Method of driving displays comprising a conversion from the RGB colour space to the RGBW colour space
First Claim
1. A method of driving a display including an array of display elements, each element comprising red, green, blue and white colors, said method comprising the steps of:
- (a) receiving input signals for controlling red, green and blue colors of each element of the display;
(b) processing the input signals to generate corresponding red, green, blue and white output drive signals for the red, green, blue and white sub-pixels of each element, said output drive signals being enhanced according to a gain factor for increasing element luminosity subject to potential color saturation occurring at one or more of the elements being addressed by selectively reducing color saturation at said one or more of said elements; and
(c) applying said output drive signals to respective sub-pixels for each element of the display, wherein processing in step (b) comprises the steps of;
(d) computing for each element a maximum potential optical transmission therethrough;
(e) scaling the input signals for each element according to the maximum optical transmission therethrough computed in step (d);
(f) computing a minimum value of the scaled input signals from step (e);
(g) computing intermediate signals for the scaled input signals from step (e) in relation to the minimum value from step (f) for each element;
(h) computing a maximum value of the computed intermediate signals from step (g) for each element;
(i) computing surpluses from step (g) in relation to the maximum value from step (h) for each element;
(j) computing a difference between the computed surpluses from step (i) in relation to the intermediate signals from step (g) to generate output drive signals for the red, green and blue sub-pixels of each element;
(k) computing a luminance value from the scaled computed surplus from step (i) and the minimum value from step (f); and
(l) applying the luminance value from step (k) to generate the white output drive signal to control optical output of the white sub-pixel, and applying the output drive signals from step (j) to control optical output from the red, green and blue sub-pixels for each element.
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Abstract
An apparatus (200) for driving a display (310, 320) including an array of display elements (20), each element (20) comprising a plurality of sub-pixels of red (R), green (G), blue (B) and white (W) colors. The apparatus (200) comprising a processor (300) operable: (a) to receive input signals (RI, GI, BI) for controlling red, green and blue colors of each element (20) of the display (320); (b) to process the input signals (RI, GI, BI) to generate corresponding red, green, blue and white output drive signals for the red (R), green (G), blue (B) and white (W) sub-pixels of each element (20), said output drive signals being enhanced according to a gain factor (HS) for increasing element luminosity subject to potential color saturation occurring at one or more of the elements (20) being addressed by selectively reducing color saturation at said one or more of said elements (20); and (c) to apply said output drive signals to respective sub-pixels (R; G, B, W) for each element (20) of the display (320).
25 Citations
11 Claims
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1. A method of driving a display including an array of display elements, each element comprising red, green, blue and white colors, said method comprising the steps of:
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(a) receiving input signals for controlling red, green and blue colors of each element of the display; (b) processing the input signals to generate corresponding red, green, blue and white output drive signals for the red, green, blue and white sub-pixels of each element, said output drive signals being enhanced according to a gain factor for increasing element luminosity subject to potential color saturation occurring at one or more of the elements being addressed by selectively reducing color saturation at said one or more of said elements; and (c) applying said output drive signals to respective sub-pixels for each element of the display, wherein processing in step (b) comprises the steps of; (d) computing for each element a maximum potential optical transmission therethrough; (e) scaling the input signals for each element according to the maximum optical transmission therethrough computed in step (d); (f) computing a minimum value of the scaled input signals from step (e); (g) computing intermediate signals for the scaled input signals from step (e) in relation to the minimum value from step (f) for each element; (h) computing a maximum value of the computed intermediate signals from step (g) for each element; (i) computing surpluses from step (g) in relation to the maximum value from step (h) for each element; (j) computing a difference between the computed surpluses from step (i) in relation to the intermediate signals from step (g) to generate output drive signals for the red, green and blue sub-pixels of each element; (k) computing a luminance value from the scaled computed surplus from step (i) and the minimum value from step (f); and (l) applying the luminance value from step (k) to generate the white output drive signal to control optical output of the white sub-pixel, and applying the output drive signals from step (j) to control optical output from the red, green and blue sub-pixels for each element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An apparatus for driving a display including an array of display elements, each element comprising sub-pixels of red, green, blue and white colors, said apparatus comprising a processor operable:
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(a) to receive input signals for controlling red, green, and blue colors of each element of the display; (b) to process the input signals to generate corresponding red, green, blue and white output drive signals for the red, green, blue and white sub-pixels of each element, said output drive signals being enhanced according to a gain factor for increasing element luminosity subject to potential color saturation occurring at one or more of the elements being addressed by selectively reducing color saturation at said one or more of said elements; and (c) to apply said output drive signals to respective sub-pixels for each element of the display, wherein to process the input signals as in (b), the processor is further operable; (d) to compute for each element a maximum potential optical transmission therethrough; (e) to scale the input signals for each element according to the maximum optical transmission therethrough computed in operation (d); (f) to compute a minimum value of the scaled input signals from operation (e); (g) to compute intermediate signals for the scaled input signals from operation (e) in relation to the minimum value from operation (f) for each element; (h) to compute a maximum value of the computed intermediate signals from operation (g) for each element; (i) to compute surpluses from step (g) in relation to the maximum value from operation (h) for each element; (j) to compute a difference between the computed surpluses from operation (i) in relation to the intermediate signals from operation (g) to generate output drive signals for the red, green and blue sub-pixels of each element; (k) to compute a luminance value from the scaled computed surplus from operation (i) and the minimum value from operation (f); and (l) to apply the luminance value from operation (k) to generate the white output drive signal to control optical output of the white sub-pixel, and applying the output drive signals from operation (j) to control optical output from the red, green and blue sub-pixels for each element. - View Dependent Claims (11)
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Specification