JP3960763B2 - Method for adjusting liquid crystal display device and liquid crystal display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital image display device adjustment method, a digital image display device, a liquid crystal display device adjustment method, and a liquid crystal display device. More specifically, the present invention relates to an adjustment method for a digital image display device, a digital image display device, and a liquid crystal that can be adjusted to characteristics desired by a user without using a sensor that measures the luminance of the screen of the display device. The present invention relates to a method for adjusting a display device and a liquid crystal display device.
[0002]
[Prior art]
FIG. 7 is an explanatory diagram showing a configuration of a conventional color liquid crystal display device 500 and connections for user adjustment.
The liquid crystal display device 500 displays a digital signal receiver 1 that receives a digital signal of a display image from a host device (such as a personal computer) PC that can output a digital signal of a display image, and a display from a host device PC that can output an analog signal of the display image. An A / D converter 2 that receives an analog signal of an image and converts it into a digital signal, and an input selection switch that selects either the digital signal via the digital signal receiver 1 or the digital signal via the A / D converter 2 3, a resolution conversion unit 4 that converts the resolution so that the resolution of the input digital signal matches the resolution of the fixed color liquid crystal display panel 10, and an OSD (On Screen Display) signal is mixed with the digital signal of the image The brightness of the color liquid crystal display panel 10 with respect to the input value of the OSD signal synthesis unit 6 and the digital signal is -The conversion table 7 for converting the input value of the digital signal so as to be the characteristic desired by the user, that is, the user desired characteristic, and the display luminance more than the number of gradations of the input value of the digital signal to the color liquid crystal display panel 10 A gradation enlarging unit 8 that performs a gradation enlarging process (such as dithering) for expanding the number of effective gradations, a color liquid crystal display panel 10, a backlight 11, and a backlight driving unit 53 that drives the backlight 11. And a microprocessor 14 for controlling the operation of the color liquid crystal display device 500 and a serial interface 15 for performing communication for control with the host device PC.
[0003]
The number of gradations of the input value of the digital signal to the color liquid crystal display panel 10 is, for example, 8 bits, and the number of gradations of the input value of the image from the host device PC is, for example, 8 bits. To realize this, the conversion table 7 expands the number of gradations of the output value to, for example, 10 bits, and the gradation expansion unit 8 converts this into 8 bits of data with an effective gradation number of, for example, 10 bits. The data is converted using a spatial diffusion method and input to the color liquid crystal display panel 10.
[0004]
When the user adjusts the color liquid crystal display device 500, the color luminance sensor Cs is attached to the front surface of the color liquid crystal display panel 10. Then, the color liquid crystal display device 500 and the color luminance sensor Cs are connected to the host device PC. Then, the host device PC and the color liquid crystal display device 500 cooperate to execute adjustment processing of the color liquid crystal display device 500.
[0005]
FIG. 8 is a flowchart showing the adjustment process of the color liquid crystal display device 500. This process is performed for each of R, G, and B colors.
In step S1, the user inputs a desired gamma characteristic value and white balance to the host apparatus PC.
In step S2, the host device PC calculates user desired characteristics based on the gamma characteristic value and white balance given by the user.
[0006]
In step S3, the host apparatus PC inputs an input value that gives a maximum luminance value with user-desired characteristics, for example, “255” to the color liquid crystal display apparatus 500 as a digital signal of a display image.
In step S4, the microprocessor 14 of the color liquid crystal display device 500 rewrites the conversion table 7 so as to convert an input value such as “255” into an output value such as “1023” at which the color liquid crystal display panel 10 has the maximum luminance. .
In step S5, the host device PC measures the luminance of the color liquid crystal display panel 10 with the color luminance sensor Cs and notifies the microprocessor 14 of the color liquid crystal display device 500 of this. The microprocessor 14 adjusts the luminance of the backlight 11 so that the measured value of the luminance of the color liquid crystal display panel 10 becomes the maximum luminance value of the user desired characteristic.
[0007]
In step S6, the host apparatus PC sequentially inputs, to the color liquid crystal display apparatus 500, an input value that gives a minimum luminance value with user-desired characteristics, for example, “0” as a digital signal of a display image.
In step S7, the host device PC measures the luminance of the color liquid crystal display panel 10 with the color luminance sensor Cs, and notifies the microprocessor 14 of the color liquid crystal display device 500 of this. The microprocessor 14 rewrites the conversion table 7 so that the input value, for example, “0” is converted into an output value, for example, “50” such that the measured value of the luminance of the color liquid crystal display panel 10 becomes the minimum luminance value of the user desired characteristic. .
Steps S6 and S7 are repeated for input values that give intermediate luminance values with user-desired characteristics, for example, “1” to “254”, and the conversion table 7 is completed.
[0008]
By the adjustment process, the luminance characteristic of the color liquid crystal display panel 10 with respect to the input value of the digital signal becomes the user desired characteristic. That is, the color liquid crystal display device 500 can be adjusted to the gamma characteristic value and white balance desired by the user.
[0009]
[Problems to be solved by the invention]
In the conventional color liquid crystal display device 500 and its adjustment method, the adjustment itself can be automatically advanced. However, before the adjustment, the color luminance sensor Cs is attached to the front surface of the color liquid crystal display panel 10, and the adjustment is performed. It is necessary to connect the color luminance sensor Cs to the host device PC. After adjustment, the color luminance sensor Cs is removed from the front surface of the color liquid crystal display panel 10 and the color luminance sensor Cs is disconnected from the host device PC. Necessary. In addition, the user needs to store the color luminance sensor Cs.
However, if the user performs the above-described work or if the user keeps the color luminance sensor Cs, there is a problem that the user is burdened.
