Image flicker reduction with fluorescent lighting
DC CAFC
First Claim
Patent Images
1. A method of reducing flicker caused by lighting having a periodic intensity using an imager having a pixel integration time, the method comprising the steps of:
- setting the integration time to an integral multiple of the period of the periodic intensity of the lighting;
determining an amount to vary an overall system gain; and
adjusting the overall system gain by adjusting the integration time while maintaining the integration time at an integral multiple of the period of the periodic intensity.
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Reexamination
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Abstract
An imager reduces lighting induced flicker by setting its pixel integration time to an integral multiple of the periods between peak intensity of the lighting. In one implementation, flicker is reduced in a 30 Hz frame rate camera capturing an image lighted with 50 Hz lighting by setting the integration time to approximately 10 ms, the period between lighting intensity peaks.
68 Citations
23 Claims
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1. A method of reducing flicker caused by lighting having a periodic intensity using an imager having a pixel integration time, the method comprising the steps of:
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setting the integration time to an integral multiple of the period of the periodic intensity of the lighting;
determining an amount to vary an overall system gain; and
adjusting the overall system gain by adjusting the integration time while maintaining the integration time at an integral multiple of the period of the periodic intensity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
detecting the period of the periodic intensity.
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7. The method of claim 6, wherein the detecting step further comprises:
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detecting power line frequency; and
determining the period of the periodic intensity to be ½
of the period of the power line frequency.
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8. The method of claim 6, wherein the detecting step further comprises:
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monitoring an output of the imager for beats of intensity; and
determining the period of the periodic intensity based on the period of the beats and the integration time.
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9. The method of claim 1, wherein the steps of determining and adjusting are performed by a software device driver in a general purpose computer.
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10. The imager of claim 9, wherein the lighting is 50 Hz lighting and wherein the integration time adjustment block adjusts the integration time to an integral multiple of 10 ms.
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11. The imager of claim 10, wherein the imager provides analog data at a frame period, and wherein the frame period is a non-integral multiple of the integration time.
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12. The imager of claim 11, wherein the frame period is 33⅓
- ms.
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13. The imager of claim 9, wherein the lighting is 60 Hz lighting and wherein the integration time adjustment block adjusts the integration time to an integral multiple of 8⅓
- ms.
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14. An imager for a digital camera with reduced flicker caused by lighting having a periodic intensity, the imager providing data for a plurality of pixels, the imager comprising:
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programmable integration time circuitry that controls an integration time of the plurality of pixels;
an integration time adjustment block coupled to the programmable integration time circuitry, the integration time adjustment block setting the integration time to an integral multiple of the period of the periodic intensity of the lighting; and
an overall gain control block that adjusts an overall system gain by adjusting the integration time while maintaining the integration time at an integral multiple of the period of the periodic intensity. - View Dependent Claims (15, 16, 17, 18, 19, 20)
an analog, variable gain stage receiving the data for the plurality of pixels and providing amplified analog pixel data;
an analog to digital converter receiving the amplified analog pixel data and providing digitized pixel data; and
a gamma correction stage receiving the digitized pixel data, and providing scaled pixel data.
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18. The imager of claim 17,
the overall gain control block further adjusting the overall system gain by adjusting the variable gain stage and the gamma correction block. -
19. The imager of claim 18 wherein the overall gain control block adjusts overall camera gain in response to average image intensity of the scaled pixel data.
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20. The imager of claim 19, wherein the overall gain control block is implemented in a software device driver.
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21. An imager providing data for a plurality of pixels for a digital camera with reduced flicker caused by lighting having a periodic intensity, the imager comprising:
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means for controlling an integration time of the plurality of pixels to an integral multiple of the period of the periodic intensity of the lighting; and
means for varying an overall system gain by adjusting the integration time while maintaining the integration time at an integral multiple of the period of the periodic intensity of the lighting. - View Dependent Claims (22, 23)
means for amplifying the data for the plurality of pixels, providing an amplified pixel data;
means for gamma-correcting the amplified pixel data, wherein the means for varying an overall system gain further varies the system gain by adjusting the means for amplifying the data for the plurality of pixels and by adjusting the means for gamma-correcting the amplified pixel data.
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23. The imager of claim 21, the means for amplifying the data for the plurality of pixels comprising:
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means for analog amplifying the data for the plurality of pixels, providing an amplified analog pixel data; and
means for digitally converting the amplified analog pixel data into the amplified pixel data.
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Specification
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Litigation Data
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Current AssigneeRE Secured Networks LLC
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Original AssigneeConexant Systems Incorporated (Synaptics Incorporated)
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InventorsChung, Randall M., Bishay, Magued M., Pine, Joshua Ian
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Primary Examiner(s)HO, TUAN V
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Application NumberUS09/406,964Time in Patent Office679 DaysField of SearchH04/N.973, 348/207, 348/208, 348/220, 348/222, 348/223, 348/224, 348/225, 348/226, 348/229, 348/239, 348/370, 348/371, 358/518US Class Current348/370CPC Class CodesH04N 23/70 Circuitry for compensating ...H04N 9/73 Colour balance circuits, e....
