Multidimensional user interface input device

US 5,565,657 A
Filed: 11/01/1993
Issued: 10/15/1996
Est. Priority Date: 11/01/1993
Status: Expired due to Term

First Claim

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1. A user interface apparatus having a conductivity sensing processor for detecting a set of x, y and z axis address components of said user interface according to changes in conductivity between conductors in an input pad, said input pad comprising:

a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;

a compressible semiconductive layer; and

a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first level of x conductors and said second level of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

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Abstract

An user interface for accepting three dimensional information (such as x, y and z axis positioning information) for input into a computer, printer, copier or other electronic device. In addition to indicating the x and y axis position coordinates of the input, the input pad of the user interface also registers a z axis coordinate based on the pressure applied by the operator on the outer surface of the input pad. This z axis force component is enabled by the force sensing layers of parallel conductors in the input pad.

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28 Claims

1. A user interface apparatus having a conductivity sensing processor for detecting a set of x, y and z axis address components of said user interface according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first level of x conductors and said second level of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.
- View Dependent Claims (5, 6, 7, 8, 9, 10)
- - 5. The apparatus of claim 1, wherein said x conductors of the first level are cast in a first resilient semiconductive sheet and wherein said y conductors of the second level are cast in a second resilient semiconductive sheet.
  - 6. The apparatus of claim 1, wherein said x and y conductors are thin wires comprising at least one metal selected from the group consisting of copper, tungsten and aluminum.
  - 7. The apparatus of claim 1, further comprising a nonconductive outer sheet covering said first level for protecting said x and y conductors.
  - 8. The apparatus of claim 1, further comprising a nonconductive rigid backing plate underlying said second level for supporting said y conductors when pressure is applied to said first level.
  - 9. The apparatus of claim 1, further comprising a template overlying said first level for mapping a set of functions for input into a computer electronically connected to said processor according to pressure applied to said template toward said first level.
  - 10. The apparatus of claim 1, further comprising a drawing sheet overlying said first level for inputting data into a computer electronically connected to said processor according to pressure applied to said drawing sheet toward said first level.

2. A user interface apparatus having a conductivity sensing processor for detecting a set of x, y and z axis address components according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix wherein said x conductors of the first level are embedded in one surface of said semiconductive layer opposed from said one surface thereof whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first layer of x conductors displaced towards said second layer of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

3. A user interface apparatus having a conductivity sensing processor for detecting a set of x, y and z axis address components according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor wherein said y conductors of the second level are embedded in another surface of said semiconductive layer, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first layer of x conductors displaced towards said second layer of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

4. A user interface apparatus having a conductivity sensing processor for detecting a set of x, y and z axis address components according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix wherein said x conductors of the first level are embedded in one surface of said semiconductive layer and wherein said y conductors of the second level are embedded in another surface of said semiconductive layer, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first layer of x conductors displaced towards said second layer of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

11. A user interface apparatus having a conductivity sensing processor for detecting unique x, y and z axis address components according to conductivity readings between conductors in an input pad, said input pad comprising:
- a first level having n repeating sets of x direction parallel conductors, each individual x conductor in each repeating set being electrically connected to and carrying a current from said processor and to each corresponding x conductor in each n repeating set of x conductors;
  
  a first compressible semiconductive layer;
  
  a second level having m repeating sets of y direction parallel conductors, said first semiconductive layer being interposed between said first level and said second level, each individual y conductor in each repeating set being electrically connected to said processor and to each corresponding y conductor in each m repeating set of y conductors, said sets of x conductors in said first level aligned to cross said sets of y conductors in said second level so as to form a detection zone matrix, whereby an application of pressure on said first level increases conductivity between the x and y conductors crossing beneath said pressure so as to identify the x and y axis address within said detection zone and whereby said processor compares a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale so as to identify the unique z address component of said pressure;
  
