JP3441609B2 - LCD controller - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an OA (office automation) such as a computer and a word processor.
The present invention relates to a liquid crystal display controller that is used in equipment and the like and performs display control of a display device that uses liquid crystal in a display unit.

[0002]

2. Description of the Related Art In recent years, a liquid crystal display device using a liquid crystal as a display portion has been used for a display device such as a portable computer. In particular, a liquid crystal display device using a TFT is used for a display device that requires high-speed display. On the other hand, a liquid crystal display device such as STN is used for an inexpensive display device, but this liquid crystal display device operates by an effective voltage for a certain time (Sharp Technique No. 56, June 1993, 61-61).
See page 64). Further, as a driving method of the simple matrix liquid crystal, there are an inversion method for improving display quality, a plural simultaneous driving method (see the above sharp technique), and the like.

[0003]

The liquid crystal display device using the above TFT is expensive in device cost. Further, since the inexpensive liquid crystal display device such as STN operates by an effective voltage for a certain period of time, in a current computer where image information is updated 60 times or more per second, scrolling, displaying a mouse, etc. should be performed normally. I can't. In other words, in this liquid crystal display device, the image information changes for each display, and the next new image information is applied before each dot of the liquid crystal is turned on / off by the image information, resulting in a totally blurred display. Or you may lose sight of the mouse. In the simple matrix liquid crystal driving method such as the inversion method and the plural simultaneous driving method, the driving I
There is a cost problem such as newly developing C. As described above, the conventional liquid crystal display device does not consider the cost and the display quality.

An object of the present invention is to provide a liquid crystal display controller which can reduce the cost and improve the display quality.

[0005]

In order to achieve the above object, the invention according to claim 1 is a liquid crystal display controller for controlling display of a display device using liquid crystal in a display section,
A storage function for storing at least two screens of display data, and one screen of display data is obtained from the two or more screens of display data stored by this storage function, and the display data is stored in at least the display device. A function of performing the same display for a period of two or more screens and an average value of at least two screens or more of display data stored by the storage function by processing the display data stored by the storage function The calculation unit is provided with the average value obtained and displayed on the display device, so that the cost can be reduced and the display quality can be improved.

The invention according to claim 2 uses a liquid crystal for the display section.
LCD controller that controls the display of the old display device
Store at least two screens of display data
Memory function and two or more screens stored by this memory function
Display data for one screen is obtained from the display data
Data for at least 2 screens on the display device
Between the frame and the function to display the same
A detecting means for detecting the number of changing pixels;
The ratio of the number of pixels detected by the detection means to the total number of pixels
Depending on the combination, the small
Display the average value of the display data for two or more screens at least
And the same display over a period of at least two screens
The are those having a function of switching, it is possible to improve the cost and display quality, by detecting the ratio of pixel with respect to the entire screen of the number of pixels that change on the screen, the status screen to be used Accordingly, the visibility of the updated pixel can be improved, and a display with high visibility can be obtained.

The invention according to claim 3 is the liquid according to claim 1.
In the crystal display controller, it is stored by the storage function.
The number of display data screens can be adjusted externally
It has a mechanism to improve the visibility of the updated image.
The user can adjust the degree of
It is possible to display an image suitable for.

The invention according to claim 4 is the liquid according to claim 3.
In the crystal display controller, stored in the memory function
The number of frames to output the same display data or
The number of screens of display data stored by the storage function can be rewritten
It is stored in an available storage medium and can be set by the user.
The degree of improvement in visibility of updated pixels can be rewritten
Setting conditions are updated and reproduced by storing them in various storage media
It is possible to obtain an image display suitable for the user.
it can.

The invention according to claim 5 is the liquid according to claim 1.
In the crystal display controller, the image that changes between frames
The detection means for detecting the prime number and the image detected by this detection means
The same display data stored in the storage function according to the prime number
The number of frames to output the data or the memory function
That function of changing the number of screens of the display data and also equipped with is at <br/> of, picture for the entire screen of the number of pixels to be changed on the screen
Detects the ratio of the prime and updates according to the situation of the screen used
It is possible to improve the visibility of pixels,
You can get a high display.

