IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0018035
(2011-01-31)
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등록번호 |
US-8474722
(2013-07-02)
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발명자
/ 주소 |
- Hennick, Robert John
- Barber, Charles P.
- Coleman, Eric C.
- Ehrhart, Michael A.
- Gannon, Colleen
- Gardiner, Robert C.
- Havens, William H.
- Hunter, Vivian L.
- McCall, Melvin D.
- Ruhlman, Thomas
|
출원인 / 주소 |
|
대리인 / 주소 |
Heslin Rothenberg Farley & Mesiti P.C.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
207 |
초록
▼
There is set forth herein an optical reader for reading target indicia. The said optical reader in one embodiment can comprise an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor. The optical reader in one embodiment can comprise a control circu
There is set forth herein an optical reader for reading target indicia. The said optical reader in one embodiment can comprise an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor. The optical reader in one embodiment can comprise a control circuit in communication with said imaging subsystem. The optical reader in one embodiment can comprise an illumination subsystem in communication with a control circuit. The illumination subsystem in one embodiment can comprise at least one multiple color-emitting light source. The at least one multiple color-emitting light source in one embodiment can comprise at least two independently drivable light emitting elements.
대표청구항
▼
1. An optical reader for reading target indicia, said optical reader comprising: an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor;a control circuit in communication with said imaging subsystem; anda multiple color emitting illumination subsys
1. An optical reader for reading target indicia, said optical reader comprising: an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor;a control circuit in communication with said imaging subsystem; anda multiple color emitting illumination subsystem for directing light toward a target, said illumination subsystem being in communication with said control circuit, said illumination subsystem comprising at least two independently drivable light emitting elements;wherein said control circuit is adapted to sense a condition present relative to said target, and wherein said control circuit is further adapted to change a color emitted by said illumination subsystem in response to a sensed condition, said sensed condition being a sensed reader-to-target distance. 2. The optical reader of claim 1, wherein the image sensor is a two dimensional image sensor. 3. The optical reader of claim 1, wherein the illumination subsystem is adapted to project an illumination pattern and an aiming pattern. 4. The optical reader of claim 1, wherein the optical reader includes a hand held housing in which the image sensor is disposed. 5. An optical reader for reading target indicia, said optical reader comprising: an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor;a control circuit in communication with said imaging subsystem; anda multiple color emitting illumination subsystem for directing light toward a target, said illumination subsystem being in communication with said control circuit, said illumination subsystem comprising at least two independently drivable light emitting elements;wherein said imaging subsystem includes a color image sensor, wherein said control circuit is adapted to sense a color present in said target using the color image sensor, and wherein said control circuit is further adapted to change a color emitted by said illumination subsystem in response to said color present. 6. The optical reader of claim 2 said illumination subsystem includes an illumination light source provided by a multiple color-emitting light source. 7. The optical reader of claim 5, wherein the reader includes a first circuit board on which there is disposed a component of the imaging subsystem, a second circuit board on which there is disposed a component of the illumination subsystem and a conductive support post connecting the first circuit board and the second circuit board. 8. The optical reader of claim 5, wherein the optical reader includes a hand held housing in which the image sensor is disposed. 9. The optical reader of claim 5, wherein the at least two independently drivable light emitting elements are packaged in a common LED package. 10. The optical reader of claim 5, wherein the image sensor is a two dimensional image sensor. 11. The optical reader of claim 5, wherein the illumination subsystem is adapted to project an illumination pattern and an aiming pattern. 12. The optical reader of claim 5, wherein the illumination subsystem is adapted to project an illumination pattern and wherein said optical reader is adapted so that a color of said projected illumination pattern changes responsively to a sensing of red indicia. 13. An optical reader for reading target indicia, said optical reader comprising: an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor;a control circuit in communication with said imaging subsystem; anda multiple color emitting illumination subsystem for directing light toward a target, said illumination subsystem being in communication with said control circuit, said illumination subsystem comprising at least two independently drivable light emitting elements;wherein said control circuit is adapted to change a color emitted by said illumination subsystem when an operating mode of said reader changes from a decoding attempt mode to a successful decode mode, so that a change in color emitted by said illumination subsystem indicates a good read. 14. The optical reader of claim 13, wherein said illumination subsystem includes an aiming light source provided by a multiple color emitting light source. 15. The optical reader of claim 13, wherein the image sensor is a two dimensional image sensor. 16. The optical reader of claim 13, wherein the image sensor is a color sensitive two dimensional image sensor. 17. The optical reader of claim 13, wherein the illumination subsystem is adapted to project an illumination pattern and an aiming pattern. 18. The optical reader of claim 13, wherein the illumination subsystem is adapted to project an aiming pattern, and wherein a color of the projected aiming pattern changes from a first color to a second color when an operating mode of said reader changes from a decoding attempt mode to a successful decode mode. 19. The optical reader of claim 13, wherein the optical reader includes a hand held housing in which the image sensor is disposed. 20. An optical reader for reading target indicia, said optical reader comprising: an imaging subsystem including an image sensor and a lens assembly for focusing light on said image sensor;a control circuit in communication with said imaging subsystem; anda multiple color emitting illumination subsystem for directing light toward a target, said illumination subsystem being in communication with said control circuit, said illumination subsystem comprising at least two independently drivable light emitting elements;wherein said control circuit is adapted to change a color emitted by said illumination subsystem from a first color to a second color prior to a second decode attempt, if a first decode attempt using said first color is unsuccessful. 21. The optical reader of claim 20, wherein said illumination subsystem includes a multiple color-emitting LED of the type having a plurality of LED dies, each being independently drivable, wherein said control circuit establishes a certain color emitted by said multiple color-emitting LED by presenting a set of LED die driver signals to said LED dies. 22. The optical reader of claim 20, wherein said control circuit is adapted to save signals establishing said second color if said second decode attempt is successful. 23. The optical reader of claim 20, wherein the image sensor is a two dimensional image sensor. 24. The optical reader of claim 20, wherein the image sensor is a color sensitive two dimensional image sensor. 25. The optical reader of claim 20, wherein the illumination subsystem is adapted to project an illumination pattern and an aiming pattern. 26. The optical reader of claim 20, wherein the optical reader includes a hand held housing in which the image sensor is disposed.
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