JP2807569B2 - Liquid crystal display - Google Patents

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 device for displaying an image using a liquid crystal panel.

In recent years, a liquid crystal display device for displaying an image using a transmission type or a projection type liquid crystal panel has been rapidly popularized as a substitute for a CRT (cathode ray tube display device) because bright color display can be obtained. I have. Conventionally, this type of liquid crystal display device has a contrast adjustment input terminal and a brightness adjustment input terminal, like a CRT, in order to perform optimal display. When the user inputs contrast and brightness adjustment values through these input terminals, the input adjustment values are transmitted to a control circuit that drives the liquid crystal panel. Then, regardless of the content of the video input (hereinafter referred to as “video signal”), the contrast and brightness levels are set according to the levels of the respective adjustment values.

[0003]

Incidentally, the liquid crystal panel has a range of applied voltage capable of expressing gradation (a range corresponding to ΔV in the applied voltage-relative transmittance characteristic illustrated in FIG. 3).
Are narrower than the CRT. Nevertheless, the conventional liquid crystal display sets the contrast and brightness levels irrespective of the content of the video signal. Therefore, when the content of the video signal is near the white saturation point of the liquid crystal panel, there is a problem that the peak portion of the video signal is cut and the details of the bright portion of the screen are not reproduced (white loss). Further, when the content of the video signal is close to the black saturation point and is entirely dark, there is a problem that the details of the dark portion are not reproduced (black loss).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a liquid crystal display device capable of always performing optimal video control irrespective of the content of a video signal and capable of reproducing video details on various screens.

[0005]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a liquid crystal display which controls an image on a liquid crystal panel in accordance with a manually adjusted contrast adjustment value and brightness adjustment value. In the apparatus, a detecting unit that receives a luminance signal separated from a video signal, detects and outputs a peak value and an average value of the received luminance signal at predetermined intervals, and outputs a white standard value representing a white level and a brightness. a storage unit for storing the average standard value representing the average level, the detection unit detects
The above peak value, average value and the storage unit
Calculate the difference between the white standard value and the average standard value, and
The above contrast adjustment value and brightness adjustment value
A calculation unit for correcting and outputting the data for each period, and the detection unit
The range of change between the peak value and average value
Detected for each of the above periods, and the change width is within the specified range
The peak value and average value after the change in the detection unit when
Is output, while the change width exceeds a predetermined range.
The peak value and average value before the change are output to the detection unit
An input data change width detecting unit for inputting the data is provided . In addition, the present invention also relates to a manually entered controller.
The LCD panel is displayed according to the trust adjustment value and brightness adjustment value.
In a liquid crystal display device that controls the image,
Receiving the luminance signal separated from the force,
The peak and average values are detected and output at predetermined intervals.
And the average level of white standard value and brightness
A storage unit for storing an average standard value representing the
The peak value and average value detected by the section are stored in the storage section
The above white standard value. Calculate the difference from the average standard value
And adjusts the contrast adjustment value. Bright
A calculation unit for correcting and outputting the adjustment value for each of the periods,
The contrast adjustment value, brightness
The width of each change in the adjustment value is detected for each of the above periods.
When the change width is within a predetermined range,
Output contrast adjustment value and brightness adjustment value after change
On the other hand, if the change width exceeds a predetermined range,
Maintains the contrast and brightness adjustment values before the change
Video control change width detection unit
It is characterized by:

Further, the detecting section detects a change width between a peak value and an average value which are continuously detected for each of the periods, and when the change width is within a predetermined range, the detecting section changes the detection value. It is desirable to provide an input data change width detection unit that outputs the subsequent peak value and average value, and outputs the data while maintaining the peak value and average value before change when the change width exceeds a predetermined range. desirable.

[0007] Further, the calculating section detects the respective change widths of the contrast adjustment value and the brightness adjustment value which are continuously output for each of the periods, and when the change width is within a predetermined range, the calculating section detects the change width. While the contrast adjustment value after the change and the brightness adjustment value are output, while the change width exceeds the predetermined range, the contrast adjustment value before the change,
It is desirable to include a video control change width detection unit that outputs while maintaining the brightness adjustment value.

