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METHOD FOR DRIVING DISPLAY

20210383761 ยท 2021-12-09

    Inventors

    Cpc classification

    International classification

    Abstract

    Disclosed is a method for driving a display, comprising the steps of: turning on one scan line from among a plurality of scan lines so as to drive a pixel connected to the scan line through a plurality of source lines; and turning off the scan line, and then turning on a scan line spaced apart from the scan line with at least one column there between, so as to drive a pixel connected to the scan line through a plurality of source lines.

    Claims

    1. A method of driving a display including a plurality of pixels (the pixels are arranged in a plurality of rows and a plurality of columns) and using a plurality of scan lines connected to rows and a plurality of source lines connected to columns, respectively, the method comprising: turning on one scan line from among a plurality of scan lines so as to drive a pixel connected to the scan line through a plurality of source lines; and turning off the scan line, and then turning on a scan line spaced apart from the scan line with at least one column there between, so as to drive a pixel connected to the scan line through a plurality of source lines.

    2. The method of claim 1, wherein scan lines corresponding to odd-numbered rows or scan lines corresponding to even-numbered rows are combined and driven first.

    3. The method of claim 1, wherein the pixels include a plurality of first pixels for generating a first color and a plurality of second pixels for generating a second color different from the first color, the first pixels are connected to the second pixels in one source line, and the first pixels or the second pixels are combined and driven first.

    4. The method of claim 2, wherein the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows are sequentially driven along the rows.

    5. The method of claim 4, wherein a driving for each of the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows displays one frame.

    6. The method of claim 4, wherein display data for each of the scan line corresponding to the odd-numbered row and the scan line corresponding to the even-numbered row is separately transmitted and driven.

    7. The method of claim 4, wherein the pixels include a plurality of third pixels for generating a third color different from a first color and a second color, the third pixels are provided to one source line disconnected to the first pixels and the second pixels, pixels positioned on the scan lines corresponding to the odd-numbered rows generate the first color, and pixels positioned on the scan lines corresponding to the even-numbered rows generate the second color.

    8. The method of claim 2, wherein different start signals are used for the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows.

    9. The method of claim 2, wherein one start signal is used for each of the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows.

    10. The method of claim 8 or 9, wherein the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows are sequentially driven along the rows, respectively.

    Description

    DESCRIPTION OF DRAWINGS

    [0010] FIG. 1 is a diagram showing an example of a pixel arrangement by an SPR scheme.

    [0011] FIG. 2 is a diagram for explaining an example of a method of scan-driving the pixel arrangement shown in FIG. 1.

    [0012] FIG. 3 is a view showing an example of a conventional scan-driving circuit diagram.

    [0013] FIG. 4 is a view showing an example of a method of performing a scan-driving according to the present disclosure;

    [0014] FIG. 5 is a view showing an example of the conventional scan-driving circuit diagram.

    BEST MODE

    Mode for Invention

    [0015] Hereinafter, the present disclosure will now be described in detail with reference to the accompanying drawing(s).

    [0016] FIG. 4 is a view showing an example of a method of performing a scan-driving according to the present disclosure. In order to solve the problems of the conventional scan-driving, instead of sequentially turning on and off the scan lines Scan1, . . . , Scan M, scan lines having sub-pixels of the same color (odd-numbered scan lines such as scan lines Scan1, Scan3, Scan5, . . . , or even-numbered scan lines such as scan lines Scan2, Scan4, Scan6, . . . ) are driven as being sequentially turned on and off, and subsequently, the remaining scan lines are sequentially driven as being turned on and off. The scan lines are operated in the above manner, such that the voltage required for the red sub-pixel may be applied to the source lines Source1, . . . , and Source N to perform the operation when the odd-numbered scan lines Scan1, Scan3, Scan5, . . . are driven, and the voltage required for the blue sub-pixel may be applied to the source lines Source1, . . . , Source N to perform the operation when even-numbered scan lines Scan2, Scan4, Scan6, . . . are driven. When the driving is performed in the above manner, a swing of an output voltage of the source line is minimized, so that the power consumption of the source line may be significantly reduced. The operation for the odd-numbered scan lines Scan1, Scan3, Scan5, . . . and the even-numbered scan lines Scan2, Scan4, Scan6, . . . may be basically applied to one frame, but the operation for the odd-numbered scan lines Scan1, Scan3, Scan5, . . . and the even-numbered scan lines Scan2, Scan4, Scan6, . . . may be applied to two consecutive frames, so that there is the effect of doubling the driving speed for the frames. Meanwhile, the source line data used for operating the odd-numbered scan lines Scan1, Scan3, Scan5, . . . is separated from the source line data used for operating the even-numbered scan lines Scan2, Scan4, Scan6, . . . , so that the efficiency of data transmission may be increased in a device, such as a smartphone, having limited resources.

