JP2003216122A - Liquid crystal display driving device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid crystal display driving device which realizes the saving of electric power and a long-duration operation while maintaining and enhancing display quality. <P>SOLUTION: A controller 12 for gradation displaying controls a driving voltage to be applied to a liquid crystal display element 11 via a driver IC 13 for driving liquid crystal. The controller 12 selects which gradation displaying is to be performed among a gradation displaying by a frame thinning, a gradation displaying by a pulse width modulation, and a multi-step gradation displaying in which the both gradation displaying systems are used together in accordance with a display pattern and transmits a gradation system changeover signal for discriminating the selected gradation displaying system to the driver 13 for driving liquid crystal. The controller 12 modulates display data into gradation displaying data followed to the selected gradation displaying system among the gradation displaying system by only the frame thinning, the gradation displaying system by only the pulse width modulation (PWM), and the gradation displaying system in which these both gradation displaying systems are used together by the gradation displaying system changeover signal and transmits the gradation displaying data as the driving voltage to the liquid crystal display element 11. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display driving device which is used for various AV equipments, portable equipments, game equipments and the like for which power saving is required and which performs multi-step gradation display.

[0002]

2. Description of the Related Art In recent years, in portable devices such as portable telephones and portable electronic devices having a display screen, monochrome display has been changed to color display, and multicolor gradation display has also been rapidly developed in color display. .

As a liquid crystal display device used for these mobile phones and mobile electronic devices, STNs satisfying the respective characteristic requirements of wide viewing angle, high contrast and low power consumption.
A (super twisted nematic) type liquid crystal display device has been put into practical use.

For example, Japanese Patent Application Laid-Open No. 4-287584 "Liquid Crystal Display Device" proposes an example of a multi-step gradation display system in an STN type liquid crystal display device. In this liquid crystal display device, the pulse width modulation method for modulating the pulse width of the selection pulse for gradation display and the frame thinning method for intermittently lighting the pixels for each frame for gradation display are combined. , Has realized gradation display in more stages.

FIG. 4 is a block diagram showing a configuration example of a conventional matrix type liquid crystal display device. Note that the number of data lines on the interface is 12 in total, 4 bits for each of R, G, and B for 4096 color display by the gradation display method by pulse width modulation.

As shown in FIG. 4, a liquid crystal display device 100 is provided.
Is an STN type liquid crystal display element 101, a gradation display controller 102 of a gradation display method by thinning out frames,
It has a liquid crystal driving driver IC 103 of a gradation display system by pulse width modulation (PWM).

The STN type liquid crystal display element 101 constitutes a liquid crystal display screen, and is a liquid crystal display element in which row electrodes and column electrodes are attached, and the intersections thereof are arranged in a matrix as pixels. An STN type liquid crystal material is sandwiched between these row electrodes and column electrodes.

Image data and control data are input to the gradation display controller 102, and the liquid crystal display device 10 receives the image data and control data.
Pulse width modulation (PWM) of drive display voltage to be applied to 1
The gradation display type liquid crystal driving driver IC 103 is controlled to perform a gradation display operation by thinning out frames.

Image data is input to the liquid crystal driving driver IC 103 from the gradation display controller 102 for frame thinning, and the selection pulse is modulated according to the pulse width modulation (PWM) gradation display method based on the input image data. And outputs it as a drive voltage to the liquid crystal display element 101.

In the liquid crystal display device 100 described above, by adding the frame thinning gradation display operation by the gradation display controller 102 to the pulse width modulation gradation display operation by the liquid crystal driving driver IC 103, it is possible to increase the number of stages. It is possible to realize a multi-color display that is a tonal display.

[0011]

In the above-described conventional liquid crystal display device 100, the liquid crystal driving driver IC 103 that performs the gradation driving method of the pulse width modulation method that modulates the pulse width of the selection pulse to perform gradation display, The emphasis is placed on realizing gradation display in more stages by inputting gradation display data for frame thinning output from the gradation display controller 102 for frame thinning. Therefore, when the liquid crystal display element 101 is driven for display only by gradation display by frame thinning, the current consumption is higher than the current consumption at the time of gradation display in the original frame thinning, and the gradation by pulse width modulation is increased. Compared with the display method, the gradation display method by frame thinning does not take advantage of power saving.