  a second compressible semiconductive layer underlying said second level; and
  
  a third level having a plurality of conductive pads underlying said second compressible semiconductive layer and being electrically connected to and individually identifiable by said processor according to said detection zone matrix, whereby said processor detects the unique x and y axis address of said pressure on said first level according to increased conductivity detected between said y conductors and said conductive pad.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
- - 12. The apparatus of claim 11, wherein said x conductors are cast in a first resilient semiconductive sheet and wherein said y conductors of the second level are cast in a second resilient semiconductive sheet.
  - 13. The apparatus of claim 11, wherein said x and y conductors are thin wires comprising at least one metal selected from the group consisting of copper, tungsten and aluminum.
  - 14. The apparatus of claim 11, further comprising a nonconductive outer sheet covering said first level for protecting said x and y conductors.
  - 15. The apparatus of claim 11, wherein said x conductors of the first level are partially embedded in an upper surface of said first compressible semiconductive layer and wherein said y conductors of said second level are partially embedded in a lower surface of said second compressible semiconductive layer.
  - 16. The apparatus of claim 11, further comprising a nonconductive rigid backing plate underlying said second level for supporting said y conductors when pressure is applied to said first level.
  - 17. The apparatus of claim 11, further comprising a template overlying said first level for mapping a set of functions for input into a computer electronically connected to said processor according to pressure applied to said template toward said first level.
  - 18. The apparatus of claim 11, further comprising a drawing sheet overlying said first level for inputting data into a computer electronically connected to said processor according to pressure applied to said drawing sheet toward said first level.

19. A printing machine having a user interface apparatus with a conductivity sensing processor for detecting a set of x, y and z axis address components of said user interface according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first level of x conductors and said second level of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.
- View Dependent Claims (23, 24, 25, 26, 27, 28)
- - 23. The apparatus of claim 19, wherein said x conductors of the first level are cast in a first resilient semiconductive sheet and wherein said y conductors of the second level are cast in a second resilient semiconductive sheet.
  - 24. The apparatus of claim 19, wherein said x and y conductors are thin wires comprising at least one metal selected from the group consisting of copper, tungsten and aluminum.
  - 25. The apparatus of claim 19, further comprising a nonconductive outer sheet covering said first level for protecting said x and y conductors.
  - 26. The apparatus of claim 19, further comprising a nonconductive rigid backing plate underlying said second level for supporting said y conductors when pressure is applied to said first level.
  - 27. The apparatus of claim 19, further comprising a template overlying said first level for mapping a set of functions for input into a computer electronically connected to said processor according to pressure applied to said template toward said first level.
  - 28. The apparatus of claim 19, further comprising a drawing sheet overlying said first level for inputting data into a computer electronically connected to said processor according to pressure applied to said drawing sheet toward said first level.

20. A printing machine having a user interface apparatus with a conductivity sensing processor for detecting a set of x, y and z axis address components according to changes in conductivity between conductors in an input pad, said input pad Comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix wherein said x conductors of the first level are embedded in one surface of said semiconductive layer opposed from said one surface thereof, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first layer of x conductors displaced towards said second layer of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

21. A printing machine having a user interface apparatus with a conductivity sensing processor for detecting a set of x, y and z axis address components according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor wherein said y conductors of the second level are embedded in another surface of said semiconductive layer, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first layer of x conductors displaced towards said second layer of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

22. A printing machine having a user interface apparatus with a conductivity sensing processor for detecting a set of x, y and z axis address components according to changes in conductivity between conductors in an input pad, said input pad comprising:
- a first level having a plurality of x direction parallel conductors individually electrically connected to and carrying a current from said processor;
  
  a compressible semiconductive layer; and
  
  a second level having a plurality of y direction parallel conductors individually electrically connected to said processor, said semiconductive layer being interposed between said first level and said second level, said x and y conductors forming a matrix wherein said x conductors of the first level are embedded in one surface of said semiconductive layer and wherein said y conductors of the second level are embedded in another surface of said semiconductive layer, whereby said processor detects the x and y axis address components as a function of pressure exerted on said first level resulting in an increase in conductivity between said first layer of x conductors displaced towards said second layer of y conductors and whereby said processor detects the z axis address component of said pressure on said first level according to a comparison of a magnitude of said increase in conductivity between said x and y conductors to a predetermined pressure scale.

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Current Assignee
Xerox Corporation (Xerox Holdings Corp.)
Original Assignee
Xerox Corporation (Xerox Holdings Corp.)
Inventors
Merz, Eric A.
Primary Examiner(s)
Chin, Stephen
Assistant Examiner(s)
Kim, Kevin

Application Number

US08/143,608
Time in Patent Office

1,079 Days
Field of Search

178/18, 178/19, 345/173, 345/174, 364/709.01, 364/709.11, 341/34
US Class Current

178/18.01
CPC Class Codes

G06F 3/04144 using an array of force sen...

Multidimensional user interface input device

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

122 Citations

28 Claims

Specification

Solutions

Use Cases

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Multidimensional user interface input device

First Claim

4 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

122 Citations

28 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links