JP3620900B2 - Liquid crystal display - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid crystal display device, and more particularly to a liquid crystal display device that requires improvement in response speed.
In recent years, thin displays have been used in various devices including notebook personal computers (personal computers) and word processors (word processors). Liquid crystal display devices are also required to have a high response speed in response to the demand for multimedia. In particular, STN liquid crystal display devices and birefringent liquid crystal display devices are strongly demanded to increase the response speed.
[0002]
[Prior art]
Conventionally, in order to realize a high-speed response in a liquid crystal display device, the viscosity of the liquid crystal is lowered, the cell gap is reduced, and the twist angle is increased. However, since the liquid crystal display device is limited in display quality, stability, manufacturing method, and the like, it is a reality that the response speed is not sufficient.
[0003]
That is, since the liquid crystal display device has a theoretical limit, a sufficient response speed cannot be obtained.
[0004]
[Problems to be solved by the invention]
As described above, a conventional liquid crystal display device has a problem in response speed. In particular, a super-twisted nematic (STN) type liquid crystal display device and a birefringent liquid crystal display device are used because of a slow response speed. Applications are limited. Here, the STN type liquid crystal display device is used as a low-cost large-capacity display by simple matrix driving, and the birefringence type liquid crystal display device can perform multicolor color display relatively stably with a simple configuration. Therefore, it is used as a display for measuring instruments.
[0005]
When scrolling or moving the cursor using a display device with a slow response speed, there is a problem that the display disappears.
The present invention relates to a liquid crystal display device that requires an improvement in response speed in view of the problems of the above-described conventional liquid crystal display device, and performs high-speed response when scrolling, moving a cursor, or displaying a moving image. The object is to easily improve display defects due to response speed. The application of the present invention is not limited to the above-described STN type liquid crystal display device and birefringence type liquid crystal display device, and can be applied to, for example, a TFT active matrix type liquid crystal display device. The response speed can be further improved.
[0006]
[Means for Solving the Problems]
According to the present invention, there is provided a liquid crystal display device including a display signal generation source that outputs display data, and a liquid crystal display that receives the display data and displays a predetermined image, to the liquid crystal display based on the display data. When scrolling, cursor movement, or high-speed response of moving images is required, the number of display gradations of display data from the display signal generation source is reduced, and the difference in voltage applied to the liquid crystal is increased. A display signal switching control means for converting the display data and supplying the converted display data to the liquid crystal display is provided.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
According to the liquid crystal display device of the present invention, when display on the liquid crystal display by display data requires scrolling, cursor movement, or high-speed response of moving images , display data from the display signal generation source is displayed by the display signal switching control means. The display data is converted and supplied to the liquid crystal display so that the difference in voltage applied to the liquid crystal is increased.
[0008]
Thereby, when scrolling, moving the cursor, or displaying a moving image, a high-speed response can be performed, and a display defect due to the response speed can be easily improved.
[0009]
【Example】
Embodiments of a liquid crystal display device according to the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing a principle configuration of a liquid crystal display device according to the present invention. In FIG. 1, reference numeral 10 denotes a display signal generation source such as a word processor or a personal computer, 20 denotes a liquid crystal display, and 30 denotes a display signal switching control unit.
[0010]
The display signal is output from the signal generation source 10 and input to the liquid crystal display 20 via the signal switching control unit 30. In the liquid crystal display device of the present embodiment, when a high-speed response is not required, the display signal is supplied to the liquid crystal display 20 as it is without converting the display signal in the signal switching control unit 30. On the other hand, when a high-speed response is required, for example, when scrolling, moving a cursor, or displaying a moving image, the signal switching control unit 30 receives a high-speed response recognition signal supplied from the signal generation source 10 and receives a display signal. The data is converted into predetermined data and supplied to the liquid crystal display 20.
[0011]
That is, when a high-speed response is required, the display signal supplied to the signal switching control unit 30 is supplied to the liquid crystal display 20 with the number of display gradations reduced, for example. As a result, the liquid crystal display 20 can perform high-speed display. Specifically, in the STN type liquid crystal display device, when a high-speed response is required, the high-speed response is enabled by reducing the number of display gradations.