The invention according to claim 6 is the liquid according to claim 5.
In the crystal display controller, detected by the detection means
As the number of pixels increases, the same table stored in the memory function is stored.
Number of frames to output display data or the storage function
Increase the number of screens of display data to be stored in
A function for outputting the same display data stored in the storage function.
Number of frames or display data stored by the storage function
And the number of screens of the upper limit that is 20 frames, the screen
Detects the ratio of pixels to the entire screen with the number of pixels changing above
The visibility of the updated pixels according to the screen conditions used.
It is possible to improve and obtain a highly visible display.
be able to.

The invention according to claim 7 is the liquid according to claim 2.
In the crystal display controller, detected by the detection means
If the number of pixels is less than 1% of the total number of pixels,
At least two images stored by the storage function for pixels
Display the average value of the display data over the surface area on the display device
Otherwise, the display stored by the storage function in the other cases
The number of screens for display data is the same as the period during which the display data is displayed.
Is intended to perform the display one pixel that changes on the screen
Of the number of pixels in the entire screen
It is possible to improve the visibility of updated pixels according to the surface condition.
This makes it possible to obtain a highly visible display.

The invention according to claim 8 is the invention of claims 1 to 7.
The liquid crystal display controller described in one of the above, and this liquid crystal
The display device whose display is controlled by the display controller.
And a storage device, and any one of claims 1 to 7 is provided.
Excellent display due to the effect of the liquid crystal display controller described in
Performance is obtained.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention is a liquid crystal display controller for controlling the display of a liquid crystal display device using a liquid crystal for a display section, and in particular, a liquid crystal panel having low response is used.
It has a function of improving the visibility with respect to a display whose display state is continuously changed (scroll, display of mouse, cursor, etc.).

FIG. 1 shows a first embodiment of the present invention. The first embodiment is an embodiment of the invention according to claim 1, and as an element, an image control unit 11 and a display controller 12 as a control unit, an image memory 13, and 1.
4 has a calculation unit 15. In the first embodiment, the logic circuit unit including the image control unit 11, the display controller 12, and the calculation unit 15 is a CPLD manufactured by Lattice Co.
Image memory 1 using isp1000 series
As for 3 and 14, a FIFO D42280GU manufactured by NEC is used.

Image data as display data input from the outside to the image control unit 11 by a computer or the like is updated for each frame. If this image data is directly input to a liquid crystal display device having a slow response speed, especially for image data updated for each frame, the liquid crystal molecules of the liquid crystal display device will be updated to the next new image before responding to the image data. Data is input, and the liquid crystal display device cannot display normally.

Therefore, in the first embodiment, the image control unit 11 manages the input / output of the image data input from the outside to the image memory 13, and temporarily stores the image data input from the outside in the image memory 13. After storing one frame, for example, four frames, this is read from the image memory 13 and processed by the calculation unit 15 to store one frame of image data in the display image memory 14, and the display controller 12 stores the image data in the image memory 14. The contents are output to the liquid crystal display device and displayed. As described above, in the first embodiment,
A function of inputting image data input from the outside into the image memory 14 as a memory element and storing the image data, and reading out the image data stored in the image memory 14 to the liquid crystal display device for a period of 4 frames (by the liquid crystal display device). A period for displaying image data for four frames: a period for displaying the same one frame of image data over the number of frames of the image data stored in the image memory 13 (a period for displaying image data by the liquid crystal display device).

FIG. 2 is a timing chart showing the operation timing of the first embodiment. Image control unit 11
Are image data input from an external host computer ... Image data of n-4 to n + 4 ... (n-4 to n + 4 indicate image data of each frame number).
4 frames of image data are sequentially stored in the memory, and the image data of 4 frames are read from the image memory 13 and output to the arithmetic unit 15.

The calculation unit 15 extracts the image data ... N-4, n, n + 4 ... One frame each from the image data of four frames from the image memory 13 and stores them in the image memory 14. The display controller 12 uses the same one frame of image data ... n from the image memory 14.
-4, n, n + 4, etc. are read four times and output to the liquid crystal display device for the same display for a period of 4 frames (a period in which image data display by the liquid crystal display device is performed for 4 frames: image memory 13 The period of time during which the image data is displayed by the liquid crystal display device by the number of frames of the image data stored in 1).

