KR100327356B1 - apparatus and method for brightness control of flat panel display element - Google Patents

Abstract

The present invention provides a flat panel display device that increases the driving time of selected scan lines by using an extra scan line generated by conversion of duty ratio to selectively brighten a specific line without additional power consumption. An apparatus and method for controlling brightness of an apparatus comprising: configuring a scan controller to adjust a duty ratio of a scan time and to create an extra scan time while maintaining the same frame frequency, and to display the scan more brightly It is made to include the step of adjusting the brightness of the screen in addition to each of the desired scan line by changing the scan driving time.

Description

Apparatus and method for brightness control of flat panel display element}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device, and in particular, to select scan lines selected using an extra scan line generated by a change in duty ratio to selectively light only a specific line without separate power consumption. A brightness control apparatus and method for increasing the time displayed.

Presently, various display devices have started to develop new flat panel display devices that are thin, light, and low power consumption according to the trend of miniaturization, light weight, and low voltage of various electronic devices according to the development of electronic technology, starting with CRT (Cathode Ray Tube). Brought.

These new forms of flat panel displays are voltage-driven, such as Liquid Crystal Display (LCD), Plasma Display Panel (PDP), Visual Fluorescent Display (VFD), Field Emission Display (FED), Light Emitting Diode (LED), and EL (EL). Current-driven displays such as electroluminescence.

Hereinafter, a flat panel display driving circuit according to the related art will be described with reference to the accompanying drawings.

1 illustrates a driving circuit of a flat panel display according to the prior art, and includes a system interface unit 1 for converting externally input control signals or data into a control signal required for display, and a system interface unit 1 for conversion. In the memory unit 3, the data value corresponding to the control signal is stored, the data drive circuit unit 4 for applying the output data of the memory unit 3 to each data line, and the system interface unit 1 And a control circuit section 2 for determining the same duty ratio according to the converted control signal and a scan drive circuit section 5 for applying a signal according to the duty ratio determined in the control circuit section 2 to the scan line. .

The plurality of scan lines and the plurality of data lines intersect each other, and display and display data on pixels of dots that cross each other.

As shown in FIG. 2, the time required to display one frame is T _F , and the number of scan lines to be displayed is 40 lines, and the duty ratio is If set to, each scan line per frame (1 frame time: T _F ) is displayed with one scan drive, so all 40 scan lines are the same time ( Is displayed.

As such, when all the on time of the plurality of data lines are driven for the same time, all the pixels of the panel display the same brightness.

In addition, when a user wants to display a specific part of the panel brighter for an efficient data retrieval in an icon line or data retrieval of a portable terminal, high voltage or high current is applied to a desired data line through switching.

Another method is to adjust the on time of the data line.

3 (a) and 3 (b) are data driving circuit diagrams of a flat panel display according to the prior art, and FIG. 3 (a) is a circuit diagram of a current driving type, and FIG. 3 (b) is a circuit diagram of a voltage driving type.

3 (a) and 3 (b), a high line voltage or high voltage is connected to a specific line to be connected to a high line voltage or high current by a switch, and a display line brighter through the data drive 6. Current is applied and displayed on the display panel 7.

However, the brightness control device and method of the flat panel display device according to the related art require an additional circuit to be applied to the data line to apply a higher voltage or current, respectively, so that the chip area is increased, In this case, a stable voltage must be maintained at all times, and in the case of a current driven type, there is a difficulty in considering current matching problems of each current source.

In addition, in order to adjust the on time of each data line, a pulse width modulation (PWM) control circuit must be installed in the data line, which may cause a problem of large chip area.

Accordingly, the present invention is to solve the above problems, to minimize the chip area by eliminating additional elements of the circuit, and to efficiently control the brightness of the desired portion without a separate power consumption using only a digital signal It is an object of the present invention to provide an apparatus and method for controlling the brightness of light.

1 is a driving circuit diagram of a flat panel display according to the prior art;

2 is a scan driving timing diagram when the duty ratio is set to 1/40;

Figure 3 (a) is a current driven circuit diagram of a flat panel display according to the prior art

(b) is a voltage-driven circuit diagram of a flat panel display according to the prior art

4 is a flat panel display driving circuit diagram according to the present invention;

5 is a block diagram of a scan controller of FIG. 4.

