Light-based touch screen with shift-aligned emitter and receiver lenses

US 9,471,170 B2
Filed: 03/21/2011
Issued: 10/18/2016
Est. Priority Date: 11/04/2002
Status: Expired due to Term

First Claim

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1. A touch screen comprising:

a housing;

a display mounted in said housing;

a plurality of emitter lenses mounted in said housing along a common edge of said display;

a plurality of light pulse emitters mounted in said housing, each emitter emitting wide light pulses through a respective one of said emitter lenses over said display;

a plurality of receiver lenses mounted in said housing and arranged so as to be shift-aligned relative to said emitter lenses, such that wide light pulses transmitted through neighboring emitter lenses enter a common receiver lens, and wide light pulses transmitted through an emitter lens enter neighboring receiver lenses;

a plurality of light pulse receivers mounted in said housing, each receiver receiving portions of the transmitted wide light pulses through a respective one of said receiver lenses, and outputting received light intensities in accordance with the portions of the wide light pulses that they receive, each receiver R having an expected output, denoted EXPECTED OUTPUT(E, R), when emitter E is activated and no object blocks its wide light pulse, and an actual output, denoted ACTUAL OUTPUT(E, R); and

a calculating unit, mounted in said housing and connected to said receivers, that calculates a coordinate, along a first dimension, of a location of an object touching said display, by identifying sub-areas of the display in which the object is at least partially located, each sub-area, denoted Area(E, R), corresponding to the section of light emitted by an emitter E that arrives at a receiver R, assigning a respective coordinate to each thus-identified sub-area Area(E, R), and calculating a weighted average of the thus-assigned coordinates, wherein each coordinate'"'"'s weight in the average is determined from a known distribution of intensities of the light emitted by emitter E, based on the differenceEXPECTED OUTPUT(E, R)−

ACTUAL OUTPUT(E, R).

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Abstract

A touch screen including a housing, a display mounted in the housing, a plurality of collimating lenses mounted in the housing along two opposite edges of the display and arranged along the two edges so as to be shift-aligned relative to one another, a plurality of light pulse emitters mounted in the housing that are spaced apart from and transmit light pulses through the collimating lenses of one of the two edges over the display, a plurality of light pulse receivers mounted in the housing that are spaced apart from and receive the light pulses through the collimating lenses of the opposite of the two edges, and a calculating unit, mounted in the housing and connected to the receivers, that determines a location of a pointer on the display that partially blocks the light pulses transmitted by the emitters, based on outputs of the receivers.

180 Citations

26 Claims

1. A touch screen comprising:
- a housing;
  
  a display mounted in said housing;
  
  a plurality of emitter lenses mounted in said housing along a common edge of said display;
  
  a plurality of light pulse emitters mounted in said housing, each emitter emitting wide light pulses through a respective one of said emitter lenses over said display;
  
  a plurality of receiver lenses mounted in said housing and arranged so as to be shift-aligned relative to said emitter lenses, such that wide light pulses transmitted through neighboring emitter lenses enter a common receiver lens, and wide light pulses transmitted through an emitter lens enter neighboring receiver lenses;
  
  a plurality of light pulse receivers mounted in said housing, each receiver receiving portions of the transmitted wide light pulses through a respective one of said receiver lenses, and outputting received light intensities in accordance with the portions of the wide light pulses that they receive, each receiver R having an expected output, denoted EXPECTED OUTPUT(E, R), when emitter E is activated and no object blocks its wide light pulse, and an actual output, denoted ACTUAL OUTPUT(E, R); and
  
  a calculating unit, mounted in said housing and connected to said receivers, that calculates a coordinate, along a first dimension, of a location of an object touching said display, by identifying sub-areas of the display in which the object is at least partially located, each sub-area, denoted Area(E, R), corresponding to the section of light emitted by an emitter E that arrives at a receiver R, assigning a respective coordinate to each thus-identified sub-area Area(E, R), and calculating a weighted average of the thus-assigned coordinates, wherein each coordinate'"'"'s weight in the average is determined from a known distribution of intensities of the light emitted by emitter E, based on the differenceEXPECTED OUTPUT(E, R)−
  
  ACTUAL OUTPUT(E, R).
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
- - 2. The touch screen of claim 1, wherein said emitters and receivers are arranged in opposing rows, and wherein said emitters are shift-aligned relative to said receivers.
  - 3. The touch screen of claim 1, wherein said emitter and receiver lenses comprise a plastic frame surrounding said display.
  - 4. The touch screen of claim 1 further comprising a light guide for guiding light pulses, the light guide comprising micro-lenses for multi-directional collimation of light pulses, and wherein said emitter and receiver lenses comprise a portion of said light guide.
  - 5. The touch screen of claim 4 wherein said micro-lenses are comprised within said emitter and receiver lenses.
  - 6. The touch screen of claim 4 wherein said micro-lenses are not comprised within said emitter and receiver lenses.
  - 7. The touch screen of claim 1 further comprising:
    - a first light guide for guiding light pulses, comprising;
      
      a first substantially parabolic reflective surface for reflecting the wide light pulses emitted by said emitters; and
      