A comparative example of a liquid crystal display controller for storing image data input from an external host computer in an image memory, reading the image data from the image memory, and outputting the image data to a liquid crystal display device is provided with the same parts as the first embodiment. The display timing was adjusted to the timing of the liquid crystal display device. For this comparative example and the first embodiment, in order to confirm the action, the text was scrolled and the mouse and the cursor were moved.
As a result, in the first embodiment, it was confirmed that the visibility at the time of updating the image data was improved as compared with the comparative example.

As described above, the first embodiment is an embodiment of the invention according to claim 1, and in the liquid crystal display controller for controlling the display of the liquid crystal display device using the liquid crystal in the display section, the display data is displayed. An image memory 13 as a storage function for storing and an arithmetic unit 15, an image memory 14, and a display controller 12 as a function for outputting the same display data stored in the storage function 13 for a period of at least two frames or more. Since the liquid crystal display device that operates with the effective voltage displays the same image for a period of two screens or more, it has an effect of improving the effective voltage of each pixel for an image that is continuously updated. The liquid crystal display device can perform display with high visibility, and cost reduction and display quality improvement can be achieved.

FIG. 3 shows a second embodiment of the present invention. The second embodiment is an embodiment of the invention according to claim 2, in which a plurality of frames of image data input from the outside are
For example, the function of storing four frames and the four for each pixel
It has a function of outputting an average value of ON / OFF of image data for frames as a gradation signal of the liquid crystal display device.

FIG. 4 is a timing chart showing the operation timing of the second embodiment. In the second embodiment, the arithmetic unit 16 is used instead of the arithmetic unit 15 in the first embodiment. The image control unit 11 receives image data input from an external host computer ... n-4 to n + 4.
.. are sequentially stored in the image memory 13 for 4 frames each, and the image data for 4 frames are read from the image memory 13 and output to the arithmetic unit 15.

The calculation unit 16 calculates an average value for each pixel of the image data for four frames from the image memory 13, and displays the average value for each pixel of the image data for four frames for one frame. Image memory 14 as data for use
To store. The display controller 12 repeatedly reads out the display data for one frame (the average value of each pixel of the image data for four frames) four times from the image memory 14 and outputs it as a gradation signal to the liquid crystal display device. The same display is performed for a period of 4 frames (a period in which image data is displayed by the liquid crystal display device for 4 frames: a period in which image data is displayed by the liquid crystal display device by the number of frames of the image data stored in the image memory 13). . In this case, as a gradation display method of the liquid crystal display device, a method of modulating each of pulse width, voltage, and frame by a gradation signal can be used.

In order to confirm the operation of the second embodiment, the comparative example was used and evaluated in the same manner as the first embodiment. As a result, in the second embodiment, the visibility at the time of updating the image is higher than that of the comparative example. Was confirmed to have improved.

This second embodiment is an embodiment of the invention according to claim 2, and in the liquid crystal display controller of the first embodiment, image data as display data stored in the image memory 13 as a storage function. Is processed to obtain an average value of display data for at least two screens stored by the storage function 13 for each pixel, and the arithmetic unit 16 for displaying the average value on the liquid crystal display device is provided. The pixel for which the image has been updated in a period of a plurality of frames (a period in which image data is displayed for four frames: a period in which image data is displayed by the liquid crystal display device by the number of frames of the image data stored in the image memory 13) By displaying the tones, it is possible to display the image position being updated with the density corresponding to the movement amount, and to make the liquid crystal display device display with high visibility. Can, it is possible to improve the cost and display quality.

FIG. 5 shows a third embodiment of the present invention. The third embodiment is an embodiment of the invention according to claim 3, in which image data input from the outside is divided into a plurality of frames,
For example, a function of storing 20 frames, a function of adjusting the number of frames (the number of frames displaying the same screen) to be stored in the image data storage function by an externally input TTL level input signal, and each pixel, It has a function of outputting the average value of ON / OFF of the stored image data of a plurality of frames as a gradation signal of the liquid crystal display device. In the third embodiment, the image control unit 17 and the display controller 12 as the control means, which are the constituent elements, and the image memory 1 are provided.
8, 14, arithmetic unit 19, EEPROM 20, EEPROM
It has an M control unit 21.