    [0017] FIG. 3 is a view showing an example of a conventional scan-driving circuit diagram, in which level shifters LS1, LS2, LS3, LS4, . . . are provided to the scan lines Scan1, Scan2, Scan3, Scan4, . . . , respectively. When a start signal STV comes into the level shifter LS1 connected to the scan line Scan1, a signal S1 is generated to correspond to a driving of a combination of a clock CK and a clock inversion signal CKB, so that the scan line Scan1 may be turned on and turned off in a predetermined period of time. The signal S1 is inputted to the level shift LS2 immediately disposed there below, and the scan line Scan2 is turned on to correspond to a driving of a combination of CK and CKB, and turned off in a predetermined period of time. When the signals are sequentially transmitted to the last scan line Scan M (see FIG. 2) in the above manner, display data of one frame is saved, and the start signal STV is outputted again, thereby repeatedly storing the display data, so that the desired image is displayed.

    [0018] FIG. 5 is a view showing an example of the scan driving circuit diagram according to the present disclose. Unlike FIG. 3, two start signals STVO and STVE are used. After passing through the level shifter LS1, the start signal STVO is transferred not to the level shifter LS2 but to the level shifter LS3, and the signal is transferred to the last odd-numbered level shifter. Then, a start signal STVE is sent and transferred to the last even-numbered level shifter through the level shifter LS2 and the level shifter LS4. The start signal STVE may be generated as a signal separated from the start signal STVE, and the signal having passed through the last odd-numbered level shifter may also be used as the start signal STVE. The odd-numbered scan lines may be driven first, however, the even-numbered scan lines may be driven first.

    [0019] Hereinafter, various embodiments of the present disclose will be described.

    [0020] (1) In a method of driving a display including a plurality of pixels (the pixels are arranged in a plurality of rows and a plurality of columns) and using a plurality of scan lines connected to rows and a plurality of source lines connected to columns, respectively, a method of driving a display including: turning on one scan line from among a plurality of scan lines so as to drive a pixel connected to the scan line through a plurality of source lines; and turning off the scan line, and then turning on a scan line spaced apart from the scan line with at least one column there between, so as to drive a pixel connected to the scan line through a plurality of source lines. Herein, the pixel refers to a concept including all of the pixels and sub-pixels described with reference to FIG. 1.

    [0021] (2) The method of driving the display, wherein scan lines corresponding to odd-numbered rows or scan lines corresponding to even-numbered rows are combined and driven first.

    [0022] (3) The method of driving the display, wherein the pixels include a plurality of first pixels for generating a first color and a plurality of second pixels for generating a second color different from the first color, the first pixels are connected to the second pixels in one source line, and the first pixels or the second pixels are combined and driven first.

    [0023] (4) The method of driving the display, wherein the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows are sequentially driven along rows, respectively.

    [0024] (5) The method of driving the display, wherein a driving for each of the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows displays one frame.

    [0025] (6) The method of driving the display, wherein display data for each of the scan line corresponding to the odd-numbered row and the scan line corresponding to the even-numbered row is separately transmitted and driven.

    [0026] (7) The method of driving the display, wherein the pixels include a plurality of third pixels for generating a third color different from the first color and the second color, the third pixels are provided to one source line disconnected to the first pixels and the second pixels, pixels positioned on the scan lines corresponding to the odd-numbered rows generate the first color, and pixels positioned on the scan lines corresponding to the even-numbered rows generate the second color.

    [0027] (8) The method of driving the display, wherein different start signals are used for the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows.

    [0028] (9) The method of driving the display, wherein one start signal is used for each of the scan lines corresponding to the odd-numbered rows and the scan lines corresponding to the even-numbered rows.

    [0029] In the method of driving one display according to the present disclosure, and in a display using the scan-driving, particularly a display using the AMOLED, the power consumption can be reduced, the frame speed can be improved, and the transmission speed of the pixel display data can be improved.

    INDUSTRIAL APPLICABILITY

    DESCRIPTION OF REFERENCE NUMERALS

    [0030]