Here, the reason is that when the same interface is used, a gradation display image data transfer method in gradation display by pulse width modulation and a gradation display image data transfer in gradation display by frame thinning. A method will be described in comparison with FIG. 5 (a) and FIG. 5 (b).

FIG. 5A shows the case of gradation display image data transfer of the gradation display system by pulse width modulation.
To display 4096 colors in gradation display by pulse width modulation, 4 bits for each of R, G, and B are required, so the amount of gradation display image data that can be transferred at one time using 12 data lines is 1 dot. Only one minute (one pixel).

On the other hand, FIG. 5B shows the case of gradation display image data transfer of the gradation display system by frame thinning. In the case of displaying only by gradation display by frame thinning, the amount of gradation display image data that needs to be transferred in one frame period for one dot is originally R, G, B due to the characteristic of gradation display by frame thinning. As shown in FIG. 5B, since only the 1-bit data is transferred, in the conventional liquid crystal display device 100, the gradation display method of the liquid crystal driving driver IC 103 is the pulse width modulation driving. It is necessary to transfer 1 dot of gradation image data (R, G, B × 4 bits), which is the maximum required for the pulse width modulation method, to the liquid crystal driving driver IC 103 as gradation image data by frame thinning. That is, in the case of performing the gradation display only by the gradation display method by the frame thinning in the liquid crystal display device 100 including the liquid crystal driving driver IC 103 for the gradation display method by the pulse width modulation, the normal (original) frame thinning is performed. The gradation display image data amount is required to be four times as large as that in the gradation display method.

Since the amount of gradation display image data is large, the frequency of the clock signal for transferring the gradation display data is higher than that in the case where gradation display is performed by the normal gradation display method by thinning out frames. There is a need for a fast high speed clock signal. Thus, the faster clock frequency increases power consumption. Therefore, originally,
Low power consumption, which is an advantage of the gradation display method by thinning out frames, has not been realized.

As described above, it is advantageous for power saving, and moreover, crosstalk is less likely to occur as compared with the gradation display method by pulse width modulation (PWM), and gradation display is performed only by the gradation display method by frame thinning. Until now, the effective use of was not considered at all.

As described above, originally, in the case of gradation display by the gradation display method by thinning out frames, only the 1-bit gradation display data needs to be transferred per pixel, but the liquid crystal driving driver IC 103 is required. Since the gradation display method of is a pulse width modulation, this driver IC for liquid crystal driving
It was necessary to transfer the gray scale display data, which is the maximum required for the pulse width modulation method of 103, at the maximum. This requires a faster frequency for the clock signal for gradation display data transfer, which leads to an increase in power consumption, which leads to a reduction in power consumption, which is an advantage of the original gradation display method by frame thinning. The reality was that we could not achieve it sufficiently.

On the other hand, in the past, with the rapid progress of multi-stage gradation display in mobile phones and portable electronic devices and the complicated circuit structure, liquid crystal used in mobile phones and portable electronic devices has been developed. The power consumption of the display driving device tends to increase. However, portable devices such as mobile phones and mobile electronic devices mainly use a rechargeable battery as a power source for portability, and low power consumption is strongly required for long-term operation. ing.

The present invention has been made in view of the above circumstances, and a liquid crystal display driving device capable of realizing power saving and long-time operation while maintaining or improving the display quality by switching the gradation display system. The purpose is to provide.

[0020]

The liquid crystal display driving device of the present invention enables multi-step gradation display driving by using both the gradation display method by frame thinning and the gradation display method by pulse width modulation. In a liquid crystal display drive device, a gradation display method using only frame thinning according to a display pattern,
The gradation display driving is performed by selecting one of the gradation display method using only the pulse width modulation and the gradation display method using both of these methods, thereby achieving the above object.

