초록 ▼

A back-light module for an image scanning device includes a casing, a pair of tubular lamps, a light guide plate, and a frosted transparent plate. The image scanning device includes a document supporting plate and an optical scanning module movable in a longitudinal direction. A calibration of illum

A back-light module for an image scanning device includes a casing, a pair of tubular lamps, a light guide plate, and a frosted transparent plate. The image scanning device includes a document supporting plate and an optical scanning module movable in a longitudinal direction. A calibration of illumination with the back-light module is done by (1) activating the back-light module to project light onto the optical scanning module, (2) driving the optical scanning module in the longitudinal direction, (3) obtaining illumination signals associated with selected pixels of a longitudinally-extending calibration zone formed on the document supporting plate, (4) comparing each illumination signal with a reference to obtain a result and manipulating the result to obtain a calibration parameter, and (5) calibrating the illumination of pixels of an image with the corresponding calibration parameters in scanning a transmissive original document.

대표청구항 ▼

What is claimed is: 1. An apparatus: comprising: an optical scanning module being capable of being driven in a longitudinal direction; a first transmissive calibration zone in the longitudinal direction; a back-light module capable of illuminating the optical scanning module; a second transmissive

What is claimed is: 1. An apparatus: comprising: an optical scanning module being capable of being driven in a longitudinal direction; a first transmissive calibration zone in the longitudinal direction; a back-light module capable of illuminating the optical scanning module; a second transmissive calibration zone in a latitudinal direction, wherein the first transmissive calibration zone and the second transmissive calibration zone are disposed between the back light module and the optical scanning module; and a processing module capable of obtaining a signal of a selected pixel of one of the calibration zones, wherein the processing module is further capable of: obtaining a calibration parameter; and calibrating the illumination of an image; wherein the back-light module comprises: a light guide plate; and a light-transmissive plate to distribute light guided by the light guide plate, the distributed light for illuminating a document represented by the obtained signal. 2. The apparatus of claim 1, wherein the light transmissive plate is frosted. 3. The apparatus of claim 2, wherein the back-light module comprises a reflective surface disposed between the light guide plate and a casing of the back-light module. 4. The apparatus of claim 1, wherein the light-transmissive plate is disposed below the light guide plate. 5. The apparatus of claim 4, wherein the light-transmissive plate is frosted. 6. The apparatus of claim 1, wherein the back-light module comprises a reflective surface disposed between the light guide plate and a casing of the back-light module. 7. The apparatus of claim 3, wherein a light source is adjacent to the light guide plate. 8. The apparatus of claim 1, wherein the processing module is operable to: analyze the signal to obtain an illumination value corresponding to the selected pixel; compare the obtained illumination value to a stored illumination reference value; and identify the calibration value according to the comparison. 9. The apparatus of claim 8, wherein the processors are further operable to calibrate the illumination of the image according to the calibration value. 10. An apparatus, comprising: means for projecting light onto a transmissive document, a portion of the projected light to pass through the transmissive document and illuminate an optical scanning module; means for driving the optical scanning module in a longitudinal direction; a transmissive calibration zone in the longitudinal direction; a transmissive calibration zone in a lateral direction, wherein the transmissive calibration zones are disposed between the light projecting means and the optical scanning module; means for obtaining a signal of a selected pixel of one of the calibration zones; means for comparing the signal with a pre-set reference to obtain a calibration parameter; and means for calibrating an illumination of an image according to the calibration parameter. 11. The apparatus of claim 10, wherein said optical scanning module further comprises means for obtaining an image signal of a selected pixel. 12. The apparatus of claim 10, wherein said selected pixel represents red, green and blue colors. 13. The apparatus of claim 10, further comprising means for determining said calibration parameter with respect to the signal and a reference illumination intensity. 14. The apparatus of claim 13, further comprising a means for retrieving the reference from storage in a memory unit. 15. The apparatus of claim 10, wherein the means for projecting light comprises a frosted light-transmissive plate. 16. The apparatus of claim 15, wherein the means for projecting light further comprises a light guiding plate disposed on the frosted light-transmissive plate. 17. The apparatus of claim 10, further comprising a housing, wherein the means for projecting light is pivotally attached to the housing. 18. An apparatus, comprising: an optical scanning module being capable of being driven in a longitudinal direction; a first transmissive calibration zone in the longitudinal direction; a back-light module capable of illuminating the optical scanning module; a second transmissive calibration zone in a latitudinal direction, wherein the first transmissive calibration zone and the second transmissive calibration zone are disposed between the back light module and the optical scanning module; and a processing module capable of obtaining a signal of a selected pixel of one of the calibration zones, wherein said processing module is further capable of: obtaining a calibration parameter; and calibrating the illumination of an image; wherein the back-light module comprises: a casing; a light source in the casing; a light guide plate adjacent to the light sources; a reflective sheet between the casing and the light guide plate; and a frosted light-transmissive plate disposed below the light guide plate. 19. The apparatus of claim 18, wherein the casing includes two cold cathode fluorescent lamps and wherein the light guide plate is disposed between the two lamps. 20. The apparatus of claim 18, further comprising a housing, wherein the back-light module is pivotally attached to the housing. 21. The apparatus of claim 18, wherein the casing includes a plurality of light sources. 22. An apparatus, comprising: a back-light module; a light sensor to receive light generated by the back light module; a document holder for holding a document between the back-light module and the light sensor; a light source in the back-light module, the light source for illuminating the document and allowing light representing at least a portion of the document to be received by the light sensor; and calibration circuitry operable to: obtain data corresponding to a first portion of a first scan line and a second portion of a second different scan line; determine a difference in illumination intensity between the first portion of the first scan line and the second portion of the second different scan line; and identify a calibration value based on the determined difference. 23. The apparatus of claim 22, wherein the calibration circuitry is further operable to: obtain a pixel representing at least a portion of the document; and change an illumination intensity the pixel according to the identified calibration value. 24. The apparatus of claim 22, wherein the calibration circuitry is further operable to: compare an illumination intensity of a calibration zone to a present illumination reference signal, the comparison providing a comparison result; and determine the difference in illumination intensity between the first portion of the first scan line and the second portion of the second different scan line using the comparison result. 25. The apparatus of claim 24, wherein the calibration zone represented by the compared illumination intensity is attached to a bottom surface of the document holder and oriented in a direction that is perpendicular to the scan lines.