The image control unit 17 sequentially stores the image data input from the outside in the image memory 18 for each 20 frames, reads the image data for 20 frames from the image memory 18, and outputs the image data to the arithmetic unit 19. The TTL level storage frame number setting signal input from the outside is converted into write data and an input / output control signal for the EEPROM 20 by the EEPROM control unit 21, and is converted into an E signal.
The write data input to the EPROM 20 is EEPR.
Input / output to / from the OM 20.

The operation unit 19 reads E from the image data of 20 frames read from the image memory 18 and input.
Image data is taken out according to the number of frames displaying the same screen according to the write data from the EPROM 20, and an average value of ON / OFF (1, 0) is calculated for each pixel for the image data of the number of frames displaying the same screen. Then, the average value is stored in the image memory 14 as display data. The display controller 12 repeatedly reads the average value from the image memory 14 by the number of frames for displaying the same screen described above and outputs the average value to the liquid crystal display device as a grayscale signal, thereby displaying the same screen on the liquid crystal display device. The same number is displayed. In this case, as the gradation display method of the liquid crystal display device, a pulse width by a gradation signal,
A method of performing each modulation of voltage and frame can be used.

In order to confirm the operation of the third embodiment, the comparative example was used and evaluated in the same manner as in the first embodiment. As a result, in the third embodiment, the visibility at the time of image updating is higher than that of the comparative example. Was confirmed to have improved. In addition, when the number of pixels to be updated is large as in the case of scrolling the entire screen, the number of frames displaying the same screen is set to 5 to 10
The liquid crystal display device can display with high visibility when it is set as a frame, and when the number of updated pixels such as the cursor is small, the liquid crystal display device can be displayed when the number of frames displaying the same screen is 4 frames or less. Was found to display with high visibility.

As described above, the third embodiment is an embodiment of the invention according to claim 3, and in the liquid crystal display controller according to claim 1, the image memory 1 as a storage function.
4, the arithmetic unit 19 and EEP as a mechanism capable of externally adjusting the number of frames for outputting the same display data stored therein.
Since the ROM 20 and the EEPROM control unit 21 are provided, the user can arbitrarily adjust the degree of visibility improvement of the updated image by changing the storage frame number setting signal, and perform an image display suitable for the user. It becomes possible.

A fourth embodiment of the present invention is an embodiment of the invention according to claim 4, and in the second embodiment, the number of screens of display data stored in the image memory 13 as a storage function is externally changed. A mechanism capable of adjustment is provided, and a TTL level storage screen number setting signal input from the outside is substantially the same as in the fourth embodiment.
The control section converts the write data to the EEPROM and the input / output control signal into the EEPROM, and the write data is input / output to / from the EEPROM. The image control unit 11 stores the image data input from the outside in the image memory 13 for the number of screens corresponding to the write data from the EEPROM, reads the image data from the image memory 13 and outputs the image data to the arithmetic unit 16.

The fourth embodiment is an embodiment of the invention according to claim 4, wherein in the liquid crystal display controller according to claim 2, the number of screens of display data stored in the image memory 13 as a storage function is set. Since the EEPROM and the EEPROM control section are provided as a mechanism that can be adjusted from the outside, the user can arbitrarily adjust the degree of visibility improvement of the updated image by changing the storage screen number setting signal. It is possible to display an image suitable for the user.

A fifth embodiment of the present invention is an embodiment of the invention according to claim 5, and in the third embodiment, a frame for outputting the same display data stored in the image memory 14 as a storage function. The number (the number of frames for displaying the same screen by the same display data stored in the image memory 14) is stored in a rewritable storage medium and reproduced. EEPROM control unit 21
Is the EEPROM that receives the data input from the outside and switches the number of frames for displaying the same screen to 2 to 8 frames.
20 and reproduces the data from the EEPROM 20 and outputs it to the arithmetic unit 19. The arithmetic unit 19 determines the number of frames for displaying the same screen in accordance with the data for switching the number of frames for displaying the same screen from the EEPROM 20 out of the image data for 20 frames read and input from the image memory 18. Image data is taken out, an average value of ON / OFF (1, 0) is calculated for each pixel for the image data of the number of frames for displaying the same screen, and the average value is stored in the image memory 14 as display data. .