Further, preferably, in the liquid crystal display driving device of the present invention, a control signal for identifying the selected gradation display method selected according to the display pattern is output, and
Outputs either the gradation display data corresponding to the gradation display method by only frame thinning or the gradation display data corresponding to the combined gradation display method of both types according to the selected gradation display method (or control signal) Of the gradation display control means and the gradation display method only by frame thinning using the input gradation display data from this gradation display control means, the combined gradation display method using both methods, and the gradation display method only by pulse width modulation ,
A gradation display driving means for driving the display by gradation display data of a gradation display system corresponding to the control signal.

Further, preferably, the gradation display control means in the liquid crystal display driving device of the present invention outputs a discrimination selection signal as a control signal for discriminating the selected gradation display system selected according to the display pattern. Tone display method identification / selection section and, depending on the selected tone display method (or the identification selection signal), the tone display data corresponding to the tone display method only by frame thinning and the floor corresponding to the both-use combined tone display method. It has a first gradation display data generation unit that generates any of the gradation display data and a first data transfer unit that transfers the gradation display data corresponding to the identification selection signal.

Further, preferably, the gray scale display driving means in the liquid crystal display drive device of the present invention produces gray scale display data only by pulse width modulation and gray scale display data using both types of gray scale display data using input gray scale display data. A second gradation display data generation unit for generating, a first gradation display system discrimination unit for discriminating a selected gradation display system by an identification selection signal which is a control signal, and a gradation display system floor adapted to the discrimination result. A first gradation display drive section for performing display drive according to the gradation display data.

Further, preferably, the gradation display control means in the liquid crystal display driving device of the present invention sets a gradation display system selection command as a control signal for identifying a selected gradation display system selected according to a display pattern. Depending on the available command setting section and the selected gradation display method (or the gradation display method selection command), gradation display data corresponding to the gradation display method by only frame thinning and both-type combined gradation display method And a third gradation display data generation unit for generating any one of the gradation display data corresponding to the gradation display data, and a gradation display data corresponding to the gradation display system selection command, 2 data transfer units.

Further, preferably, the gray scale display driving means in the liquid crystal display drive device of the present invention produces gray scale display data only by pulse width modulation and gray scale display data for both types using the input gray scale display data. A fourth gradation display data generation unit for generating, a second gradation display system discrimination unit for discriminating the selected gradation display system by a gradation display system selection command which is a control signal, and a gradation suitable for the discrimination result. A second gradation display drive section for performing display drive according to gradation display data of a display system.

With the above structure, the operation will be described below.

For example, different gradation display data (gradation display data only by frame thinning and gradation display data by both combined gradation display methods) and gradation display method identification selection signals using the same interface unit or The gradation display method selecting command is transferred from the gradation display control means to the gradation display drive means, and the gradation display data of different gradation display methods transferred using the same interface is transferred by the gradation display drive means. The gradation display method identification selection signal or the gradation display method selection command is used to identify which gradation display method is used for gradation display. For this reason, the conventional pulse width modulation method is used in combination with the frame thinning method to realize multi-step gradation display. Gradation display,
Since gradation display driving is performed by selecting the optimum gradation display method for the image that matches the display pattern from the multiple gradation display methods of multi-stage gradation display that uses both gradation displays together, It becomes possible to realize power saving and long-time operation while maintaining or improving the display quality.

[0028]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a case in which Embodiments 1 and 2 of a liquid crystal display driving device of the present invention are applied to an STN type liquid crystal display device will be described in detail with reference to the drawings. (Embodiment 1) FIG. 1 is a block diagram showing a main configuration of a matrix type liquid crystal display device according to Embodiment 1 of the present invention.

In FIG. 1, the liquid crystal display device 10 has an ST
A liquid crystal display element 11 constituting an N-type display screen, a gradation display controller 12 (gradation display control means) of an identification signal type frame thinning gradation display system, and a pulse width modulation (PWM) gradation display system. LCD driver IC 13
(Gradation display driving means), and a gradation display method only by frame thinning, a gradation display method only by pulse width modulation (PWM), according to each display pattern (display status and display content). The gray scale display driving is performed by selecting one of the both types combined gray scale display method. The selection of each gradation display according to each display pattern is, for example, an optimum gradation display method for each display pattern, for example, only frame thinning in order to perform color gradation display with lower power consumption. Performs gradation display, and in the case of a display pattern where flicker is conspicuous, gradation display is performed only by pulse width modulation,
When it is desired to perform multi-color display, which is a multi-gradation display in more stages, it is necessary to select a dual-type gradation display that uses both gradation display methods.

