High resolution system for sensing spatial coordinates

US 5,251,123 A
Filed: 08/13/1991
Issued: 10/05/1993
Est. Priority Date: 10/19/1987
Status: Expired due to Term

First Claim

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1. An apparatus for determining the spatial position of a probe with respect to a conductive surface, comprising:

drive means connected to the conductive surface for providing alternating electrical current to the conductive surface in predetermined directions and at predetermined intervals of time;

amplifier means connected to the probe for amplifying alternating electrical signals produced on the probe when the probe is brought into proximity of the conductive surface;

rectifying means connected to the amplifier means for controllably rectifying the amplified alternating electrical signals output from the amplifier means, wherein the rectifying means during periodic intervals does not provide rectification of the alternating electrical signals;

integrating means for periodically integrating the rectified electrical signals output from the rectifying means and for producing output signals in response to the rectified electrical signals, wherein the integrating means is reset during intervals in which the integrating means is not integrating the rectified electrical signals output from the rectifying means;

analog-to-digital converter means for producing digital signals in response to the output signals of the integrating means to a digital signal;

processing means connected to the analog-to-digital converter means for calculating the spatial position of the probe with respect to the conductive surface based on the digital signals produced by the analog-to-digital converter means; and

control means for generating control signals for controlling the drive means, rectifying means, integrating means and processing means, wherein the integrating means is reset in a periodic interval during which the rectifying means is not providing rectification of the alternating electrical signals output from the amplifier means.

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Abstract

An improved high resolution method and apparatus are described for sensing and determining the spatial coordinates of a movable object with respect to a energized conductive surface. The coordinates of the object are precisely measured with respect to a two-dimensional coordinate system independent of the third orthogonal dimension, thereby avoiding significant measurement errors due to variations of the object position in the third orthogonal dimension. The system also ascertains the coordinate position of the object in this third dimension, which can then be utilized as an independent control variable in the system. Further, the system can accommodate a number of energized conductive surfaces over which the object may be positioned and can determine the spatial coordinates of the object with respect to any such surface. In general, the system of the present invention can ascertain the generalized n-tuple position vector of the object with respect to each of a plurality of generalized, energized conductive surfaces. In any of the foregoing forms, the energized conductive surfaces can be transparent. The system described improves the precision and accuracy of the location of the selected point and hence the precision and accuracy of the spatial coordinates calculated by the system for display. The improvement in system performance is the result of innovations in fundamental design concepts utilized throughout the system.

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24 Claims

1. An apparatus for determining the spatial position of a probe with respect to a conductive surface, comprising:
- drive means connected to the conductive surface for providing alternating electrical current to the conductive surface in predetermined directions and at predetermined intervals of time;
  
  amplifier means connected to the probe for amplifying alternating electrical signals produced on the probe when the probe is brought into proximity of the conductive surface;
  
  rectifying means connected to the amplifier means for controllably rectifying the amplified alternating electrical signals output from the amplifier means, wherein the rectifying means during periodic intervals does not provide rectification of the alternating electrical signals;
  
  integrating means for periodically integrating the rectified electrical signals output from the rectifying means and for producing output signals in response to the rectified electrical signals, wherein the integrating means is reset during intervals in which the integrating means is not integrating the rectified electrical signals output from the rectifying means;
  
  analog-to-digital converter means for producing digital signals in response to the output signals of the integrating means to a digital signal;
  
  processing means connected to the analog-to-digital converter means for calculating the spatial position of the probe with respect to the conductive surface based on the digital signals produced by the analog-to-digital converter means; and
  
  control means for generating control signals for controlling the drive means, rectifying means, integrating means and processing means, wherein the integrating means is reset in a periodic interval during which the rectifying means is not providing rectification of the alternating electrical signals output from the amplifier means.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The apparatus of claim 1, wherein the conductive surface includes first, second, third, and fourth regions, and wherein the driving means comprises:
    - reference means for establishing a reference potential at one or more of the first, second, third, and fourth regions of the conductive surface at predetermined intervals of time; and
      