[0012]
Further, when a high-speed response is necessary, the display signal supplied to the signal switching control unit 30 is supplied to the liquid crystal display 20 with the number of display colors reduced, for example. As a result, the liquid crystal display 20 can perform high-speed display. Specifically, in a birefringent liquid crystal display device, when a high-speed response is required, a high-speed response is enabled by reducing the number of display colors.
[0013]
This is because the response speed of the liquid crystal varies depending on the difference between the applied voltage in the frame and the applied voltage in the next frame, and the response speed of the liquid crystal increases as the voltage difference increases. Thus, when the high-speed response is required, the display gradation number (or number of display colors) to reduce the is the Fast Display becomes possible.
The liquid crystal display device of the present invention is not limited to the STN type liquid crystal display device and the birefringence type liquid crystal display device, but can be applied to a TFT active matrix type liquid crystal display device. In this case, the response speed can be further improved.
[0014]
As described above, according to the liquid crystal display device of the present embodiment, the high-speed response recognition signal supplied from the signal generation source 10 is necessary when high-speed display such as scrolling, cursor movement, or displaying a moving image is necessary. As a result, the data amount of the display signal is reduced and supplied to the liquid crystal display 20 for high-speed display.
FIG. 2 is a diagram for explaining the basic operation of the liquid crystal display device according to the present invention. In normal operation (when high-speed response is not required: FIG. 2A) and when high-speed response is required (FIG. 2) The relationship between the display gradation bit and the response speed in (b)) is shown. FIG. 3 shows an embodiment of the liquid crystal display device according to the present invention.
[0015]
First, when a high-speed response is not required, the high-speed response recognition signal S supplied to the signal switching control unit 30 shown in FIG. 3 is set to a high level “H”, thereby the display floor supplied from the display signal generation source 10. All the display data of the adjustment bits 0 to 6 are supplied to the liquid crystal display 20 as they are. At this time, the response speed of each display gradation bit is, for example, 20 msec. From display gradation 2 to 3 as shown in FIG. The display gradations 3 to 4 are 16 msec. It has become.
[0016]
On the other hand, when high-speed display is required such as scrolling, cursor movement, or displaying a moving image, the high-speed response recognition signal S supplied to the signal switching control unit 30 shown in FIG. Thus, the display data thinned out by the display gradation bits 0, 1, 3, 5 supplied from the display signal generation source 10 is supplied to the liquid crystal display 20. That is, the display data of the display gradation bits 2, 4, and 6 are converted into display data of the display gradation bits 1, 3, and 5, respectively. At this time, the response speed of each display gradation bit is, for example, 10 msec. From display gradation 1 to 3 as shown in FIG. In addition, the display gradation from 3 to 5 is 8 msec. It has become. Therefore, as apparent from the comparison between FIG. 2A and FIG. 2B, by converting the display gradation bit to be reduced, 20 msec. And 16 msec. Display data that requires a response speed of 10 msec. And 8 msec. It can be a high-speed response.
[0017]
Specifically, in FIG. 3, paying attention to the display gradation bits 1 and 2, when the high-speed response is unnecessary, the high-speed response recognition signal S is set to the high level “H”, so that it is displayed on one input. A high level signal “H” is supplied to the other input of the AND gate 34 to which the data signal (display data) of the gradation bit 2 is supplied, and the output of the AND gate 34 is the output of the display gradation bit 2. The data signal is output as it is. At this time, the data signal of the display gradation bit 2 is also supplied to one input of the AND gate 33, but the low level signal “L” is supplied to the other input of the AND gate 33 via the inverter 32. Therefore, the output of the AND gate 33 is held at the low level “L” regardless of the level of the data signal of the display gradation bit 2. Therefore, the data signal of the display gradation bit 1 is output as it is as the output of the OR gate 31 to which the data signal of the display gradation bit 1 and the output of the AND gate 33 are supplied. That is, when the high-speed response is not required, the high-speed response recognition signal S is set to the high level “H”, so that all the display data of the display gradation bits 0 to 6 supplied from the display signal generation source 10 are kept as they are. It is supplied to the play 20.