In the liquid crystal display element 11, row electrodes and column electrodes are attached so as to face each other on the facing surface side of the counter substrate, and the intersections thereof are arranged in a matrix as pixels, and these row electrodes and An STN type liquid crystal material is sandwiched between the column electrodes to form a liquid crystal display screen.

The gradation display controller 12 selects a gradation display method according to a display pattern including, for example, display status and display content information, and a gradation signal is used as a control signal for identifying the gradation display method to be selected. A gradation display method identification selection unit 121 that outputs a method switching signal (identification selection signal) to the liquid crystal driving driver IC 13 via the control line CL, and gradation display data for frame thinning only and for frame thinning using both methods together Gradation display data and a first gradation display data generation unit 122 that outputs gradation display data corresponding to the gradation method switching signal, and gradation display data corresponding to the gradation method switching signal. Data transfer unit 123 for transferring data from the interface unit to the liquid crystal driver driver IC 13 via the data line DL
And outputs the gradation display data corresponding to the selected gradation display method to be selected from among the plurality of gradation display methods, and also outputs the gradation method switching signal for identifying the selected gradation display method.

The liquid crystal driving driver IC 13 has a second gradation display data generating section 131 capable of generating gradation display data only by pulse width modulation (PWM) and gradation display data used in both methods, and a gradation method. A first gradation display system discrimination unit 132 that discriminates the selected gradation display system by a switching signal, and a first gradation display drive that performs gradation display drive by gradation display data of the gradation display system that matches the discrimination result. The unit 133 is provided, and the liquid crystal display is driven by the gradation display method switched by the gradation method switching signal using the gradation display data input according to the selected gradation display method. The gradation display controller 12 and the liquid crystal driving driver IC 13 constitute a liquid crystal display driving device. It should be noted that the number of data lines between the interface units of the gradation display controller 12 and the liquid crystal driving driver IC 13 is a total of 4 bits for each of R, G, and B, which is 4096 color display in the gradation display system by pulse width modulation. Twelve.

The operation of the above structure will be described below.

First, when the image data and the control data are input, the gradation display controller 12 outputs the drive voltage to be applied to the liquid crystal display element 11 to the liquid crystal drive driver I.
Control via C13. Gradation display controller 12
In, in the grayscale display by frame thinning, the grayscale display by pulse width modulation, and the multilevel grayscale display using both grayscale display methods, which grayscale display is to be selected is selected, A gradation system switching signal for identifying the gradation system is output to the liquid crystal driver driver IC 13 via the control line CL, and the gradation display data according to the gradation system switching signal is output to the same interface unit 123.
Is used to transfer data to the driver IC 13 for driving the liquid crystal.

Next, the first of the gradation display controller 12
Grayscale display data is input from the data transfer unit 123 to the liquid crystal drive driver IC 13 using the same interface unit, and a grayscale method switching signal is input from the grayscale display controller 12 to the liquid crystal drive driver IC 13. . At this time, the liquid crystal driving driver IC 13 recognizes the gradation method switching signal and the gradation display data according to the signal, and the gradation display method only by frame thinning, the gradation display method only by pulse width modulation (PWM), Of these both-type combined gradation display methods, the gradation display data is modulated according to the selected gradation display method, and the gradation display data is sent to the liquid crystal display element 11 as a drive voltage.