6 is a scan line driving timing diagram when the duty ratio is set to 1/48.

7 is a timing diagram for sequentially driving scans and further driving specific lines;

8 is a timing diagram for further driving a specific line and sequentially driving a scan line;

9 is a timing diagram using masking when a specific line is additionally driven.

* Explanation of symbols for main parts of the drawings

1, 11: system interface 2, 12: control circuit

3, 13: memory section 4, 22: data drive circuit section

5, 21: scan drive circuit portion 6: data drive

7: display panel 10: reference signal unit

20: display unit 30: scan control unit

31: frequency converter 32: frequency selector

33: display control unit 34: duty ratio control unit

35: scan signal controller

Features of the brightness control device of a flat panel display device according to the present invention for achieving the above object is a reference signal unit for outputting the duty ratio of the scan signal and the image data to be displayed as an input of an external video signal, and A scan control unit for converting a duty ratio output from the reference signal unit to change the number of pulses capable of driving a scan for one frame time, a duty ratio converted from the scan control unit, and the image data It is configured to include a display unit for receiving the input on the panel.

The scan controller may include a frequency converter configured to generate a plurality of clocks required to convert the duty ratio, a frequency selector configured to select one of the generated clocks as a reference clock, and a duty ratio set to the selected reference clock. And a display controller for synchronizing the duty ratio controller and the scan signal controller to generate a signal for driving a scan line at the set duty ratio.

A feature of the brightness control method of the flat panel display device according to the present invention for achieving the above object is to create a marginal scan time (surplus time) by adjusting the duty ratio of the scan time while maintaining the same frame frequency And sequentially displaying each scan line, and increasing the scan driving time by additionally driving some or all of the free scan time (surplus time) to each scan line to display brighter. To lose.

Hereinafter, a preferred embodiment of a brightness control device and method of a flat panel display device according to the present invention will be described with reference to the accompanying drawings.

4 is a diagram illustrating a flat panel display driving circuit according to the present invention, wherein the input unit 10 includes a system interface unit 11 for converting a control signal or data input from the outside into a control signal for display, and the system interface unit. The memory unit 13 stores a data value corresponding to the control signal converted in (11), and a control circuit unit 12 for determining the same duty ratio according to the control signal converted in the system interface unit 11.

The scan controller 30 converts the duty ratio and adds an extra scan driving time to a specific line while maintaining the same frame frequency as the signal according to the duty ratio determined by the control circuit unit 12. .

In addition, the display unit 20 includes a data drive circuit 22 for applying the output data of the memory unit 13 to each data line, and a scan for applying the driving signal of the scan controller 30 to the scan line and displaying the data. It consists of a drive circuit part 21.

FIG. 5 is a block diagram of the scan controller 30 of FIG. 4, in which the scan controller 30 generates a plurality of clocks necessary for converting a duty ratio, and the generation. A frequency selector 32 for selecting one of the plurality of clocks as a reference clock, a duty ratio controller 34 for setting a duty ratio with the selected reference clock, and a signal for driving a scan line at the set duty ratio And a display control unit 33 for synchronizing the duty ratio control unit 34 and the scan signal control unit 35 with each other.

The scan control unit 30 configured as above drives each scan line by converting a duty ratio while maintaining the same frame frequency, and additionally drives the remaining scan driving time to a specific line, thereby displaying brighter than other scan lines. do.

At this time, in order to convert the duty ratio while maintaining the same frame frequency, it is necessary to convert the frequency required for timing control. The necessary control clock f _control is calculated as follows.

f _control = (the number of clocks required to display one scan line) * (number of frames) * (duty ratio) ^-1

2, the frame frequency is 70Hz, the duty ratio is If 100 clocks are required to display data of one scan line, the control clock f ₄₀ is as follows.

f ₄₀ = 100 * 40 * 70 = 280 kHz

However, under the same conditions as the above embodiment, When converted to, the control clock f ₄₈ is

f ₄₈ = 100 * 48 * 70 = 336 kHz

to be.

The frequency converter 31 of FIG. 5 generates a clock required when the duty ratio is converted as described above to set the duty ratio.