      signal application means for applying alternating electrical current at one or more of the first, second, third, or fourth regions of the conductive surface at predetermined intervals of time;
      
      wherein, the analog-to-digital converter means produces a first digital signal in response to the reference means establishing the first region to the reference potential and the signal application means applying alternating electrical current to the second region, produces a second digital signal in response to the reference means establishing the second region to the reference potential and the signal application means applying alternating electrical current to the first region, produces a third digital signal in response to the reference means establishing the third region to the reference potential and the signal application means applying alternating electrical current to the fourth region, and produces a fourth digital signal in response to the reference means establishing the fourth region to the reference potential and the signal application means applying alternating electrical current to the third region, wherein the processing means calculates the spatial position of the probe with respect to the conductive surface based on the first, second, third, and fourth digital signals produced by the analog-to-digital converter means.
  - 3. The apparatus of claim 2, wherein the spatial position of the probe with respect to the conductive surface is defined by at least first and second coordinates, wherein the processing means calculates the first coordinate in response to two of the first, second, third, and fourth digital signals and calculates the second coordinate in response to the other two of the first, second, third, and fourth digital signals.
  - 4. The apparatus as claimed in claim 1, wherein the control means inhibits the output signals of the rectifying means from being produced when the integrating means is being reset.
  - 5. The apparatus as claimed in claim 1, wherein the control means activates the integrating means following reset in a periodic interval during which the rectifying means is not providing rectification of the alternating electrical signals output from the amplifier means.
  - 6. The apparatus as claimed in claim 1, wherein the alternating electrical current provided by the drive means to the conductive surface is sinusoidal.
  - 7. The apparatus as claimed in claim 6 further comprising band pass filter means coupled between the amplifier means and the rectifier means for filtering signals of a frequency higher than the predetermined frequency of the sine wave of the alternating electrical current provided by the drive means.
  - 8. The apparatus as claimed in claim 1 further comprising signal synchronization means for synchronizing the control signals generated by the control means with the alternating electrical current provided by the drive means.
  - 9. The apparatus as claimed in claim 8, wherein the processing means comprises a processing unit and a processor clock for generating clock signals for operating the processing unit, wherein the synchronizing means further synchronizes the clock signals generated by the processor clock with alternating electrical current provided by the drive means.
  - 10. The apparatus as claimed in claim 8, wherein the synchronizing means comprises a phase locked loop.

11. A method for determining the spatial position of a probe with respect to a conductive surface, comprising the steps of:
- providing alternating electrical current to the conductive surface in predetermined directions and at predetermined intervals of time;
  
  detecting alternating electrical signals produced on the probe when the probe is brought into proximity of the conductive surface;
  
  rectifying the detected alternating electrical signals produced on the probe to produce rectified electrical signals, wherein the rectifying step is not performed during periodic intervals;
  
  periodically integrating the rectified electrical signals with an integrator and producing integrated output signals in response to the rectified electrical signals;
  
  resetting the integrator during intervals in which the rectifying step is not performed;
  
  producing digital signals in response to the integrated output signals; and
  
  calculating the spatial position of the probe with respect to the conductive surface in response to the digital signals.
- View Dependent Claims (12, 13, 14)
- - 12. The method of claim 11, wherein the step of detecting alternating electrical signals produced on the probe when the probe is brought into proximity of the conductive surface includes amplification of the detected alternating electrical signals.
  - 13. The method of claim 11, wherein the conductive surface includes first, second, third, and fourth regions, wherein the step of providing alternating electrical current to the conductive surface comprises the steps of:
    - establishing a reference potential at one or more of the first, second, third, and fourth regions of the conductive surface at predetermined intervals of time; and
      
      applying alternating electrical current at one or more of the first, second, third or fourth regions of the conductive sheet at predetermined intervals of time;
      
      wherein, a first digital signal is produced in response to the establishing of the first region to the reference potential and the applying of alternating electrical current to the second region, a second digital signal is produced in response to the establishing of the second region to the reference potential and the applying of alternating electrical current to the first region, a third digital signal is produced in response to the establishing of the third region to the reference potential and the applying of alternating electrical current to the fourth region, and a fourth digital signal is produced in response to the establishing of the fourth region to a reference potential and the applying of alternating electrical current to the third region, wherein spatial position of the probe with respect to the conductive surface is calculated based on the first, second, third, and fourth digital signals.
  - 14. The method of claim 13, wherein the spatial position of the probe with respect to the conductive surface is defined by at least first and second coordinates, wherein the first coordinate is calculated in response to two of the first, second, third, and fourth digital signals and the second coordinate is calculated in response to the other two of the first, second, third, and fourth digital signals.