In order to confirm the operation of the fifth embodiment, the comparative example was used and evaluated in the same manner as in the first embodiment. The EE in the fifth embodiment is higher than that in the comparative example.
From the data from the PROM 20, it has been found that the number of frames displaying the same screen can be switched according to the state of the screen to be displayed, and operability and visibility are improved.

In the fifth embodiment, the number of frames for outputting the same display data stored in the image memory 14 (the number of frames for displaying the same screen by the same display data stored in the image memory 14) is determined. Alternatively, the number of screens of the display data stored in the image memory 18 may be stored in the EEPROM 20 as a rewritable storage medium and reproduced. In this case, the image control unit 17 sequentially stores the image data input from the outside in the image memory 18 by the number of screens corresponding to the data from the EEPROM, reads the image data from the image memory 18, and calculates the calculation unit 19 Output to.

Thus, in the embodiment of the invention according to claim 5, in the liquid crystal display controller according to claim 3 or 4, the number of frames for outputting the same display data stored in the image memory 14 as a storage function. Alternatively, since the number of screens of the display data stored in the image memory 18 having a storage function is stored in the rewritable storage medium 20,
By storing in the rewritable storage medium the degree of visibility improvement of the updated pixel set by the user, the setting conditions can be updated and reproduced, and an image display suitable for the user can be obtained.

A sixth embodiment of the present invention is an embodiment of the invention according to claims 6 and 7, and uses the function of sequentially storing image data input from the outside for every 7 screens and a comparator, The function of detecting the updated number of pixels of each pixel from the image data stored in the storage function, and the storage function by increasing the number of updated pixels with respect to the total number of pixels using the output signal of the comparator. And a function of increasing the number of screens of image data stored in.

In the sixth embodiment, in the second embodiment, the image control unit 11 sequentially stores the image data input from the outside in the image memory 13 for seven screens each, and the image memory 13 displays seven screens. The minute image data is read and output to the calculation unit 16. Further, the image control unit 11 detects the number of pixels (the number of updated pixels of each pixel) that changes between frames by using a comparator for the image data of seven screens stored in the image memory 13,
The number of frames of image data stored in the image memory 13 is increased according to the increase in the number of pixels. The image control unit 11 sets the upper limit of the frame of the image data stored in the image memory 13 to 20 frames.

In order to confirm the operation of the sixth embodiment, the comparative example was used and evaluated in the same manner as the first embodiment. As a result, in the sixth embodiment, the visibility at the time of image updating is higher than that of the comparative example. Was found to have improved. Also,
Stored in the image memory 13 when there are many updated pixels (when scrolling the entire screen) compared to when there are many updated pixels in the entire image (when displaying a mouse, cursor, etc.) It was confirmed that by increasing the number of screens of the image data to be displayed, the visibility at the time of updating the image is improved.

In another embodiment of the sixth and seventh aspects of the invention, in the sixth embodiment, the image control unit 11 uses a comparator for the image data of seven screens stored in the image memory 13. The number of frames for outputting the same display data stored in the image memory 14 (instead of increasing the number of frames for image data stored in the image memory 13 in accordance with an increase in the number of pixels changing between the detected frames) ( The arithmetic unit 15 is controlled to increase the number of frames displaying the same screen by the same display data stored in the image memory 14, and the upper limit of the frames is set to 20 frames.

As described above, in the embodiment of the invention according to claim 6, in the liquid crystal display controller according to claim 1 or 2, the image control section 11 as a detection means for detecting the number of pixels changing between frames, Depending on the number of pixels detected by the detection means 11, the number of frames for outputting the same display data stored in the image memory 14 having the storage function or the number of screens of the display data stored in the image memory 13 having the storage function is set. Since the image control unit 11 as a function of changing is provided, the ratio of the number of pixels changing on the screen to the entire screen is detected, and the visibility of the updated pixel according to the situation of the screen used is improved. This makes it possible to obtain a highly visible display.