When the duty ratio is set, it is selected as the control clock by the frequency selector 32 and used as the reference clock in the entire timing circuit.

The number of clocks capable of driving the scan for one frame time is changed according to the signal for the duty ratio setting among the control signals input through the system interface unit 11.

The duty ratio is set using the changed clock as a reference clock, and the scan signal controller 35 generates a signal for driving the skin line, and applies a pulse signal to display a specific line brighter.

6 shows the duty ratio in the same manner as described above. The scan drive timing is also shown when.

Duty ratio Than if As can be seen, there are eight more pulses that can drive the scan during the same frame time T _F.

If there are 40 scan lines that are actually driven, the 1st to 40th scan pulses are used to actually display the data, and the time until the 41st to 48th scan pulses (T _R: surplus time) can be displayed on the desired scanline. It is additionally applied and driven.

The method of additionally applying the pulse signal may be classified into three types.

First, a method of additionally driving some or all of the surplus time T _R to the scan line to display each scan line sequentially from the beginning and to display brighter.

Second, a method of sequentially adding a part or all of the surplus time T _R to the scan line to display brighter and then displaying the remaining lines sequentially.

Third, a method of changing the brightness of a specific line in stages is a method of controlling the surplus time T _R through masking to gradually change the brightness of a scan line to be displayed brighter.

7 shows an embodiment of the first method, in which eight pulses of surplus time T _R are shown. The four are rest on line 1 Four phosphorus was applied to line 2.

In this case, the driving time of scan lines 1 and 2 is As the rest of the line By increasing five times, lines 1 and 2 will appear brighter than other lines.

FIG. 8 illustrates an embodiment of the second method, in which all eight pulses of surplus time T _R are continuously added to a scan line in a specific line, and then the remaining lines are sequentially driven so that the first line is different. It will look brighter than the lines.

FIG. 9 illustrates an embodiment of the third method, and may mask the surplus time T _R to gradually change the brightness of a specific line, thereby adjusting the scan line to a desired brightness.

The masking time T _M is generated by a timing combination in the scan signal controller 35.

In this way, the brightness can be adjusted to each line by adjusting the surplus time (T _R ) while actually changing the duty ratio, but as the duty ratio increases, the time to drive each line is relatively reduced. do.

However, each line driving time by the duty ratio adjustment is equally reduced, and the decreasing time is very small compared to the line driving time, so that the overall data display is not significantly affected.

As described above, the apparatus and method for controlling brightness of a flat panel display device according to the present invention can be displayed by changing the brightness of a specific line step by step without displaying power consumption when displaying data on the display device. Data transfer is also possible, and when integrated into an integrated circuit (IC), the chip area can be reduced.

Claims (6)

A reference signal unit for outputting the duty ratio of the scan signal and the video data to be displayed by inputting an external video signal; A scan controller for converting a duty ratio output from the reference signal unit to change the number of pulses capable of driving a scan for one frame time; And a display unit configured to receive the duty ratio and the image data converted by the scan controller and display the image data on a panel. The method of claim 1, The scan controller may include a frequency converter configured to generate a plurality of clocks required to convert the duty ratio; A frequency selector for selecting one of the generated clocks as a reference clock; A duty ratio controller configured to set a duty ratio to the selected reference clock; A scan signal controller configured to generate a signal for driving a scan line at the set duty ratio; And a display control unit for synchronizing the duty ratio control unit and the scan signal control unit. Creating a surplus time by adjusting the duty ratio of the scan time while maintaining the same frame frequency, And controlling the brightness of the screen by additionally driving each scan line to display brighter with the surplus time. The method of claim 3, wherein The adjusting of the brightness of the screen may include displaying each scan line continuously from the beginning, And driving a part or all of the surplus time in addition to the scan line to display brighter. The method of claim 3, wherein Adjusting the brightness of the screen may include continuously driving part or all of the surplus time on a scan line to display brighter; And sequentially displaying the remaining scan lines. The method of claim 3, wherein Adjusting the brightness of the screen includes controlling the brightness of the flat panel display device by changing the brightness of the scan line to be displayed brighter by controlling the surplus time through masking. Way.