15. A method for determining the spatial position of an object with respect to a surface, comprising the steps of:
- producing alternating electrical signals in response to the object being brought into proximity of the surface, wherein the magnitude of the produced alternating electrical signals are dependent upon the location of the object with respect to the surface;
  
  rectifying the produced alternating electrical signals to produce rectified electrical signals, wherein the rectifying step is not performed during periodic intervals;
  
  periodically integrating the rectified electrical signals with an integrator and producing integrated output signals in response to the rectified electrical signals;
  
  resetting the integrator during intervals in which the rectifying step is not performed;
  
  producing digital signals in response to the integrated output signals; and
  
  calculating the spatial position of the object with respect to the surface in response to the digital signals.

16. In an apparatus for determining the spatial position of a probe with respect to a conductive surface, an improved handheld probe for use by an operator of the apparatus, comprising:
- a housing having a forward end and rear end, wherein the housing is of an elongated cylindrical shape having contoured portions on the exterior surface thereof at a predetermined distance from the forward end of the housing for the placement of the fingers of the operator, wherein the fingers of the operator are maintained at a second predetermined distance from the forward end of the housing;
  
  signal sensing means for sensing electrical signals produced by the conductive surface, wherein the signal sensing means is flexibly secured inside the housing and has an exposed portion near the forward end of the housing;
  
  output means for generating an output signal derived from the electrical signals sensed by the signal sensing means; and
  
  switch means connected to the signal sensing means for generating a control signal in response to the signal sensing means making physical contact with the conductive surface, wherein the switch means comprises a zero travel switch, wherein the zero travel switch requires minimum physical movement for the activation of the switch means.
- View Dependent Claims (17)
- - 17. The apparatus of claim 16, wherein the output signal generated by the output means is an alternating voltage signal, wherein the control signal generated by the switch means is a voltage level, wherein the voltage level generated by the switch means is added to the alternating voltage signal generated by the output means.

18. In an apparatus for determining the spatial position of a probe with respect to a conductive surface, an improved handheld probe for use by an operator of the apparatus, comprising:
- a housing having a forward end and rear end, wherein the housing is of an elongated cylindrical shape having contoured portions on the exterior surface thereof at a predetermined distance from the forward end of the housing for the placement of the fingers of the operator, wherein the fingers of the operator are maintained at a second predetermined distance from the forward end of the housing;
  
  signal sensing means for sensing electrical signals produced by the conductive surface, wherein the signal sensing means is flexibly secured inside the housing and has an exposed portion near the forward end of the housing;
  
  output means for generating an output signal derived from the electrical signals sensed by the signal sensing means; and
  
  switch means connected to the signal sensing means for generating a control signal in response to the signal sensing means making physical contact with the conductive surface, wherein the output signal generated by the output means is an alternating voltage signal, wherein the control signal generated by the switch means is a voltage level, wherein the voltage level generated by the switch means is added to the alternating voltage signal generated by the output means.

19. In an apparatus for determining the spatial position of a probe with respect to a conductive surface, an improved handheld probe for use by an operator of the apparatus, comprising:
- a housing having a forward end and rear end, wherein the housing is of an elongated cylindrical shape;
  
  signal sensing means for sensing electrical signals produced by the conductive surface, wherein the signal sensing means is flexibly secured inside the housing and has an exposed portion near the forward end of the housing;
  
  output means for generating an output signal derived from the electrical signals sensed by the signal sensing means, wherein the output means comprises an operational amplifier configured as a current sensing element; and
  
  switch means connected to the signal sensing means for generating a control signal in response to the signal sensing means making physical contact with the conductive surface, wherein the switch means comprises a zero travel switch, wherein the zero travel switch requires minimum physical movement for the activation of the switch means.
- View Dependent Claims (20)
- - 20. The apparatus of claim 19 wherein the output signal generated by the output means is an alternating voltage signal, wherein the control signal generated by the switch means is a voltage level, wherein the voltage level generated by the switch means is added to the alternating voltage signal generated by the output means.