As described above, as the liquid crystal display driving device, the same interface unit as the conventional interface unit is used to transfer different gradation display data and also transfer the gradation system switching signal for identifying the gradation display system. The gradation display controller 12 and the gradation display system gradation display data transferred from the gradation display controller 12 are displayed on the liquid crystal using a gradation system switching signal. Since the liquid crystal driving driver IC 13 that performs the gradation display driving for the liquid crystal display element 11 is provided inside the driving driver IC 13, the gradation display only by frame thinning, the gradation display only by pulse width modulation, From the both-type gradation display using both gradation display methods together,
A gradation display method most suitable for the display pattern, for example, gradation display by only frame thinning is performed when color gradation display with lower power consumption is desired, and pulse width modulation is used for a display pattern in which flicker is noticeable. If you want to make a multi-colored display that is a multi-gradation display with more stages, select a dual-type gradation display that uses both gradation display methods and display. It is possible to perform gradation display that is optimal for the pattern.

Here, in the liquid crystal display driving device of the present invention, the same interface section is used, and a method of transferring gradation display image data at the time of gradation display by pulse width modulation, and
A method of transferring gradation display image data during gradation display by only frame thinning will be described with reference to FIG. As mentioned above, the number of data lines on the interface is
A total of 12 R, G, and B 4 bits for 4096-color display in the gradation display method by pulse width modulation will be described.

FIG. 2A shows the image data transfer state in the pulse width modulation method. As shown in FIG. 2A, when displaying 4096 colors by gradation display by pulse width modulation, 4 bits (bits) for each of R, G, and B are required, so that 12 data lines DL are The amount of gradation display image data that can be transferred at one time is 1 dot (dot)
Only minutes.

On the other hand, FIG. 2B shows the image data transfer state in the frame thinning method. As shown in FIG. 2B, in the case of gradation display by only frame thinning,
Due to the characteristics of gradation display, the amount of gradation display image data that needs to be transferred for one dot in one frame period is R,
Twelve data lines D because G and B each require 1 bit
The amount of gradation display data that can be transferred at one time using L is 4 dots, and gradation display can be performed by repeating this for several frames.

As described above, in the liquid crystal display driving device of the present invention, the method of transferring the gradation display image data at the gradation display by the pulse width modulation and the gradation display image data at the gradation display only by the frame thinning The same interface can be used to switch to the optimum data transfer method for each gradation display method for gradation display. As a result, the clock frequency is also slow.

An example of selection of the optimum gradation display method using the liquid crystal display driving device of the present invention will be described in detail with reference to a display example in a color portable telephone.

At present, as a liquid crystal display device for a color portable telephone, up to 256 colors can be displayed by gradation display by pulse width modulation by the liquid crystal driving driver IC 13, and gradation display by frame thinning by the gradation display controller 12 is performed. When added, multi-level gradation display of up to 65,536 colors becomes possible. This multi-level gradation display with 65,536 colors makes it possible, for example, to enjoy images closer to natural colors such as digital camera images, people and landscape images, while providing 65,536 colors. The multi-stage gradation display increases the power consumption and shortens the battery consumption time, which is fatal for mobile devices. As a measure to reduce such power consumption, it is possible to reduce the number of colors when displaying on a screen that needs to be displayed for a long time, such as a display screen during standby, or when displaying colors that do not have a problem even if the number of colors is small. To be

As a method of reducing the number of colors, a method of displaying with 256 colors of gradation display by pulse width modulation or gradation display by frame thinning can be considered. This 256
When displaying in color, which gradation display is selected between gradation display only by frame thinning and gradation display only by pulse width modulation, gradation display only by pulse width modulation and frame thinning The gradation display by only has each demerit.

That is, in gradation display by pulse width modulation, gradation display is performed by changing the pulse width of the selection pulse, and a drive frequency (clock frequency) that corresponds to the pulse width is required, and frame thinning is performed. The power consumption is higher than that of the gray scale display by only. In addition, the waveform in the halftone state with a narrow pulse width is liable to be blunted due to the electrode resistance or the electrostatic capacitance in the liquid crystal display element 11, and as a result, the waveform on the same electrode of the pixel in the halftone state is There is also a demerit that crosstalk is likely to occur in some other pixel.

On the other hand, in the gradation display only by thinning out the frames, the gradation display is performed by changing the frequency of the on-frame and the off-frame, and at this time, all the pixels in the part where the intermediate gradation display is performed. However, if the on / off timing is the same, flicker will occur and the screen will be very difficult to see.