According to the seventh aspect of the present invention, in the liquid crystal display controller according to the sixth aspect, the number of pixels detected by the image control section 11 serving as the detecting means is increased, so that the image memory serving as a storage function is provided. 14
The number of frames for outputting the same display data stored in the display memory or the number of screens of the display data stored in the image memory 13 having the storage function is increased, and the same display data stored in the image memory 14 having the storage function is used. Image memory 13 as a number of frames for outputting data or a storage function
Since the upper limit of the number of screens of the display data stored in is set to 20 frames, the ratio of the number of pixels that changes on the screen to all the screens is detected, and the visibility of the updated pixels according to the situation of the screen used Can be improved, and a display with high visibility can be obtained.

A seventh embodiment of the present invention is an embodiment of the invention according to claims 8 and 9 and uses the function of sequentially storing image data input from the outside for every seven screens and a comparator, The function of detecting the number of updated pixels of each pixel based on the image data stored in the storage function, and the storage function described above when the number of updated pixels is 1% or less of the total number of pixels using the output signal of the comparator. The average value of each pixel is displayed on the liquid crystal display device by the image data stored in, and otherwise, the same screen is displayed during the period when the liquid crystal display device displays the image data by the number of frames of the image data stored in the storage function. And the function of displaying.

In the seventh embodiment, in the first embodiment, the image control unit 11 sequentially stores the image data input from the outside in the image memory 13 for seven screens each. The minute image data is read and output to the calculation unit 16. Further, the image control unit 11 detects the number of pixels (the number of updated pixels of each pixel) that changes between each frame using the comparator for the image data of seven screens stored in the image memory 13, The number of frames of the image data stored in the image memory 13 is increased according to the increase in the number.

When the number of updated pixels is 1% or less with respect to the total number of pixels, the arithmetic unit 15 uses the output signal of the comparator to calculate the average value of each pixel based on the image data stored in the image memory 13. Is calculated and stored in the image memory 14 to display the average value on the liquid crystal display device. In other cases, the image data is displayed on the liquid crystal display device by the number of frames of the image data stored in the image memory 13. During the period, the image data for one screen is extracted from the image data for seven screens from the image memory 13 and stored in the image memory 14, so that the same screen is displayed on the liquid crystal display device during that period.

In order to confirm the operation of the seventh embodiment, the comparative example was used and evaluated in the same manner as in the first embodiment. As a result, in the seventh embodiment, the visibility at the time of image updating is higher than that of the comparative example. Was found to have improved. Also,
Stored in the image memory 13 when there are many updated pixels (when scrolling the entire screen) compared to when there are many updated pixels in the entire image (when displaying a mouse, cursor, etc.) It was confirmed that by increasing the number of screens of the image data to be displayed, the visibility at the time of updating the image is improved. Also, by switching the display method of the liquid crystal display device depending on whether the number of updated pixels is 1% or less with respect to the total number of pixels or not, updating of pixels with few mice and cursors and scrolling of the entire screen are performed. It was confirmed that the visibility was improved with respect to the updating of many pixels.

The seventh embodiment is an embodiment of the invention according to claim 8, and in the liquid crystal display controller of the first embodiment, an image control unit as a detection means for detecting the number of pixels changing between frames. 11 and the ratio of the number of pixels detected by the detection means 11 to the total number of pixels of the liquid crystal display device, the average value of at least two screens of display data stored in the image memory 13 as a storage function for each pixel. Is provided and the arithmetic unit 15 having a function of switching the same display for a period of at least two screens or more is provided. Therefore, the ratio of the number of pixels changing on the screen to the entire screen is detected and used. It is possible to improve the visibility of the updated pixels according to the situation of the screen, and it is possible to obtain a display with high visibility.

The seventh embodiment is an embodiment of the invention according to claim 9, wherein in the liquid crystal display controller according to claim 8, the number of pixels detected by the detection means 11 is 1 with respect to the total number of pixels. When it is less than or equal to%, the average value of the display data for at least two screens stored in the storage function 13 for each pixel is displayed on the liquid crystal display device, and in other cases, it is stored in the storage function 13. Since the same display is performed during the period in which the display data is displayed for the number of display data screens, the ratio of the number of pixels on the screen to the entire screen is detected and the ratio of the number of screens to the display screen is used. The visibility of the updated pixel can be improved, and a display with high visibility can be obtained.

