JP2012230168A5 - - Google Patents

Description

The control unit 3 specifies the failure position from the failure information of the driver IC 41 transmitted from the display unit 4 and adds an offset (shift) to the video data transmitted from the previous video controller 2 or The lighting data to be transmitted to the driver IC 41 of the display unit 4 without being added is generated.
That is, in the case of video data (still image mode) in which the video data transmitted from the video controller 2 is reduced and displayed as a countermeasure against a failure, the control unit 3 bypasses the faulty driver IC for the video data. To generate lighting data that is displayed without adding an offset. On the other hand, when the video data transmitted from the video controller 2 is normal display video data (moving image mode), the lighting data that is displayed with the offset added to the video data by bypassing the failed driver IC is generated. To.

The above configuration will be described with reference to FIG. 3 schematically showing the effect of the present invention. In FIG. 3, five display unit units 4a to 4e are cascaded to form one video display device, and the number of connected units is not limited to this.
The video display device configured as described above displays video signals from the video source 1 on the display units 4a to 4e. In the normal display state of the display unit 4a-4e, as shown in FIG. 3A, the information from the alphabet "A" to "O" is displayed normally without being reduced.

The above operation will be described in detail based on FIGS. 4 to 7 by dividing it into a still image mode and a moving image mode. FIG. 4 is a diagram showing a still image mode driving system according to the present invention. FIG. 4 (a) of the plurality of display units 4 constituting the image display device, one display section unit 4 indicates (DU1), an internal configuration of FIG. 4 (b) the display section unit 4 (DU1) are shown, FIG. 4 (c) is a diagram showing the data and display state in the image controller 2, the controller unit 3 and the display section unit 4.

A plurality of driver IC 41 (Dr) is mounted on the display section unit 4 (DU1) as shown in Figure 4 (a). Each driver IC 41 (Dr) is in charge of a video display area, and the display area of the figure shows the display area of the driver IC 41 (Dr 13).
Further, as shown in FIG. 4B, when the driver IC 41 (Dr) enters an error state, each outputs an error signal. This error signal is transmitted to the host only when the three-state IC 45A, which is the failure information transmission means 45, is active.

Figure 4 (c) and the display section unit 4b (DU2) driver is driving the lower left 1/3 of the IC 41 (DR13), the driver is driving the right middle 1/3 IC 41 and (DR32), the display unit It shows video data and a display state when it is detected that three locations of the driver IC 41 (Dr22) driving the middle part ３ of the unit 4c (DU3) are broken.

In the still image mode, the video data from the video controller 2 is reduced and output so that the video display range is reduced from the width of five display units to four as is apparent from the figure before and after adjustment. The On the other hand, the control unit 3 gives a bypass instruction to the selection circuit 43 for all the driver ICs 41 in the column of the failed driver ICs 41. Further, in the case of the still image mode, the control unit 3 does not offset the display area of the failed driver IC 41 (does not add an offset) and does not adjust the video data transmitted from the video controller 2 and does not adjust the lighting data. Is generated.
By doing so, as shown at the bottom of FIG. 4 (c), but part of the display area in charge of the failed driver IC41 is not displayed, the alphabet over the entire display section unit 4a~4e Information from “A” to “O” is displayed as a reduced video.

FIG. 5 is a diagram showing a moving image mode driving system according to the present invention. 5A shows one display unit 4 (DU1) among the plurality of display units 4 constituting the video display device, FIG. 5B shows the internal configuration of the display unit 4 (DU1), Figure 5 (c) is a diagram showing the data and display state in the image controller 2, the controller unit 3 and the display section unit 4.

Figure 5 (a) and as shown in FIG. 5 (b), a plurality of driver IC 41 (Dr) is mounted on the Fig. 4 in the same manner as the display portion unit 4 (DU1), the driver IC 41 (Dr) is in an error state Then, each outputs an error signal. This error signal is transmitted to the host only when the three-state IC 45A, which is the failure information transmission means 45, is active based on the same theory as the still image mode of FIG. 4, so that the position of the failed driver IC 41 can be grasped. .

FIG. 5 (c) As with the still image mode in FIG. 4, a driver IC 41 (DR13) is driving the lower left 1/3 of the display section unit 4b (DU2), and drive the right middle 1/3 and in which the driver IC 41 (DR32), the video data and the display state when three of the middle portion 1/3 driver is driving the IC41 (Dr22) is detected to have a failure of the display section unit 4c (DU3) Show.

In the moving image mode, the video data from the video controller 2 is processed and output as normal normal video data as in the case where the driver IC 41 is not broken as is apparent from the figure. On the other hand, the control unit 3 gives a bypass instruction to the selection circuit 43 for all the driver ICs 41 in the column of the failed driver IC 41. Furthermore, in the case of the moving image mode, the control unit 3 adds an offset to the display area of the failed driver IC 41 and does not adjust the video data transmitted from the video controller 2. In this way, the lighting data of the control unit 3 is not obtained from the images of the alphabets “D”, “F”, and “H”, which are display area information corresponding to the failed driver IC, as is apparent from the drawings before and after adjustment. The lighting data displayed is generated.
By doing so, as shown at the bottom of Fig. 5 (c), but part of the display area in charge of the failed driver IC41 becomes those lacking in hidden, the entire display section unit 4a~4e The information from the alphabet “A” to “O” (but without “D”, “F”, and “H”) is displayed as video.

Next, an offset method in the control unit 3 will be described with reference to FIG. 6 (a) shows a determination method of a display area of the driver IC41 is responsible, the case where one display unit unit 4 displays the three-letter alphabet "A", "B", "C" in the column direction.
The coordinates of the four corners of the display area (A is displayed) handled by the driver IC 41 in the left column
(001,001) (100,001) (001,100) (100,100)
The coordinates of the four corners of the display area (displayed B) that the driver IC 41 in the middle row is responsible for
(101,001) (200,001) (101,100) (200,100)
The coordinates of the four corners of the display area (display C) that the driver IC 41 in the right column is responsible for
(201,001) (300,001) (201,100) (300,100) is set.