In the liquid crystal display drive device of the present invention, the merits and demerits of each gradation display can be selected from three kinds of gradation display systems, so that the display pattern is matched as described above. Selective display can be made with the optimum gradation display method to compensate for the disadvantages.

Therefore, the gradation display controller 12 of the first embodiment is provided with a function of transferring different gradation display image data and a gradation system switching signal by using the same interface unit as the conventional one, and the liquid crystal driving driver is provided. A plurality of gradation display image data of different gradation display systems, which are transferred to the IC 13 using the same interface unit, are discriminated in the liquid crystal driving driver IC 13 by the gradation system switching signal, and a plurality of data are displayed. Since one gradation display method is selected from the gradation display methods described above to provide gradation display, power saving and long-time operation can be realized while maintaining and improving the display quality according to the display pattern. (Embodiment 2) FIG. 3 is a block diagram showing a main configuration of a matrix type liquid crystal display device according to Embodiment 2 of the present invention.

In FIG. 3, a liquid crystal display device 20 includes an STN type liquid crystal display element 11 which constitutes a display screen, and an identification command type frame thinning gradation display type gradation display controller 22 (gradation display control means). ) And a pulse width modulation (PWM) gradation display type liquid crystal driver driver IC
23 (gradation display driving means), and a gradation display method by only frame thinning, pulse width modulation (PW) according to a display pattern (for example, display status and display content).
The gradation display driving is performed by selecting one of the gradation display method based only on M) and the gradation display method using both of these methods.

The gradation display controller 22 selects a gradation display system according to the display pattern, and uses a gradation display system identification command (gradation display system selection command) as a control signal for identifying the selected selected gradation display system. Command setting unit 221 that allows setting of a gradation display data corresponding to the gradation display method only by frame thinning according to the gradation display method identification command (selected gradation display method) A third gradation display data generation unit 222 that generates any of the gradation display data corresponding to the gradation display method, and the gradation display data corresponding to the gradation display method identification command together with the gradation display method identification command. It has a second data transfer unit 223 for transferring data.

The liquid crystal driving driver IC 23 has a fourth gradation display data generating section 231 for generating gradation display data only by pulse width modulation and gradation display data for both types using the input gradation display data. A second gradation display method discrimination unit 232 that discriminates the selected gradation display method by the gradation display method discrimination command, and a second floor that drives the liquid crystal display by the gradation display data of the gradation display method that matches the discrimination result. And a gradation display drive unit 233.

The operation of the above structure will be described below.

First, when image data and control data are input to the gradation display controller 22, the drive voltage to be applied to the liquid crystal display element 11 is changed to the liquid crystal drive driver I.
Control via C23. That is, which gradation display is to be performed among gradation display only by frame thinning, gradation display only by pulse width modulation, and gradation display combining both of these gradation display methods is performed according to the display pattern. The display system identification command is set and selected, and the gradation display system identification command and the gradation display data according to the command are selected using the same interface unit for the liquid crystal driver driver IC2.
Transfer to 3.

Next, when the gradation display system identification command and the gradation display data according to it are input to the liquid crystal driving driver IC 23 from the gradation display controller 22 using the same interface section, the liquid crystal driving driver is input. The IC 23 recognizes the gradation display method identification command and the gradation display data according to the command, modulates the gradation display data according to the selected gradation display method, and uses the gradation display data as a driving voltage. Liquid crystal display element 11 to be applied
Send to.

As described above, the liquid crystal display driving device uses the same interface section to transfer any of different gradation display data and the gradation display system identification command for selecting the gradation display system. Controller 22 and the gradation display data transferred from the gradation display controller 22 is determined in the liquid crystal driving driver IC 23 using the gradation display method identification command, and the gradation display method is determined. A liquid crystal drive driver IC for driving a liquid crystal display based on gradation display data of a gradation display method corresponding to a discrimination result
By providing 23, the gradation display only by the frame thinning, the gradation display only by the pulse width modulation, and the gradation display method using the both gradation display methods together are the most suitable for the display pattern. Display method, for example, to display color gradation with lower power consumption, select gradation display by frame thinning only, and in the case of a display pattern where flicker is noticeable, gradation display by pulse width modulation only If it is desired to perform multi-color display, it is possible to drive a gradation display by selecting a multi-step gradation display using both gradation display methods.

