Method and apparatus for increasing magnitude and frequency of forces applied to a bare finger on a haptic surface

US 20110260988A1
Filed: 01/18/2011
Published: 10/27/2011
Est. Priority Date: 01/20/2010
Status: Abandoned Application

First Claim

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1. A haptic device comprising a substrate having a touch surface, at least one first actuator for subjecting the substrate to friction reducing ultrasonic oscillations controlled to provide relatively low and high friction states of the touch surface, at least one second actuator for subjecting the substrate to lateral oscillations while the substrate is alternated between the low and high friction states in a manner to generate a force felt by a user'"'"'s finger on the touch surface, a control device for providing signals to the at least one first actuator to establish relatively low and high friction states of the touch surface, and at least one electrical damping circuit for reducing the transition time between the low and high friction states.

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Abstract

A haptic device capable of providing a force on a finger or object in contact with a substrate surface includes a substrate having a touch surface, includes a substrate having a touch surface, at least one first actuator for subjecting the substrate to out-of-plane ultrasonic oscillations controlled to provide relatively low and high friction states of the touch surface and at least one second actuator for subjecting the substrate to lateral oscillations while the substrate is alternated between the low and high friction states in a manner to generate a force felt by a user'"'"'s finger on the touch surface. A control device provides signals to the at least one first actuator to establish relatively low and high friction states of the touch surface. An electrical damping circuit between the control device and the at least one first actuator is implemented for reducing the transition time between the low and high friction states. Reduction of the transition time increases forces felt by a user'"'"'s finger on the touch surface.

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15 Claims

1. A haptic device comprising a substrate having a touch surface, at least one first actuator for subjecting the substrate to friction reducing ultrasonic oscillations controlled to provide relatively low and high friction states of the touch surface, at least one second actuator for subjecting the substrate to lateral oscillations while the substrate is alternated between the low and high friction states in a manner to generate a force felt by a user'"'"'s finger on the touch surface, a control device for providing signals to the at least one first actuator to establish relatively low and high friction states of the touch surface, and at least one electrical damping circuit for reducing the transition time between the low and high friction states.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The device of claim 1 wherein the at least one electrical damping circuit comprises a resistor-inductor circuit between the control device and the at least one first actuator for damping out-of-plane oscillations of the substrate.
  - 3. The device of claim 2 wherein the at least one resistor-inductor circuit is disposed in parallel between electrical conductors between the control device and the at least one first actuator.
  - 4. The device of claim 1 including a relay between the control device and the at least one first actuator for connecting the at least one electrical damping device to a control circuit to reduce said transition time when the at least one first actuator is de-energized and for disconnecting the at least one electrical damping device when the at least one first actuator is energized.
  - 5. The device of claim 4 wherein the relay is controlled by a microcontroller or application-specific integrated circuit that actuates/deactuates the control device.
  - 6. The device of claim 1 wherein the electrical damping circuit comprises a sensing piezoelectric element on the substrate and whose output is sent to a feedback controller, which outputs a damping command to the at least one first actuator when out-of-plane oscillations are to be damped.
  - 7. The device of claim 1 wherein the at least one first actuator is a piezoelectric vibrator for imparting out-of-plane oscillations.
  - 8. The device of claim 1 which is controlled to provide a force on the user'"'"'s finger wherein the force has non-zero average and in which the non-zero average force is sustained by controlled substrate oscillations

9. A haptic device comprising a flat substrate having a touch surface, a flat piezoelectric actuator laminated to the flat substrate for subjecting the substrate to friction reducing, out-of-plane ultrasonic oscillations to provide a relatively low friction state when the piezoelectric actuator is energized wherein the substrate is in a relatively high friction state when the piezoelectric actuator is not energized, another actuator for subjecting the substrate to in-plane lateral oscillations while the substrate is alternated between the low and high friction states in a manner to generate a force felt by a user'"'"'s finger on the touch surface, a control device for providing signals to the piezoelectric actuator to energize it to out-of-plane ultrasonically oscillate the substrate to provide the relatively low friction state, a resistor-inductor damping circuit in parallel between electrical conductors between the control device and the piezoelectric actuator for damping unforced out-of-plane oscillations and reduce the transition time between the low and high friction states, and a solid state relay between the control device and the piezoelectric actuator for connecting the resistor-inductor damping circuit to reduce said transition time when the piezoelectric actuator is de-energized and for disconnecting the resistor-inductor damping circuit when the piezoelectric actuator is energized.

10. A method of controlling a haptic device having a substrate with a touch surface, comprising subjecting the substrate to out-of-plane ultrasonic oscillations controlled to provide low and high friction states of the touch surface, subjecting the substrate to lateral in-plane oscillations while the substrate is alternated between the low and high friction states in a manner to generate a force felt by a user'"'"'s finger on the touch surface, and electrically damping unforced substrate friction-reducing oscillations to reduce the transition time between the low and high friction states.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. The method of claim 10 wherein electrical damping is effected by a resistor-inductor damping circuit.
  - 12. The method of claim 11 including rendering the resistor-inductor circuit operative only when the friction-reducing ultrasonic oscillations are terminated.
  - 13. The method of claim 10 wherein electrical damping is effected by a feedback circuit.
  - 14. The method of claim 10 wherein reducing of the transition time increases forces felt by a user'"'"'s finger on the touch surface.
  - 15. The method of claim 10 including controlling substrate oscillations to provide a force on the user'"'"'s finger wherein the force has non-zero average and in which the non-zero average force is sustained by substrate oscillations.

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Current Assignee
Northwestern University
Original Assignee
Northwestern University
Inventors
Chubb, Erik, Colgate, James Edward, Peshkin, Michael

Application Number

US12/930,790
Publication Number

US 20110260988A1
Time in Patent Office

Days
Field of Search
US Class Current

345/173
CPC Class Codes

G06F 3/016   Input arrangements with for...

H10N 30/204   using bending displacement,...

H10N 30/802   Drive or control circuitry ...

Method and apparatus for increasing magnitude and frequency of forces applied to a bare finger on a haptic surface

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

137 Citations

15 Claims

Specification

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Method and apparatus for increasing magnitude and frequency of forces applied to a bare finger on a haptic surface

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

137 Citations

15 Claims

Specification

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Use Cases

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Others