Operation method of shutter glasses based 3D display device

摘要

The present invention relates to an operation method of shutter glasses based 3D display device, which alternatively supplies left-eye and right-eye frame signals to a liquid crystal panel to drive the liquid crystal panel, which cooperate with illumination of a scanning back light unit and timing control of the shutter glasses to simulate left and right eyes respectively with left-eye and right-eye signals for perception of a 3D image, wherein in a period of a current frame signal, duty time of each of blocks of the back light unit is located between the time when liquid crystal corresponding to the block completely responds after being driven by the current frame signal and the time when the liquid crystal corresponding to the block starts to respond as being driven by a subsequent frame signal, and the duty time of each of the blocks is divided into duty1, a duty time that precedes completion of response of liquid crystal, and duty2, a duty time that succeeds the completion of response of liquid crystal, luminance of each of the block in duty1 period and duty2 period being respectively adjusted so that each of the blocks has a luminance of liquid crystal corresponding thereof that is equal to a target luminance for both duty1 period and duty2 period. The operation method of shutter glasses based 3D display device according to the present invention alleviates after image caused by crosstalk between left and right eyes without shortening the duty time of each block of BLU.

主权项

1. An operation method of shutter glasses based 3D (3-Dimensional) display devices, which alternatively supplies left-eye and right-eye frame signals to a liquid crystal panel to drive the liquid crystal panel to respectively form left-eye and right-eye images, which cooperate with illumination of a scanning back light unit and timing control of the shutter glasses to simulate left and right eyes respectively with left-eye and right-eye signals for perception of a 3D image, wherein in a period of a current frame signal, duty time of each of blocks of the back light unit is located between the time when liquid crystal corresponding to the block completely responds after being driven by the current frame signal and the time when the liquid crystal corresponding to the block starts to respond as being driven by a subsequent frame signal, and according to the time of complete response of the liquid crystal as being driven by the signal of the current frame, the duty time of each of the blocks is divided into duty1, a duty time that precedes completion of response of liquid crystal, and duty2, a duty time that succeeds the completion of response of liquid crystal, luminance of each of the block in duty1 period and duty2 period being respectively adjusted so that each of the blocks has a luminance of liquid crystal corresponding thereof that is equal to a target luminance for both duty1 period and duty2 period;
wherein for each pixel located in the liquid crystal corresponding to each of the blocks of the back light unit: in the duty1 period, the maximum grey level signal of the liquid crystal corresponding to each block of the back light unit is corrected to Max, and T′max,m indicates the average transient transmittance of the liquid crystal corresponding to the mth block of the back light unit under signal grey level being Max, where Max indicates the maximum signal grey of the liquid crystal panel; in the duty2 period, the transmittance of each pixel is individually changed to Tm,pixel=Tm,pixel,0=TMax/TM, where Max indicates the maximum signal grey level of the liquid crystal panel, TMax indicates liquid crystal transmittance corresponding to the maximum signal grey level Max, m indicates the liquid crystal corresponding to the mth block of the back light unit in which the pixel is located, M indicates the original maximum signal grey level of the current frame for the liquid crystal corresponding to the mth block of the back light unit, TM indicates the liquid crystal transmittance corresponding to the signal grey level M, and Tm,pixel,0 indicates the original transmittance of the pixel located in the liquid crystal corresponding to the mth block of the back light unit for the current frame; and the mth block of the back light unit is adjusted to set the luminance thereof in the duty1 period to be B′Max,m and the luminance in the duty2 period be BMax,m according to the following formula: target luminance=T′Max,m×B′Max,m=TMax×BMax,m.