      a first substantially elliptical refractive surface, positioned substantially above said first substantially parabolic reflective surface, for refracting the reflected light pulses over said display to a second light guide; and
      
      a second light guide for guiding light pulses, comprising;
      
      a second substantially elliptical refractive surface for further refracting the refracted light pulses; and
      
      a second substantially parabolic reflective surface, positioned substantially below said second substantially elliptical refractive surface, for reflecting the further refracted light pulses onto said receivers,wherein said emitters and said receivers are positioned beneath said display, and wherein said emitter and receiver lenses comprise respective portions of said first and said second light guides.
  - 8. The touch screen of claim 7, wherein said first substantially parabolic reflective surface and said first substantially elliptical refractive surface have the same focal location, and wherein said second substantially parabolic reflective surface and said second substantially elliptical refractive surface have the same focal location.
  - 9. The touch screen of claim 1, wherein said emitter and receiver lenses are rigidly mounted in said housing, wherein said display is flexibly mounted in said housing, and wherein said calculating unit further determines that the object is performing a hard touch, based on increases in the outputs of said receivers.
  - 10. The touch screen of claim 1 further comprising a plurality of inter-fitting infra-red transmissible plastic emitter units mounted in said housing, each emitter unit comprising one of said emitters and its respective emitter lens.
  - 11. The touch screen of claim 10, wherein the emitter lens in each emitter unit transmits wide light pulses from the emitter in that emitter unit and from the emitter in a neighboring emitter unit.
  - 12. The touch screen of claim 10, wherein said emitter units are pre-manufactured, prior to being assembled in the touch screen.
  - 13. The touch screen of claim 10, wherein each emitter unit further comprises micro-lenses for multi-directional collimation of the light pulses emitted by the emitter of that emitter unit.
  - 14. The touch screen of claim 1, further comprising a plurality of inter-fitting infra-red transmissible plastic receiver units mounted in said housing, each receiver unit comprising one of said receivers and its respective receiver lens.
  - 15. The touch screen of claim 14, wherein the receiver in each receiver unit receives wide light pulses through that receiver unit'"'"'s receiver lens, and also receives wide light pulses through the receiver lens of a neighboring receiver unit.
  - 16. The touch screen of claim 14, wherein said receiver units are pre-manufactured, prior to being assembled in the touch screen.
  - 17. The touch screen of claim 14, wherein each receiver unit further comprises micro-lenses for multi-directional collimation of the light pulses received by the receiver of that receiver unit.
  - 18. The touch screen of claim 1, wherein said emitters are spaced apart from said emitter lenses.
  - 19. The touch screen of claim 1, wherein said receivers are spaced apart from said receiver lenses.
  - 20. The touch screen of claim 1, further comprising a controller, mounted in said housing and connected to said emitters, for activating said emitters individually one at a time.
  - 21. The touch screen of claim 1, wherein each said emitter lens shapes the wide light pulse emitted by its respective emitter so as to provide a light intensity distribution that decreases linearly from the center of the light pulse outward.
  - 22. The touch screen of claim 1, wherein said calculating unit assigns the respective coordinate to each identified sub-area Area(E, R) based on an estimated coordinate, along a second dimension, of the location of the object.
  - 23. The touch screen of claim 1, wherein said calculating unit calculates the coordinate, along the first dimension, of the location of the object by temporally filtering a plurality of the weighted averages over time.
  - 24. The touch screen of claim 23, wherein said calculating unit temporally filters the plurality of weighted averages based on at least one of:
    - a velocity of the object, a scanning frequency, whether the object is moving in a straight line or not, and a size of the object.
  - 25. The touch screen of claim 1, wherein said calculating unit identifies overlapping sub-areas corresponding to sections of light emitted by a single emitter that arrive at neighboring receivers.
  - 26. The touch screen of claim 1, wherein said calculating unit identifies overlapping sub-areas corresponding to sections of light emitted by neighboring emitters that arrive at a common receiver.

Specification

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Current Assignee
Neonode, Inc.
Original Assignee
Neonode, Inc.
Inventors
Goertz, Magnus, Eriksson, Thomas, Shain, Joseph, Jansson, Anders, Kvist, Niklas, Pettersson, Robert, Sparf, Lars, Karlsson, John
Primary Examiner(s)
Patel, Kumar
Assistant Examiner(s)
CHOWDHURY, AFROZA Y

Application Number

US13/052,511
Publication Number

US 20110163998A1
Time in Patent Office

2,038 Days
Field of Search

345/156, 345/173, 345/175, 345/176, 345/179
US Class Current

1/1
CPC Class Codes

G06F 3/04166   Details of scanning methods...

G06F 3/042   by opto-electronic means

G06F 3/0421   by interrupting or reflecti...

G06F 3/0425   using a single imaging devi...

G06F 3/0428   by sensing at the edges of ...

Light-based touch screen with shift-aligned emitter and receiver lenses

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

180 Citations

26 Claims

Specification

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Light-based touch screen with shift-aligned emitter and receiver lenses

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

180 Citations

26 Claims

Specification

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Use Cases

Quick Links

Others