[0018]
Conversely, when high-speed display is required, the high-speed response recognition signal S is set to the low level “L”, so that the output of the AND gate 34 is low regardless of the level of the data signal of the display gradation bit 2. It is held at level “L”. At this time, the output of the AND gate 33 changes in the same manner as the data signal of the display gradation bit 2, and the output of the AND gate 33 is output as the data signal of the display gradation bit 1 through the OR gate 31. That is, if the level of one data signal of the display gradation bit 1 or 2 is high level “H”, the output of the OR gate 31 is also high level “H”. If high speed display is required, signal switching control is performed. The display data of the display gradation bits 1 and 2 input to the unit 30 are converted into display data of the display gradation bit 1 and output.
[0019]
FIG. 4 is a diagram schematically showing a modification of the liquid crystal display device according to the present invention.
As shown in FIG. 4, in this embodiment, the display signal switching control unit 30 is provided in the liquid crystal display 20, and the high-speed response setting signal (S) corresponding to the high-speed response recognition signal S is further displayed on the liquid crystal display. The setting is made by a switch 40 provided in the switch 20. Thereby, the user can set whether to give priority to the number of display gradations or the number of display colors or to give priority to the response speed as required.
[0020]
That is, in the embodiment shown in FIGS. 1 to 3 described above, when a high-speed response is required, the signal switching control unit 30 switches the display signal by the high-speed response recognition signal S from the display signal generation source 10. However, the display signal switching processing in the signal switching control unit 30 may be performed according to the high-speed response setting signal (high-speed response recognition signal S) by the switch 40.
[0021]
In the embodiment shown in FIG. 4, for example, in a birefringent liquid crystal display device, a case where a high-speed response is required even when the number of display colors is reduced, and a case where it is desired to increase the number of display colors even when the response speed is low, It is set by a switch 40 provided on the liquid crystal display 20. Specifically, high-speed display data (for example, a display pattern such as scroll) can be selected by the switch 40 provided on the liquid crystal display 20. Here, the switch 40 provided in the liquid crystal display 20 may be configured to select whether to input a high-speed response signal or not. Note that the configuration of the signal switching control unit 30 is the same as that in FIG.
[0022]
As described above, the liquid crystal display device of the present invention is not limited to the STN type liquid crystal display device and the birefringence type liquid crystal display device, but can be applied to a TFT active matrix type liquid crystal display device. .
[0023]
【The invention's effect】
As described above in detail, according to the liquid crystal display device of the present invention, it is possible to perform a high-speed response when scrolling, moving a cursor, or displaying a moving image, and easily improve display defects due to the response speed. be able to.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a principle configuration of a liquid crystal display device according to the present invention.
FIG. 2 is a diagram for explaining a basic operation of a liquid crystal display device according to the present invention.
FIG. 3 is a diagram showing an embodiment of a liquid crystal display device according to the present invention.
FIG. 4 is a diagram schematically showing a modification of the liquid crystal display device according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Display signal generation source 20 ... Liquid crystal display 30 ... Display signal switching control means 40 ... Switch S ... High-speed response recognition signal (high-speed response setting signal)

Claims (4)

A display signal generation source that outputs display data, and a liquid crystal display device that includes a liquid crystal display that receives the display data and displays a predetermined image,
When display on the liquid crystal display by the display data requires scrolling, cursor movement, or high-speed response of moving images, the number of display gradations of the display data from the display signal generation source is reduced and applied to the liquid crystal. A liquid crystal display device comprising: a display signal switching control means for converting the display data so as to increase the difference in voltage to be supplied to the liquid crystal display. The display signal switching control means receives a high-speed response recognition signal that is output when a high-speed response is required for the liquid crystal display, and converts the display data. Liquid crystal display device. 2. The liquid crystal display device according to claim 1 , wherein the liquid crystal display is an STN type liquid crystal display device. 2. The liquid crystal display device according to claim 1 , wherein the liquid crystal display is a birefringent liquid crystal display device.

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