The image processing apparatus further includes a screen area dividing section for dividing the luminance signal separated from the video signal into a plurality of areas constituting one screen, and the detecting section detects the luminance signal of each of the areas. It is desirable to detect and output the peak value and the average value.

[0009]

The liquid crystal display of the present invention operates as follows. First, the detection unit receives a luminance signal separated from a video signal, and detects a peak value and an average value of the received luminance signal, for example, every one field period. Next, the calculation unit calculates a difference between the peak value and the average value detected by the detection unit and the white standard value and the average standard value stored in the storage unit. Then, in accordance with this difference, the contrast adjustment value and the brightness adjustment value input to the input terminal are corrected and output every period (one field period in this example) same as the operation cycle of the detection unit. For example, if the peak value and average value exceed the white standard value and average standard value, that is, if a video signal near the white saturation point of the liquid crystal panel is input, the excess Decrease the level of the contrast adjustment value and brightness adjustment value. When the peak value and the average value are lower than the white standard value and the average standard value, that is, in a case where the screen is entirely dark near the black saturation point, the contrast adjustment value and the brightness adjustment are reduced by the lower values. Increase the value level.

As described above, unlike the conventional liquid crystal display device, the levels of the input contrast adjustment value and brightness adjustment value are corrected based on the contents of the video signal. Therefore, it is possible to always perform optimal video control irrespective of the content of the video signal, and it is possible to reproduce the details of the video on various screens.

[0011] Further, the detecting section detects a variation width between the peak value and the average value which are continuously detected for each of the periods, and when the variation width falls within a predetermined range, the detecting section changes the value. In the case where the input data change width detection unit is provided to output the subsequent peak value and average value while maintaining the peak value before change and the average value when the change width exceeds a predetermined range and outputting the data. , Video signal (and therefore luminance signal)
The peak value and the average value output by the detection unit when the content of changes extremely are prevented from extremely changing in a short period of time. For example, when the width of change in the peak value and the average value between the first field period and the second field period following the first field period exceeds a predetermined range, the input data change width detection unit sends the first data period before the change to the detection unit. Output the peak value and average value of the field period. Subsequently, the input data change width detection unit changes to the detection unit when the change width of the peak value and the average value between the second field period and the third field period following this is within a predetermined range. While the peak value and the average value of the subsequent third field period are output, when the change width exceeds the predetermined range, the detection unit continuously outputs the peak value and the average value of the first field period before the change. The peak value and the average value in the first field period are continuously output until the variation width of the peak value and the average value between two consecutive periods falls within a predetermined range. In this way, the input data change width detection unit prevents the peak value and the average value output by the detection unit from extremely changing in a short time when the content of the video signal changes extremely. Therefore, when the content of the screen changes drastically, the contrast adjustment value and the brightness adjustment value are smoothly corrected according to the state after the screen is stabilized.

[0012] Further, the calculating section detects the respective change widths of the contrast adjustment value and the brightness adjustment value which are continuously output for each of the periods, and when the change width is within a predetermined range, the calculating section detects the change width. While the contrast adjustment value after the change and the brightness adjustment value are output, while the change width exceeds the predetermined range, the contrast adjustment value before the change,
In the case where a video control change width detection unit that outputs while maintaining the brightness adjustment value is provided, when the content of the video signal (and thus the luminance signal) changes extremely, the video control change width detection unit outputs the input data change width. The width detector operates in exactly the same way as for the detector. Therefore,
When the contents of the screen change extremely, the contrast adjustment value and brightness adjustment value output by the above calculation unit are prevented from changing extremely in a short period of time, and the correction is made smoothly according to the state after the screen is stabilized Is done.

Further, the liquid crystal display device has a screen area dividing section for dividing a luminance signal separated from the video signal into a plurality of areas constituting one screen, and the detecting section includes When detecting and outputting the peak value and the average value of the luminance signal for each area, the contrast adjustment value and the brightness adjustment value are corrected for each area based on the content of the video signal. Therefore, more detailed video control is possible.

[0014]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a liquid crystal display device of the present invention will be described in detail with reference to the illustrated embodiments.

