JPH07121133A - Display device - Google Patents

Abstract

PURPOSE:To obtain the display device which is reducible in power consumption without spoiling the quality of a display image at a display part so much. CONSTITUTION:This display device is provided with a memory 13 which stores an image signal, supplied to a liquid crystal display panel 8 as a display part by one field, a comparator 14 which compares an image signal of a previous field read out of this memory 13 with an image signal of a current field supplied. from the liquid crystal display panel 8 and discriminates between a still picture display and a moving picture display, and a controller 15 driving the liquid crystal display panel 8 in thinning-out mode by a driver 9 once the comparator 14 decides a still picture by the comparison.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is particularly useful as a display device for portable information equipment, communication equipment, video equipment, game equipment and the like, and as display equipment for equipment mounted on moving bodies such as ships and automobiles. It is suitable for use.

[0002]

2. Description of the Related Art Conventionally, for example, a display device such as a portable personal computer used as a display unit uses a liquid crystal display panel of a TFT active matrix type in which a plurality of pixels are arranged in a matrix in horizontal and vertical directions. The liquid crystal display panel is supplied with a power supply voltage from a battery to be driven by a driver, in this case, a source and a gate driver, to display an image.

Specifically, in this liquid crystal display panel, as shown in FIG. 4, a plurality of signal electrodes 1, scanning electrodes 2, TFTs 3 and pixel electrodes 4 are formed in a matrix on one insulating substrate (not shown) side. At the same time, the common electrode 5 is formed on the other insulating substrate (not shown) side opposite to the common electrode 5, and the display by each pixel constituted by the liquid crystal layer interposed between the common electrode 5 and each pixel electrode 4 is displayed. The line-sequential scanning is performed by each signal electrode 1 and the scanning electrode 2.

For example, when a scanning voltage is applied from the gate driver 6 to the scanning electrode 2 of the first line, each TFT 3 of the first line connected thereto becomes conductive, and each pixel electrode 4 of the first line. The signal electrodes 1 are connected to the respective pixels, and a signal voltage (that is, an image signal) is applied from the source driver 7 to each pixel on the first line.
Therefore, an image signal for one field can be displayed on the liquid crystal display panel by repeating such an application operation (scan drive) sequentially from the first line in a horizontal cycle for each line. The image is reproduced by repeating every field, that is, in the vertical cycle. It is assumed that the signal voltage is polarity-reversed line by line and field by field so that no DC component is applied to the liquid crystal display panel.

[0005]

By the way, the liquid crystal driving voltage in such a display device is becoming higher due to the necessity of high duty, and the power supply voltage supplied to the liquid crystal display panel is set relatively high. ing. As a result, power consumption during image display increases, which is a problem for a display device such as a portable device having a limited power supply capacity such as a battery.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a display device capable of reducing power consumption without deteriorating the quality of a display image in the display section to the left. It is what

[0007]

In order to achieve the above object, according to the present invention, in a display device for driving a display unit by a driving unit to display an image signal, an image signal supplied to the display unit is Storage means for storing, comparison means for comparing the image signal read from this storage means with the image signal supplied to the display section to determine whether to display a still image or an operation image, and to display a still image by this comparison means. If it is compared and determined, the display unit is configured to be thinned by the driving unit. Specifically, the storage means stores one field of the image signal supplied to the display section, and the comparison means stores the image signal of the previous field read from the storage means and the current field supplied to the display section. It is to compare with the image signal of the field. Further, the display unit is a liquid crystal display panel, and the storage unit is a non-volatile memory.

[0008]

According to such a configuration, the display unit is normally driven during the display of a moving motion image to reproduce a high-definition image, thereby making it easy to see a moving image. Further, since there is no movement during display of a still image, a higher definition is not required to the left, and the visual afterimage effect can be utilized to the maximum extent. Therefore, the display unit is thinned out more than usual to maintain image display, for example. Power consumption is reduced by using the minimum required drive.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A display device of a personal computer using a liquid crystal display panel will be described below as an embodiment of the present invention with reference to the drawings. In this embodiment, the liquid crystal display panel is normally driven while the operation image is being displayed, but is thinned out while the still image is being displayed. For example, it is possible to suppress the drive to the minimum required to maintain the image display. Such a drive control function is added to the display device side so that it can correspond to the display of any device.

Specifically, it is constructed as shown in FIG. 1, and 8 is a plurality of pixels in the horizontal and vertical directions (in this case, 48 pixels).
(0 × 640 pixels) is a TFT active matrix type liquid crystal display panel, and 9 is a driver for driving the liquid crystal display panel 8 line-sequentially based on a timing signal from the controller 10 to display an image. It is composed of a gate driver that sequentially selects lines 480 to 480, and a source driver that applies an image signal to each pixel on the line selected by the gate driver, that is, 640 pixels.

Reference numeral 11 denotes a CPU on the personal computer side for controlling the image display on the liquid crystal display panel 8, and by controlling the timing signal output from the controller 10 in response to the operation key input on the keyboard side. It is designed to control the image display on. Reference numeral 12 is a controller for taking out an image signal supplied to the liquid crystal display panel 8 from the personal computer side and storing it in the memory 13. This memory 13 does not require a special battery backup device, and is a non-volatile memory such as EEPROM or FRAM. And the image signal supplied to the liquid crystal display panel 8 is 1
It is designed to store fields.

