Multi-display device

What is claimed is: 1 . A multi-display device comprising: a plurality of display modules including a plurality of display panels and a plurality of display driving integrated circuits, respectively, the plurality of display modules configured to perform a display panel self-refresh operation, one of the display modules being a master display module and the rest of the display modules being slave display modules, the slave display modules configured to adjust a vertical blank period thereof based on a reference tearing effect control signal output from the master display module; and a host controller configured to control the display modules and provide image data to the display modules. 2 . The device of claim 1 , wherein the master display module is selected from among the display modules based on a master selection signal received from an external component or an algorithm, which is stored in a non-transitory computer-readable medium and is configured to be executed by a processor. 3 . The device of claim 2 , wherein each of the display modules is configured to generate a tearing effect control signal and includes an input/output terminal for sharing the tearing effect control signal among the display modules, and wherein the tearing effect control signal generated by the master display module from among the display modules is determined as the reference tearing effect control signal. 4 . The device of claim 3 , wherein the master display module is configured to perform a display operation and some or all of the slave display modules is configured to perform the display operation when the multi-display device operates. 5 . The device of claim 1 , wherein each of the slave display modules is configured to set a vertical blank start point of the vertical blank period to be a reference vertical blank start point indicated by the reference tearing effect control signal. 6 . The device of claim 5 , wherein each of the slave display modules is configured to compare a vertical blank end point of the vertical blank period with a reference vertical blank end point indicated by the reference tearing effect control signal in each frame, and count an interval between the vertical blank end point and the reference vertical blank end point with an internal clock signal. 7 . The device of claim 6 , wherein each of the slave display modules is configured to move the vertical blank end point to be placed before the reference vertical blank end point in a (k+1)th frame, where k is an integer greater than or equal to 1, when the vertical blank end point is placed after the reference vertical blank end point in a (k)th frame. 8 . The device of claim 6 , wherein each of the slave display modules is configured to move the vertical blank end point to be placed at the reference vertical blank end point or before the reference vertical blank end point by decreasing the vertical blank period by more than a number of counted clocks of the internal clock signal. 9 . The device of claim 6 , wherein each of the slave display modules is configured to move the vertical blank end point to be placed at the reference vertical blank end point or before the reference vertical blank end point by decreasing the vertical blank period by decreasing a horizontal blank period. 10 . The device of claim 6 , wherein each of the slave display modules is configured to maintain the vertical blank end point in a (k+1)th frame, where k is an integer greater than or equal to 1, when the vertical blank end point is placed at the reference vertical blank end point or before the reference vertical blank end point in a (k)th frame. 11 . The device of claim 6 , wherein each of the slave display modules is configured to move the vertical blank end point to a selection point that precedes the reference vertical blank end point by a distance in a (k+1)th frame, where k is an integer greater than or equal to 1, when the vertical blank end point is placed before the reference vertical blank end point in a (k)th frame. 12 . The device of claim 11 , wherein each of the slave display modules is configured to move the vertical blank end point to the selection point by increasing the vertical blank period. 13 . The device of claim 11 , wherein each of the slave display modules is configured to move the vertical blank end point to the selection point by increasing the vertical blank period by increasing a horizontal blank period. 14 . The device of claim 1 , wherein the multi-display device is configured to operate based on a point-to-point interface, which enables the host controller to separately provide the image data to the display modules. 15 . The device of claim 1 , wherein the multi-display device is configured to operate based on a multi-drop interface, which enables the host controller to concurrently provide the image data to the display modules. 16 . A multi-display device including a plurality of display modules configured to perform a display panel self-refresh operation, the display modules each including a display panel and a display driving integrated circuit, the multi-display device comprising: a master display module selected from among the display modules, the master display module configured to output a reference tearing effect control signal; at least one slave display module configured to adjust a vertical blank period based on the reference tearing effect control signal; and a host controller configured to control the display modules and provide image data to the display modules, 17 . The multi-display device of claim 16 , wherein the master display module is selected from among the display modules based on a master selection signal received from an external component or an algorithm, which is stored in a non-transitory computer-readable medium and is configured to be executed by a processor. 18 . The multi-display device of claim 16 , wherein the at least one slave display module is configured to, set a vertical blank start point of the vertical blank period to be a reference vertical blank start point indicated by the reference tearing effect control signal, compare a vertical blank end point of the vertical blank period with a reference vertical blank end point indicated by the reference tearing effect control signal in each frame, count an interval between the vertical blank end point and the reference vertical blank end point with an internal clock signal, and at least one of move and maintain the vertical blank end point in a (k+1)th frame, where k is an integer greater than or equal to 1, with respect to the reference vertical blank end point depending on whether the vertical blank end point is placed before, at, or after the reference vertical blank end point in a (k)th frame. 19 . The multi-display device of claim 18 , wherein when the vertical blank end point is placed before the reference vertical blank end point in the (k)th frame, the at least one slave display module is configured to move the vertical blank end point to a selection point, which precedes the reference vertical blank end point, in the (k+1)th frame by one of increasing the vertical blank period and increasing the vertical blank period by increasing a horizontal blank period. 20 . The multi-display device of claim 18 , wherein when the interval in the (k)th frame is smaller than a threshold value, the at least one slave display module is configured to maintain the vertical blank period in the (k+1)th frame.