As shown in FIG. 1, this liquid crystal display device
An A / D converter 1, a Y / C separation circuit 2, a video processing circuit 3, and a screen area dividing unit 4 are provided. Also, a digital peak detection circuit 5, an average value detection circuit 6, and data registers 7, 8 as a detection unit, an operation processing algorithm storage unit 9 as a storage unit, and an operation circuit 10 as an operation unit
And a DAC circuit 13. Further, a contrast adjustment input detection circuit 11 and a brightness adjustment input detection circuit 12 that detect a contrast adjustment value and a brightness adjustment value input by a user and output the digital data as digital data.
A GB control circuit 14 and a liquid crystal panel 15 are provided. Reference numerals 16 and 17 denote input data change width detection units, and reference numeral 18 denotes a video control change width detection unit. It is to be noted that the numbers represented by lowercase letters in the figure represent the number of bits (for digital signals) or the number of signal lines (for analog signals).

First, the input video signal is sampled by the A / D converter 1 and quantized into 8-bit digital data. The Y / C separation circuit 2 converts the data into a luminance signal.
(Y signal) and a color signal (C signal) are separated into analog signals by a DAC (included in the block) and output. Next, the video processing circuit 3 color-demodulates the luminance signal and the color signal to create a color difference signal, and further creates and outputs three primary color (RGB) signals from the color difference signal. The RGB control circuit 14 receives the three primary color signals and shifts the levels of the three primary color signals according to a contrast adjustment value and a brightness adjustment value (described later) output from the DAC circuit 13. Then, the contrast and brightness of the liquid crystal panel 15 are controlled by the shifted three primary color signals.
The liquid crystal panel 15 is configured to drive pixels arranged in a matrix in a line-sequential manner by horizontal and vertical drive circuits (not shown).

The screen area dividing section 4 can divide the digital luminance signal output from the Y / C separation circuit 2 corresponding to a plurality of areas constituting one screen. In addition,
Here, an example in which division is not performed will be described.

The digital peak detection circuit 5 and the average value detection circuit 6 receive the luminance signal output from the Y / C separation circuit 2 through the screen area division unit 4, and in this example, 1
The peak value and average value of the luminance signal are detected for each field period. The data representing the peak value and the average value are stored in the data register 7 and the data register 8, respectively.

The arithmetic processing algorithm storage unit 9 stores a processing algorithm of the arithmetic circuit 10, a white standard value (011111) representing a white level in binary and an average standard value (100,000) representing the average level of brightness (top level). Represents a sign. 0 represents plus, and 1 represents minus.). The arithmetic circuit 10 calculates the peak values stored in the data registers 7 and 8 according to the processing algorithm described above.
The differences between the average value and the white standard value and the average standard value are calculated, and the contrast adjustment input detection circuit 1
1. The contrast adjustment value and the brightness adjustment value detected by the brightness adjustment input detection circuit 12 are corrected and output every one field period.

For example, as shown in FIG. 2, the contrast adjustment value and the brightness adjustment value at this time are each represented by (0
11111), (000000) (corresponding to +31.0 in decimal notation). The peak value and the average value (the values stored in the data registers 7 and 8) detected from the luminance signal are, for example, (101110) and (011000) in the binary system, and the white standard value (011111) and the average Standard value
When the level is higher (brighter) than (100,000), the levels of the contrast adjustment value and the brightness adjustment value are reduced. (I) Since the difference between the peak value and the white standard value is 101110-011111 = 001111, this difference is subtracted from the contrast adjustment value, and after correcting 011111-001111 = 01010000 (+16 in decimal system) Is output as the contrast adjustment value of. (Ii) Since the difference between the average value and the average standard value is 110000-1000000 = 10000, the difference is subtracted from the brightness adjustment value to correct 000000-010000 = 1110000 (-16 in decimal notation). Is output as the brightness adjustment value.

Next, the contrast adjustment value and the brightness adjustment value are both (000000) and (000000) in the binary system.
It is assumed that The peak value and average value detected from the luminance signal are, for example, (001111), (010000) in binary system.
When the level is lower than the white standard value (011111) and the average standard value (100,000) (they are dark and have low contrast), the levels of the contrast adjustment value and the brightness adjustment value are increased. That is, (i) the difference between the peak value and the white standard value is 001111-011111 = 1110,000. The value obtained by changing the sign of the difference to the contrast adjustment value is added, and 000000 + 010000 = 00000 (in decimal system) +16) is output as the corrected contrast adjustment value. (ii) The difference between the average value and the average standard value is expressed by: 00000-1000000 = 1110,000. The brightness adjustment value obtained by changing the sign of the difference is added to the result. ) Is output as the corrected brightness adjustment value.

