Claims
- 1. A color correction system for a color printer having an output path for moving printed color sheets, including printed test sheets with printed color test patches, in which a spectrophotometer is mounted adjacent to said printer output path for sensing the colors printed on said printed color test patches on said printed test sheets as said printed test sheets are moving past said spectrophotometer in said output path, said color correction system including plural illumination sources for sequentially illuminating said color test patches with different illumination spectra in a substantially circular illumination pattern, and a plural photodetectors system for providing electrical output signals in response to the color of said test patches from said sequential illumination of said test patches by reflection of said illumination of said color test patches in said substantially circular illumination pattern by said illumination sources, and a plural lens system for transmitting said reflected illumination from said color test patches to said plural photodetectors system, so as to provide improved angular displacement insensitivity of said spectrophotometer relative to said printed test sheets.
- 2. The color correction system of claim 1, wherein said plural photodetectors system comprises a plurality of photodetectors angularly spaced around said substantially circular illumination pattern to receive reflected illumination therefrom at substantially the same angle from substantially opposing directions.
- 3. The color correction system of claim 1, wherein a common central lens system is provided, and wherein said different illumination spectra from said plural illumination sources for sequentially illuminating said color test patches in a substantially circular illumination pattern are perpendicularly aimed by said central lens system at substantially the same area of said color test patches on said printed test sheets to provide said substantially circular illumination pattern thereof.
- 4. The color correction system of claim 1, wherein said plural illumination sources comprise a plurality of closely adjacent different spectral emission LEDs with a sequential actuation circuit.
- 5. A low cost broad spectrum spectrophotometer for measuring the colors of test target areas which may be variably displaced and variably angularly oriented relative to said spectrophotometer, comprising plural illumination sources and a common lens system for sequentially projecting plural different spectral illuminations from said plural illumination sources substantially perpendicular to the color test target area to illuminate a substantially circular illumination area of the color test target area, a sequential actuation circuit for sequential actuation of said plural illumination sources, and at least one photodetector spaced from said common lens system and spaced from said substantially circular illumination area of the color test target area to angularly receive reflected light from said substantially circular illumination area, so as to provide reduced angular displacement sensitivity of said spectrophotometer relative to said color test target area.
- 6. The low cost broad spectrum spectrophotometer of claim 5, wherein said at least one photodetector comprises a detector array of plural photodetectors spaced apart on at least two opposing sides of said common lens system and spaced from said substantially circular illumination area of the color test target area to differently angularly receive reflected light from said substantially circular illumination area at substantially the same angle from opposing directions, so as to provide additionally reduced angular displacement sensitivity of said spectrophotometer relative to said color test target area.
- 7. The low cost broad spectrum spectrophotometer of claim 5, wherein said plural illumination sources comprise approximately eight or less LEDs providing a correspondingly limited number of different spectral illuminations.
- 8. The low cost broad spectrum spectrophotometer of claim 5, wherein said spectrophotometer is a part of a color control system of a color printer with a printed sheets output path and is mounted adjacent to at least one side of the printed sheets output path of said color printer and said illuminated color test target area is printed on a printed color test sheet printed by said printer and moving past said spectrophotometer in said printed sheets output path of said color printer.
- 9. The low cost broad spectrum spectrophotometer of claim 5, wherein said limited plurality of illumination sources comprises less than approximately five LEDs providing a corresponding limited number of different spectral illuminations, and said at least one photodetector comprises a photodetector with plural photo-sites and plural different spectral responses.
- 10. The low cost broad spectrum spectrophotometer of claim 6, wherein there are approximately four or less said plural photodetectors.
- 11. The low cost broad spectrum spectrophotometer of claim 6, wherein said plural photodetectors are mounted in a substantially circular pattern surrounding said common lens system to define a central axis.
- 12. The low cost broad spectrum spectrophotometer of claim 6, wherein said plural photodetectors each have a projection lens system having approximately 1:1 imaging optics.
- 13. A method of broad spectrum color measurement of a color test area comprising substantially perpendicularly sequentially illuminating a substantially circular area of said color test area with a limited plural number of different spectra illuminations through a common lens system and sequentially non-contact measuring a portion of the reflected illumination from said sequentially illuminated substantially circular area of said color test area at approximately 45 degrees thereto with at least one photodetector spaced from said color test area to provide reduced angular sensitivity of said photodetector relative to said color test area.
- 14. The method of broad spectrum color measurement of a color test area of claim 13, utilizing a detector array comprising plural photodetectors mounted on opposing sides of said color test area, the outputs of which are averaged to further reduce said angular sensitivity relative to said color test area.
- 15. The method of broad spectrum color measurement of a color test area of claim 14, wherein said plural photodetectors each receive said reflected illumination through a projection lens system having an approximately 1:1 imaging ratio to provide relative displacement insensitivity of said photodetectors relative to said color test area.
- 16. A low cost broad spectrum spectrophotometer comprising means for sequentially perpendicularly illuminating a common substantially circularly illuminated color test area with a limited plural number of different spectra illuminations, and means for sequentially measuring the angularly reflected illumination from said sequentially illuminated substantially circularly illuminated color test area by applying said reflected illumination simultaneously to plural photodetectors spaced around said common color test area and summing the outputs of said photodetectors to provide an averaged output.
- 17. The low cost broad spectrum spectrophotometer of claim 16, wherein said limited plural number of different spectra illuminations is provided by a plurality of different LEDs in a common area with a common shared lens system and a sequential actuation circuit for said LEDs.
Parent Case Info
[0001] Cross-reference and incorporation by reference is made to the following copending and commonly assigned U.S. patent applications: U.S. application Ser. No. 09/448,987, filed Nov. 24, 1999, Attorney Docket No. D/99511Q, and U.S. application Ser. No. 09/449,263, filed Nov. 24, 1999, Attorney Docket No. D/99511Q1, both by Lingappa K. Mestha; Continuation-In-Part application Ser. No. 09/535,007, filed Mar. 23, 2000, by the same Fred F. Hubble, III and Joel A. Kubby, Attorney Docket No. D/99511i, claiming priority from U.S. application Ser. No. 09/448,774, filed Nov. 24, 1999, Attorney Docket No. D/99511 (abandoned); and application Ser. No. ______, filed ______ 2001, by Jagdish C. Tandon and Lingappa K. Mestha, Attorney Docket No. D/99660.