Patent ID: 9728146
Date: 2017-08-08
CPC Classifications: G09G

Claim:
1. A liquid-crystal display device comprising: a pixel electrode provided for each pixel; a common electrode for supplying a common potential to the pixel; a liquid crystal layer arranged between the pixel electrode and the common electrode; a driving circuit unit for supplying a pixel potential to the pixel electrode so that a driving voltage is applied between the common electrode and the pixel electrode; a status detection unit that detects a response speed of the liquid crystal layer; and a control unit that controls a gradation of the pixel by controlling the driving voltage, wherein the control unit switches between a first gradation control mode and a second gradation control mode based on a detection result from the status detection unit, the first gradation control mode is selected when the response speed of the liquid crystal layer is higher than a predetermined speed, and the second gradation control mode is selected when the response speed of the liquid crystal layer is not higher than the predetermined speed; wherein first voltage values of the first gradation control mode are a predetermined number of voltage values of the driving voltage from a minimum voltage value to a maximum voltage value, the first voltage values are associated with a plurality of first gradation values from a first minimum gradation value to a first maximum gradation value, and the first maximum gradation value is associated with the maximum voltage value; wherein second voltage values of the second gradation control mode are a plurality of voltage values from the minimum voltage value to a predetermined voltage value selected from the predetermined number of voltage values, the predetermined voltage value being smaller than the maximum voltage value; wherein the second voltage values are associated with a plurality of second gradation values from a second minimum gradation value to a second maximum gradation value that is associated with the predetermined voltage value and that is smaller than the maximum gradation value; wherein a total number of the second gradation values is smaller than a total number of the first gradation values, allowing the liquid-crystal display device to have a total number of displayable gradations in the second gradation control mode to be smaller than a total number of displayable gradations in the first gradation control mode; wherein third voltage values, which are selected from voltage values in a range greater than the predetermined voltage value to the maximum voltage value of the predetermined number of voltage values are set as voltage values for overdrive in the second gradation control mode; wherein the third voltage values are higher than the second voltage values and are associated with third gradation values that are in a range greater than the second maximum gradation value to the first maximum gradation value; wherein a correlation between second gradation values and voltage values in the second gradation control mode is the same as that in the first gradation control mode in a range from the minimum voltage value to the predetermined voltage value; wherein the first minimum gradation value and the second minimum gradation value that have an equal value are associated with the minimum voltage value; and wherein the second voltages corresponding to continuous second gradation values are the same as the first voltages corresponding to continuous first gradation values that are same as the continuous second gradation values.