within the digitizer coupled to the analog-to-digital converter.

24. A method for detecting faults within a digitizer comprising the steps of:
- measuring a resistance value between a first conductive layer and a second conductive layer of the digitizer;
  
  comparing the resistance value with a previously stored threshold resistance value;
  
  indicating a pass indication if the resistance value is less than the previously stored resistance value;
  
  measuring a predetermined number of additional resistance values between the first and second conductive layers;
  
  summing the deviations of the additional resistance values from the one resistance value;
  
  comparing the sum of the deviations to a predetermined threshold deviation;
  
  indicating a fail indication if the sum of the deviations is less than the predetermined threshold deviation; and
  
  repeating the method if the sum of the deviations is greater than the predetermined threshold deviation.

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Current Assignee
NCR Corporation
Original Assignee
NCR Corporation
Inventors
Protheroe, Robert L., Crooks, John F.
Primary Examiner(s)
ATKINSON, CHARLES

Application Number

US07/744,062
Time in Patent Office

1,086 Days
Field of Search

371/15.1, 340/712, 178/18
US Class Current

714/48
CPC Class Codes

G01R 31/3004 Current or voltage test

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

Apparatus and method for automatic digitizer fault detection

First Claim

1 Assignment

0 Petitions

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Abstract

42 Citations

24 Claims

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Apparatus and method for automatic digitizer fault detection

First Claim

1 Assignment

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Accused Products

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Abstract

42 Citations

24 Claims

Specification

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Solutions

Use Cases

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