As described above, the difference between the first and second embodiments is that the identification method of the gradation display method according to the display pattern is
Only the difference is made between the dedicated gradation system switching signal (or the gradation system identification signal or the identification selection signal) as in the first embodiment or the gradation display system identification command as in the second embodiment. Yes, by selecting the most suitable gradation display method according to each display pattern, in particular, by selecting the gradation display only by frame thinning, it is possible to save power compared to the conventional system using the pulse width modulation for gradation display. In the point that it is possible to achieve the above-mentioned Embodiment 1,
The effect of 2 is the same.

Regarding the method of transferring gradation display data in gradation display by pulse width modulation using the same interface section and the method of transferring gradation display data in gradation display only by frame thinning, Since it is similar to the case of the first embodiment, the description thereof is omitted here.

As described above, according to the above-described first and second embodiments, a gray scale display system only by frame thinning, a gray scale display system only by pulse width modulation, according to the display pattern,
Since the gradation display drive is performed by selecting either of the two-method combined gradation display method in which the gradation display method by the pulse width modulation and the gradation display method by the frame thinning are used in combination, the optimum gradation display method is selected. It is possible to perform gradation display by the gradation display method, and while maintaining and improving the display quality, it is possible to perform gradation display by the gradation display method by only frame thinning, which saves power and operates for a long time. realizable. In this case, it is possible to generate by switching to any of a plurality of gradation data of the gradation system, and each gradation display data is sent from the same interface section of the gradation display controller 12 or 22 to the liquid crystal driving driver IC 13 or 23. Can be transferred.

Further, in the liquid crystal driving driver IC 13 or 23 which realizes multi-stage gradation display by using the gradation display system by pulse width modulation and the gradation display system by frame thinning together, the gradation display controller 12 or 22
From the gradation system switching signal (identification selection signal) using the control line CL (signal line) for gradation display system identification transferred from the device or the gradation system identification command transferred using the interface unit. It is determined in the liquid crystal driver driver IC 13 or 23 which gradation method is used for the gradation display data transferred using the interface unit, and the gradation display conforms to the determined gradation display data. It is possible to reduce the power consumption especially in the case of gradation display by thinning out frames.

Further, in the liquid crystal display device which realizes multi-step gradation display by using the gradation display method by pulse width modulation and the gradation display method by frame thinning together, the gradation display controller 12 or 22 By configuring the system with the liquid crystal driving driver IC 13 or 23, it is possible to realize an optimal gradation display suitable for each display pattern and a long battery life due to low power consumption.

With the above features, the liquid crystal display driving device of the present invention having the optimum liquid crystal display system and the liquid crystal display device using the same can be applied to a mobile device such as a color portable telephone. That is, a portable device (including a portable electronic device) such as a color portable telephone using the liquid crystal display driving device of the present invention can be obtained, and the power saving effect of the present invention can be obtained.

Although the gradation display controller 12 (or 22) and the liquid crystal driving driver IC 13 (or 23) are used in the first and second embodiments, the invention is not limited to this. (Or 22)
May be integrated with the liquid crystal driver driver IC 13 (or 23), or the gradation display controller 1
2 (or 22) may be provided in the liquid crystal driving driver IC 13 (or 23), or some of the operating functions of the liquid crystal driving driver IC 13 (or 23) may be provided in the gradation display controller 12 ( Needless to say, it may be provided in item 22).

[0062]

As described above, according to the present invention, according to the display pattern, the gradation display method by only frame thinning, the gradation display method by pulse width modulation only, the gradation display method by pulse width modulation and the frame thinning method. The gradation display drive is performed by selecting one of the combined gradation display methods that use both the gradation display method and the gradation display method described above. Therefore, while maintaining or improving the display quality, it is possible to perform the gradation display by the gradation display method by only the frame thinning, and it is possible to realize the power saving and the long-time operation.