21. In an apparatus for determining the spatial position of a probe with respect to a conductive surface, an improved handheld probe for use by an operator of the apparatus, comprising:
- a housing having a forward end and rear end, wherein the housing is of an elongated cylindrical shape;
  
  signal sensing means for sensing electrical signals produced by the conductive surface, wherein the signal sensing means is flexibly secured inside the housing and has an exposed portion near the forward end of the housing;
  
  output means for generating an output signal derived from the electrical signals sensed by the signal sensing means, wherein the output means comprises an operational amplifier configured as a current sensing element; and
  
  switch means connected to the signal sensing means for generating a control signal in response to the signal sensing means making physical contact with the conductive surface;
  
  wherein the output signal generated by the output means is an alternating voltage signal, wherein the control signal generated by the switch means is a voltage level, wherein the voltage level generated by the switch means is added to the alternating voltage signal generated by the output means.

22. In an apparatus for determining the spatial position of a probe with respect to a conductive surface, an improved handheld probe for use by an operator of the apparatus, comprising:
- a housing having a forward end and rear end, wherein the housing is of an elongated cylindrical shape;
  
  signal sensing means for sensing electrical signals produced by the conductive surface, wherein the signal sensing means is flexibly secured inside the housing and has an exposed portion near the forward end of the housing;
  
  output means for generating an output signal derived from the electrical signals sensed by the signal sensing means; and
  
  switch means connected to the signal sensing means for generating a control signal in response to the signal sensing means making physical contact with the conductive surface, wherein the switch means comprises a zero travel switch, wherein the zero travel switch requires minimum physical movement for the activation of the switch means.
- View Dependent Claims (23)
- - 23. The apparatus of claim 22 wherein the output signal generated by the output means is an alternating voltage signal, wherein the control signal generated by the switch means is a voltage level, wherein the voltage level generated by the switch means is added to the alternating voltage signal generated by the output means.

24. In an apparatus for determining the spatial position of a probe with respect to a conductive surface, an improved handheld probe for use by an operator of the apparatus, comprising:
- a housing having a forward end and rear end, wherein the housing is of an elongated cylindrical shape;
  
  signal sensing means for sensing electrical signals produced by the conductive surface, wherein the signal sensing means is flexibly secured inside the housing and has an exposed portion near the forward end of the housing;
  
  output means for generating an output signal derived from the electrical signals sensed by the signal sensing means; and
  
  switch means connected to the signal sensing means for generating a control signal in response to the signal sensing means making physical contact with the conductive surface;
  
  wherein the output signal generated by the output means is an alternating voltage signal, wherein the control signal generated by the switch means is a voltage level, wherein the voltage level generated by the switch means is added to the alternating voltage signal generated by the output means.

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Current Assignee
LG Electronics, Inc. (LG Corporation)
Original Assignee
IC Operating, Inc.
Inventors
Jung, Wayne D., Reiffel, Leonard, Jakobs, Thomas, Rosevear, Thomas
Primary Examiner(s)
Smith, Jerry
Assistant Examiner(s)
GORDON, PAUL P

Application Number

US07/746,285
Time in Patent Office

784 Days
Field of Search

364/167.01, 364/188, 178/18, 178/19, 178/87, 340/707, 340/710
US Class Current

700/56
CPC Class Codes

G06F 3/0346   with detection of the devic...

G06F 3/03545   Pens or stylus

G06F 3/041   Digitisers, e.g. for touch ...

G06F 3/0442   using active external devic...

High resolution system for sensing spatial coordinates

First Claim

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Abstract

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24 Claims

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High resolution system for sensing spatial coordinates

First Claim

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Abstract

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Specification

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