The DAC (digital-to-analog converter) circuit 13 converts the contrast adjustment value and brightness adjustment value (digital data) output from the arithmetic circuit 10 into analog data and outputs the analog data. As already mentioned, RGB
The control circuit 14 controls the contrast and brightness of the liquid crystal panel 15 by shifting the three primary color codes according to the data (contrast adjustment value and brightness adjustment value).

As described above, the liquid crystal display device lowers the levels of the contrast adjustment value and the brightness adjustment value input by the user when the content of the video signal is near the white saturation point of the liquid crystal panel 15. If the content of the video signal is close to the black saturation point and is entirely dark, the levels of the contrast adjustment value and the brightness adjustment value can be increased. That is, the levels of the contrast adjustment value and the brightness adjustment value input by the user are corrected based on the content of the video signal. Therefore, optimal video control can always be performed regardless of the content of the video signal,
You can reproduce the details of the video on various screens.

The input data change width detecting sections 16 and 17
Prevents the contents of the data registers 7 and 8 from extremely changing in a short period of time when the contents of the video signal (and therefore the luminance signal) change extremely. For example, the peak value between a first field period and a subsequent second field period,
When the change width of the average value exceeds a predetermined range, the input data change width detection units 16 and 17 do not update the contents of the data registers 7 and 8 but update the peak value of the first field period before the change,
Keep the average value. Subsequently, the input data change width detectors 16 and 17 perform the above-mentioned data change when the change width of the peak value and the average value between the second field period and the third field period following this is within a predetermined range. The peak values and average values of the third field period after the change are stored in the registers 7 and 8, while the peak values of the first field period before the change are stored in the data registers 7 and 8 when the change width exceeds a predetermined range. , And keep the average value. The peak value and the average value in the first field period are continuously held in the data registers 7 and 8 until the change width of the peak value and the average value between two consecutive periods falls within a predetermined range. In this way, the input data change width detection units 16 and 17
When the content of the video signal is extremely changed, the peak value and the average value stored in the data registers 7 and 8 are prevented from being extremely changed in a short time. Therefore, when the content of the screen changes drastically, the contrast adjustment value and the brightness adjustment value can be smoothly corrected according to the state after the screen is stabilized.

When the content of the video signal changes extremely, the video control change width detecting section 18 outputs
The output data (contrast adjustment value, brightness adjustment value) of the C circuit 13 is prevented from extremely changing in a short period of time (just as the input data change width detection units 16 and 17 operate on the data registers 7 and 8). Operate). Therefore, when the content of the screen changes drastically, the contrast adjustment value and the brightness adjustment value can be smoothly corrected according to the state after the screen is stabilized.

In this embodiment, the case where the screen is not divided has been described. However, the present invention is not limited to this case. The screen area dividing unit 4 may divide one screen into a plurality of areas, and correct the contrast adjustment value and the brightness adjustment value input by the user for each area. In that case, a plurality of data registers 7 and 8 are provided according to the number of divided areas.

In this embodiment, the contrast adjustment value and the brightness adjustment value are corrected independently of each other. However, the present invention is not limited to this. By combining the peak value and the average value of the luminance signal, and when the screen is divided, the data for each screen area (peak value, average value)
By combining these, more detailed image control can be performed.

[0028]

As is clear from the above, the present invention provides
In a liquid crystal display device that controls an image on a liquid crystal panel according to a manually-adjusted contrast adjustment value and brightness adjustment value, a luminance signal separated from a video signal is received, and a peak of the received luminance signal is received. A detection unit that detects and outputs a value and an average value at predetermined intervals, a storage unit that stores a white standard value that represents a white level and an average standard value that represents an average level of brightness, and a detection unit that detects the value. A difference between the peak value, the average value and the white standard value and the average standard value stored in the storage unit is calculated, and the contrast adjustment value and the brightness adjustment value are calculated for each of the periods according to the difference. Since an arithmetic unit for correcting and outputting the image is provided, optimal image control can always be performed irrespective of the content of the image signal, and the details of the image can be reproduced on various screens.