[Brief description of drawings]

FIG. 1 is a block diagram showing a main configuration of a matrix type liquid crystal display device according to a first embodiment of the present invention.

FIG. 2 is a block diagram of a liquid crystal display driving device for explaining a gradation display data transfer system of the present invention.

FIG. 3 is a block diagram showing a main configuration of a matrix type liquid crystal display device according to a second embodiment of the present invention.

FIG. 4 is a block diagram showing a main configuration of a conventional matrix type liquid crystal display device.

FIG. 5 is a block diagram of a liquid crystal display drive device for explaining a conventional gradation display data transfer system.

[Explanation of symbols]

11 Liquid crystal display element 12,22 gradation display controller 121 gradation display system identification selection section 122 First gradation display data generation unit 123 First data transfer unit 221 Command setting section 222 Third gradation display data generation unit 223 Second data transfer unit 13,23 LCD driver 131 Second gradation display data generation unit 132 First gradation display system discrimination unit 133 First gradation display drive section 231 Fourth gradation display data generation unit 232 Second gradation display system discrimination unit 233 Second gradation display drive unit

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Claims (6)

[Claims] 1. A liquid crystal display drive device capable of multi-step gradation display driving by using a gradation display method by frame thinning and a gradation display method by pulse width modulation in combination. A liquid crystal display driving device which performs gradation display driving by selecting one of a gradation display method using only thinning, a gradation display method using only pulse width modulation, and a gradation display method using both of these methods. 2. A gray scale display data corresponding to a gray scale display system only by the frame thinning out and a combination of the both types are output while outputting a control signal for identifying a selected gray scale display system selected according to the display pattern. The gradation display control means for outputting any of the gradation display data corresponding to the combined gradation display method according to the selected gradation display method, and the input gradation display data from the gradation display control means are used. The display drive is performed by the gradation display data of the gradation display method corresponding to the control signal, among the gradation display method only by the frame thinning out, the gradation display method using both methods, and the gradation display method only by the pulse width modulation. The liquid crystal display drive device according to claim 1, further comprising: a gradation display drive means for performing the display. 3. The gradation display control means outputs a discrimination display signal as a control signal for discriminating a selected gradation display scheme selected according to the display pattern, and a gradation display scheme discrimination selecting section, A first grayscale display data corresponding to the grayscale display system only by the frame thinning-out or a grayscale display data compatible with the both-type combined grayscale display system is generated according to the selected grayscale display system. 3. The liquid crystal display drive device according to claim 2, further comprising a gradation display data generation unit and a first data transfer unit that transfers the gradation display data corresponding to the identification selection signal. 4. The second gray scale, wherein the gray scale display driving means generates gray scale display data only by the pulse width modulation and gray scale display data using the input gray scale display data in combination of both types. A first for discriminating the selected gradation display method from a display data generation section and an identification selection signal which is the control signal;
4. The liquid crystal display drive device according to claim 2, further comprising: a gradation display system determination unit; and a first gradation display drive unit that drives the display based on the gradation display data of the gradation display system suitable for the determination result. 5. The command setting section, wherein the gradation display control means is capable of setting a gradation display method selection command as a control signal for identifying a selected gradation display method selected according to the display pattern, Third generation of gray scale display data corresponding to the gray scale display method by only the frame thinning-out or gray scale display data corresponding to the both type combined gray scale display method according to the selected gray scale display method The liquid crystal display according to claim 2, further comprising: a gradation display data generation unit; and a second data transfer unit that transfers the gradation display data corresponding to the gradation display system selection command together with the gradation system selection command. Drive. 6. The fourth gray scale, wherein the gray scale display driving means generates gray scale display data only by the pulse width modulation and gray scale display data using the input gray scale display data in combination of both types. A display data generation section, a second gradation display method discrimination section that discriminates a selected gradation display method by a gradation display method selection command that is the control signal, and a gradation display method gradation that matches the discrimination result. The liquid crystal display drive device according to claim 2, further comprising a second gradation display drive unit that performs display drive according to display data.