Reference numeral 14 compares the image signal of the current field supplied to the liquid crystal display panel 8 with the image signal of the previous field read from the memory 13 to determine whether it is an operation image display such as screen scrolling or a still image display. With a comparator,
If the image signal of the current field is not different from the image signal of the previous field, that is, if the image signal is not updated, it is determined to be still image display, and conversely, if the image signal differs by one pixel during comparison, the operation image display is performed. It is determined to be. Reference numeral 15 is a controller for controlling the driving of the liquid crystal display panel 8 by the driver 9 based on the comparison judgment by the comparator 14, and when the comparison judgment is for still image display, the controller 9 is controlled to drive the liquid crystal display panel 8. Is driven in a pixel unit, a line unit, or a field unit to suppress the drive to the minimum required to maintain image display. By the thinning drive,
In order to prevent a direct current component from being applied to the liquid crystal display panel 8, it is assumed that measures are taken such as shifting the thinned portion in pixel units, line units, or field units.

Therefore, when the image signal of the operation image is supplied to the display device having such a configuration, the image signal of the current field supplied from the driver 9 to the liquid crystal display panel 8 and the image signal of the current field are stored in the memory 13. The image signal in the previous field does not become the same, that is, the image signal is updated for each field, and the comparator 14 makes a comparison determination as an operation image display. Therefore, in such a case, the liquid crystal display panel 8 is normally driven by the controller 15 so as not to hinder the operation image display, that is, the first to 480th lines are sequentially selected. By applying an image signal to each of the 640 pixels on the selected line and repeating this for each field, an image with high definition is reproduced.

On the contrary, when the image signal of the still image is supplied to the display device, the image signal of the current field supplied to the liquid crystal display panel 8 from the driver 9 and the image of the previous field stored in the memory 13. The signal becomes the same, and the comparator 14 makes a comparative determination as to the still image display. Therefore, the controller 1
5, the driving of the liquid crystal display panel 8 can be thinned out to the minimum required driving for maintaining the image display, and the power consumption can be reduced accordingly.

Next, FIG. 2 is a flow chart for explaining such drive control. As shown in FIG.
The predetermined line number in the vertical (Y) direction of the liquid crystal display panel 8 of 0 × 640 pixels is Ym, and the predetermined pixel number in the horizontal (X) direction on that line is Xn. For example, in step # 5, i
If the image signal of the -1st field is displayed on the liquid crystal display panel 8, then at step # 10, the i-1
The image signal of the th field is stored in the memory 13. Before the image signal of the next i-th field is displayed on the liquid crystal display panel 8 in step # 20, the image signal of the i-th field is stored in the memory 13 in step # 10. The image signal of the (i-1) th field is compared.

If the two image signals are not the same, for example, the image signal X of the (i-1) th field during the comparison is calculated.
If (i-1) n, Y (i-1) m and the image signals X (i) n, Y (i) m of the i-th field do not match,
Assuming that it is an operation image, the process proceeds to step # 45 to drive the liquid crystal display panel 8 normally, and the image signal of the i-th field is displayed in step # 20. On the contrary, if both image signals are the same, it is determined that the image is a still image, and the process proceeds to step # 50 to drive the liquid crystal display panel 8 to be thinned out.
Step # 20 for displaying the image signal of the i-th field
Let's do it in.

Then, in step # 25, the image signal of the i-th field is stored in the memory 13, and the same operation is repeated thereafter. That is, step #
Before the image signal of the next (i + 1) th field is displayed on the liquid crystal display panel 8 in step 35, the i
The image signal of the + 1st field is compared with the image signal of the i-th field stored in the memory 13 in step # 25, and the process proceeds to step # 45 or # 50 depending on the comparison result, and in step # 40. Similarly, the image signal of the (i + 1) th field is stored in the memory 13.

In this embodiment, the liquid crystal display panel has a T
The case of FT has been described, but the case of STN is also acceptable.
In that case, the liquid crystal display panel is driven by the segment driver and the common driver. Further, a picture tube, a light emitting diode, a plasma display, or the like may be used as the display unit, and in these cases as well, the power consumption is reduced by thinning driving when displaying a still image. .

[0019]

As described above, according to the display device of the present invention, when the operation image is displayed, the liquid crystal display panel is normally driven so that the operation image display is not hindered. At the same time, when displaying a still image, the liquid crystal display panel is decimated to reduce power consumption, so that it is possible to realize a low power consumption display device with almost no deterioration in image quality.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of the present invention.

FIG. 2 is a diagram for explaining the drive control.

FIG. 3 is a diagram showing predetermined line numbers and pixel numbers of the liquid crystal display panel.

FIG. 4 is a diagram showing an example of driving a conventional liquid crystal display panel.

[Explanation of symbols]

 8 LCD display panel 9 Driver 13 Memory 14 Comparator 15 Controller

Claims (3)

[Claims] 1. A display device in which a display unit is driven by a driving unit to display an image signal, and a storage unit for storing the image signal supplied to the display unit and an image signal read from the storage unit. A comparison means for comparing the image signal supplied to the display unit to determine whether to display a still image or an operation image, and when the comparison unit determines to display a still image, the display unit is thinned out by the driving unit. A display device comprising: a control unit for driving the display device. 2. A display device for driving a display unit by a driving unit to display an image signal, and a storage unit for storing an image signal supplied to the display unit for one field, and read from the storage unit. A comparison means for comparing the image signal of the previous field with the image signal of the current field supplied to the display section to determine whether it is a still image display or an operating image display, and this comparison means compares and determines that the image is a still image display. Then, the display device is provided with a control unit for driving the display unit to be thinned by the driving unit. 3. The display device according to claim 1, wherein the display unit is a liquid crystal display panel, and the storage unit is a non-volatile memory.