[0049]

As described above, according to the first aspect of the invention, in the liquid crystal display controller for controlling the display of the display device using the liquid crystal in the display unit, the storage function for storing the display data and the storage function. Since it has a function of outputting the same display data stored in the function for a period of at least 2 frames or more, by causing a display device operating at an effective voltage to perform the same display for a period of 2 screens or more, It is possible to improve the effective voltage of each pixel with respect to continuously updated images, and to display a highly visible display on the display device, thereby reducing the cost and improving the display quality. .

According to the second aspect of the invention, in the liquid crystal display controller for controlling the display of the display device using the liquid crystal in the display section, a storage function for storing at least two screens of display data, and this storage function. A liquid crystal having a function of obtaining display data for one screen from the display data for two or more screens stored in 1. and causing the display device to perform the same display for a period of at least two screens or more with the display data. In the display controller, the display data stored by the storage function is processed to obtain an average value of the display data for at least two screens stored by the storage function for each pixel, and the average value is displayed on the display device. Since it is provided with a calculation unit for performing the gradation display for the pixel whose image is updated during the period of a plurality of frames of the display device, the image position being updated can be determined. Had the effect to be displayed in a concentration that corresponds to the moving amount can be performed with high visibility display on the display device, it is possible to improve the cost and display quality.

According to the third aspect of the invention, the liquid crystal display controller according to the first aspect is provided with a mechanism capable of externally adjusting the number of frames for outputting the same display data stored in the storage function. The degree of improvement in the visibility of the updated image can be arbitrarily adjusted by the user, and an image suitable for the user can be displayed.

According to the invention of claim 4, in the liquid crystal display controller of claim 2, a mechanism is provided which is capable of externally adjusting the number of screens of the display data stored by the storage function. The degree of improvement in the visibility of the updated image can be arbitrarily adjusted by the user, and the image display suitable for the user can be performed.

According to a fifth aspect of the present invention, in the liquid crystal display controller according to the third or fourth aspect, the number of frames for outputting the same display data stored in the storage function or the display number stored in the storage function. Since the number of screens of data is stored in the rewritable storage medium, the setting condition can be updated and reproduced by storing the degree of visibility improvement of the updated pixel set by the user in the rewritable storage medium. Therefore, the image display suitable for the user can be obtained.

According to a sixth aspect of the present invention, in the liquid crystal display controller according to the first or second aspect, the detecting means for detecting the number of pixels changing between frames and the number of pixels detected by the detecting means are used. With the function of changing the number of frames for outputting the same display data stored in the storage function or the number of screens of the display data stored in the storage function, it is possible to change the number of pixels on the screen with respect to the entire screen. By detecting the pixel ratio, it becomes possible to improve the visibility of the updated pixels according to the situation of the screen used,
It is possible to obtain a highly visible display.

According to the invention of claim 7, in the liquid crystal display controller of claim 6, a frame for outputting the same display data stored in the storage function due to an increase in the number of pixels detected by the detecting means. Number or the number of screens of display data stored by the storage function is increased, and the number of frames for outputting the same display data stored in the storage function or the number of screens of display data stored by the storage function Since the upper limit is set to 20 frames, it is possible to detect the ratio of the number of pixels that change on the screen to all the screens and improve the visibility of the updated pixels according to the situation of the screen used. You can get a high display of.

According to the invention of claim 8, in the liquid crystal display controller for controlling the display of the display device using the liquid crystal in the display section, a storage function for storing at least two screens of display data, and this storage function. A liquid crystal having a function of obtaining display data for one screen from the display data for two or more screens stored in 1. and causing the display device to perform the same display for a period of at least two screens or more with the display data. In the display controller, a detection unit that detects the number of pixels that change between frames and a ratio of the number of pixels detected by the detection unit to the total number of pixels of the display device are stored in the storage function for each pixel. Equipped with a function to switch between displaying the average value of display data for two or more screens and the same display for a period of at least two screens or more With this, it is possible to detect the ratio of the number of pixels that change on the screen to the entire screen and improve the visibility of updated pixels according to the situation of the screen used, and obtain a highly visible display. You can