Further, the detecting unit detects a change width between the peak value and the average value which are continuously detected for each of the periods, and when the change width is within a predetermined range, the detecting unit changes the value. In the case where the input data change width detection unit is provided to output the subsequent peak value and average value while maintaining the peak value before change and the average value when the change width exceeds a predetermined range and outputting the data. It is possible to prevent the peak value and the average value output by the detection unit from extremely changing in a short time when the content of the image is extremely changed, and to smoothly correct the contrast adjustment value and the brightness adjustment value. Can be.

In addition, the arithmetic unit detects the change width of each of the contrast adjustment value and the brightness adjustment value output continuously for each of the periods, and when the change width is within a predetermined range, the arithmetic unit detects the change width. While the contrast adjustment value after the change and the brightness adjustment value are output, while the change width exceeds the predetermined range, the contrast adjustment value before the change,
If a video control change width detection unit that maintains and outputs the brightness adjustment value is provided, the contrast adjustment value and brightness adjustment value output by the calculation unit when the content of the screen changes extremely will be extremely short. It is possible to prevent the change, and the contrast adjustment value and the brightness adjustment value can be smoothly corrected.

The image processing apparatus further includes a screen area dividing section for dividing the luminance signal separated from the video signal into a plurality of areas constituting one screen, and the detecting section detects the luminance signal of each of the areas. When detecting and outputting peak and average values,
The above-described contrast adjustment value and brightness adjustment value can be corrected for each of the above-mentioned regions, and therefore, more detailed image control can be performed.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration of a liquid crystal display device according to an embodiment of the present invention.

FIG. 2 is a diagram schematically illustrating levels of a contrast adjustment value and a brightness adjustment value input to the liquid crystal display device.

FIG. 3 is a diagram showing electro-optical characteristics of a liquid crystal panel.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 A / D converter 2 Y / C separation circuit 3 Video processing circuit 4 Screen area division part 5 Digital peak detection circuit 6 Average value detection circuit 7,8 Data register 9 Operation processing algorithm storage part 10 Operation circuit 11 Contrast adjustment input detection Circuit 12 Brightness adjustment input detection circuit 13 DAC circuit 14 RGB control circuit 15 Liquid crystal panel 16, 17 Input data change width detection unit 18 Image control change width detection unit

Claims (2)

(57) [Claims] 1. A liquid crystal display device that controls an image on a liquid crystal panel in accordance with a contrast adjustment value and a brightness adjustment value that are manually input. a storage unit for storing a detection unit which detects and outputs the predetermined intervals the average value and the peak value of the luminance signal, and a mean standard value representing the mean level of white standard values and brightness representing white level, the The peak value and average value detected by the detection unit and the storage
The difference between the white standard value and the average standard value stored in the
Calculate each and adjust the contrast according to this difference.
Value and brightness adjustment value corrected and output for each of the above periods
Between the peak value and the average value continuously detected by the calculation unit and the detection unit.
The width of change is detected for each of the above periods, and
If the peak is within the predetermined range, the peak
Value and average value, while the variation range
If the peak value and the average value before the change are
Input data change width detector for maintaining and outputting
A liquid crystal display device comprising and. 2. The contrast adjustment manually input.
value. Control LCD panel video according to brightness adjustment value
Receiving a luminance signal separated from a video input,
Detects and outputs signal peak and average values at predetermined intervals
A detector for the average level of the white standard values and brightness representing the white level table
A storage unit for storing an average standard value and the peak value detected by the detection unit. Average value and the above memory
The above white standard value stored in the section. Find the difference from the average standard value.
Calculate each and adjust the contrast according to this difference.
value. The function of correcting and outputting the brightness adjustment value for each of the above periods
Calculation unit and a contrast adjustment value continuously output by the calculation unit. Light
The width of each change in the adjustment value is detected for each of the above periods.
When the change width is within a predetermined range,
Output contrast adjustment value and brightness adjustment value after change
On the other hand, if the change width exceeds a predetermined range,
Maintains the contrast and brightness adjustment values before the change
Video control change width detection unit
A liquid crystal display device according to feature that.