According to the invention of claim 9, in the liquid crystal display controller according to claim 8, when the number of pixels detected by the detecting means is 1% or less of the total number of pixels, each pixel is The average value of the display data for at least two screens stored by the storage function is displayed on the display device. In other cases, the display data is displayed by the number of screens of the display data stored by the storage function. Since the same display is performed during the display period, it is possible to detect the ratio of the number of pixels that change on the screen to the entire screen and improve the visibility of updated pixels according to the status of the screen used. Therefore, it is possible to obtain a highly visible display.

[Brief description of drawings]

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

FIG. 2 is a timing chart showing the operation timing of the first embodiment.

FIG. 3 is a block diagram showing a second embodiment of the present invention.

FIG. 4 is a timing chart showing the operation timing of the second embodiment.

FIG. 5 is a block diagram showing a third embodiment of the present invention.

[Explanation of symbols]

11, 17 Image control section 12 Display controller 13, 14, 18 image memory 15, 16, 19 Operation part 20 EEPROM 21 EEPROM control section

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-5-27705 (JP, A) JP-A-1-234896 (JP, A) JP-A-8-248392 (JP, A) JP-A-4- 233592 (JP, A) JP-A-4-19787 (JP, A) JP-A-6-51721 (JP, A) JP-A-8-18819 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) G09G 3/00-3/38 G02F 1/133 505-580

Claims (8)

(57) [Claims] 1. A liquid crystal display controller for controlling display of a display device using a liquid crystal for a display section, comprising a storage function of storing display data for at least two screens, and a storage function of two screens or more stored by this storage function. A function of obtaining display data for one screen from the display data and causing the display device to perform the same display for a period of at least two screens with the display data, and processing the display data stored by the storage function Then, an average value of display data for at least two screens stored by the storage function is calculated for each pixel, and an arithmetic unit for displaying the average value on the display device is provided. . 2. A display control of a display device using a liquid crystal for a display section.
In the liquid crystal display controller that performs
Memory function to store at least 2 screens or more, and this memory
1 screen from the display data of 2 screens or more stored by the function
Minute display data is obtained, and the display device is used as the display data.
The same display over a period of at least two screens
Function to detect the number of pixels that change between frames
Detecting means, and the total number of pixels of the display device,
Depending on the ratio of the number of pixels detected by the detection means,
Of at least 2 screens stored by the above memory function
Display the average value of the display data and at least two screens or more
Equipped with a function to switch the same display over the above period
A liquid crystal display controller characterized in that 3. The liquid crystal display controller according to claim 1.
The number of screens of display data stored by the storage function.
A liquid crystal display controller having a mechanism that can be adjusted from the outside . 4. The liquid crystal display controller according to claim 3.
The same display data stored in the memory function.
Number of frames to be applied or display stored by the storage function
A liquid crystal display controller, characterized in that the number of screens of the usage data is stored in a rewritable storage medium . 5. The liquid crystal display controller according to claim 1.
And a detection means for detecting the number of pixels changing between frames
And the storage device according to the number of pixels detected by the detection means.
No. of frames that output the same display data stored in memory
Or the number of screens of display data stored by the storage function
A liquid crystal display controller having a function of changing the . 6. The liquid crystal display controller according to claim 5.
The number of pixels detected by the detecting means increases,
A function for outputting the same display data stored in the storage function.
Number of frames or display data stored by the storage function
The number of screens of the
The number of frames to output one display data or the above
The upper limit of the number of screens of display data stored by the memory function is 20
A liquid crystal display controller characterized by a ram . 7. The liquid crystal display controller according to claim 2.
And the number of pixels detected by the detection means is
If it is less than 1%, the memory for each pixel is stored.
Display data for at least two screens stored by the function
The average value of is displayed on the display device, and in other cases
Is the number of screens of the display data stored by the storage function.
A liquid crystal display controller , wherein the same display is performed during a period in which display data is displayed . 8. The liquid crystal according to claim 1.
With the display controller and this liquid crystal display controller
And a display device for performing display control.
Liquid crystal display device.