Accordingly, an object of the present invention is to provide an adjustment method for a digital image display device, a digital image display device, and a liquid crystal that can be adjusted to characteristics desired by a user without using a sensor that measures the luminance of the screen of the display device. It is an object to provide a method for adjusting a display device and a liquid crystal display device.
[0010]
[Means for Solving the Problems]
In a first aspect, the present invention stores an actual measurement characteristic, which is a characteristic of an input value to a digital image display device and a luminance value measured in advance, in the digital image display apparatus, to the digital image display apparatus desired by the user. Create a conversion table that converts the input value to the digital image display device into the input value to the digital image display device so as to realize the user desired characteristic that is the characteristic of the input value and the luminance value of Provided is a method for adjusting a digital image display device, characterized in that an input to the digital image display device is applied to the digital image display device.
In the above configuration, the digital image display device is a device that displays an image by digital input, such as a liquid crystal display panel or a plasma display panel. A digital image display device refers to a display device using a digital image display device.
In the adjustment method of the digital image display device according to the first aspect, an actual measurement characteristic which is a characteristic of an input value to the digital image display device and a luminance value measured in advance is stored in the digital image display apparatus. Then, by reading the measured characteristics stored in the digital image display device to be adjusted, a conversion table for realizing the user desired characteristics can be created without using a sensor for measuring the screen brightness. Therefore, the user's work of attaching / detaching the brightness sensor to / from the screen of the display device is not required, and it is not necessary for the user to store the brightness sensor.
[0011]
In a second aspect, the present invention provides a method for adjusting a digital image display device having the above-described configuration, wherein the digital image display device and a computer are connected, and measured characteristics are output from the digital image display device to the computer. Conversion table data is calculated by a computer based on given user desired characteristics and input to a digital image display device, and the conversion table is created by the digital image display device based on the conversion table data. A method for adjusting a digital image display device is provided.
In the adjustment method of the digital image display apparatus according to the second aspect, the function of creating the conversion table for realizing the user desired characteristics can be substantially shared by an external computer. As compared with this, the configuration of the digital image display device can be simplified.
[0012]
In a third aspect, the present invention provides a digital image display device, a conversion table for converting an input value to the digital image display device into an input value to the digital image display device, and an input value to the digital image display device. An actual measurement characteristic storage means for storing an actual measurement characteristic which is a characteristic of a luminance value measured in advance; an interface means for outputting the actual measurement characteristic to the outside and receiving conversion table data input from the outside; and the conversion table data. There is provided a digital image display device comprising conversion table creating means for creating the conversion table based on the above.
In the digital image display device according to the third aspect, the adjustment method for the digital image display device according to the second aspect can be suitably implemented.
[0013]
In a fourth aspect, the present invention stores an actual measurement characteristic, which is a characteristic of an input value to a liquid crystal display panel and a luminance value measured in advance, in the liquid crystal display device, and an input value to the liquid crystal display device desired by the user. A conversion table for converting an input value to the liquid crystal display device into an input value to the liquid crystal display panel so as to realize a user desired characteristic that is a characteristic of the brightness value is created. Provided is a method for adjusting a liquid crystal display device, wherein an input is applied to the liquid crystal display panel.
In the adjustment method of the liquid crystal display device according to the fourth aspect, an actual measurement characteristic that is a characteristic of an input value to the liquid crystal display panel and a luminance value measured in advance is stored in the liquid crystal display device. If the actual measurement characteristics stored in the liquid crystal display device to be adjusted are read, a conversion table for realizing the user desired characteristics can be created without using a sensor for measuring the screen brightness. Therefore, the user's work of attaching / detaching the brightness sensor to / from the screen of the display device is not required, and it is not necessary for the user to store the brightness sensor.
When the color liquid crystal display device is expressed in detail, the measured characteristics, which are the characteristics of the R, G, and B input values to the color liquid crystal display panel and the previously measured luminance values of R, G, and B, are expressed in color. It is stored in the liquid crystal display device so as to realize user desired characteristics which are characteristics of R, G, B input values and R, G, B luminance values to the color liquid crystal display apparatus desired by the user. A conversion table for converting each input value of R, G, B to the color liquid crystal display device into each input value of R, G, B to the color liquid crystal display panel is created, and the color liquid crystal display device is converted via this conversion table The R, G, and B inputs are applied to the color liquid crystal display panel.
[0014]
In a fifth aspect, the present invention relates to a method of adjusting a liquid crystal display device having the above-described configuration, and measures the luminance of the backlight when measuring the actual measurement characteristics and stores the measured luminance in the liquid crystal display device. There is provided an adjustment method for a liquid crystal display device, characterized in that the luminance is measured and the content of the conversion table is corrected based on the difference from the stored luminance.
In the adjustment method of the liquid crystal display device according to the fifth aspect, the contents of the conversion table are corrected according to the luminance variation of the backlight, so that the user-desired characteristics can be realized even when the backlight changes with time.
When the color liquid crystal display device is expressed in detail, the R, G, and B luminances of the backlight when the measured characteristics are measured are measured and stored in the color liquid crystal display device, and then the backlight is displayed. The R, G, and B luminances are measured, and the contents of the conversion table are corrected based on the difference from the stored luminance. In this case, since the contents of the conversion table are corrected according to the color variation of the backlight, the user-desired characteristics can be realized even if the backlight changes with time.
[0015]
In a sixth aspect, the present invention provides a liquid crystal display device adjustment method configured as described above, wherein the liquid crystal display device is connected to a computer, and the actual measurement characteristics are output from the liquid crystal display device to the computer. A conversion table data is calculated by a computer based on user desired characteristics and input to a liquid crystal display device, and the conversion table is created by the liquid crystal display device based on the conversion table data. Provide a method of adjustment.
In the adjustment method of the liquid crystal display device according to the sixth aspect, since the function of substantially creating the conversion table for realizing the user desired characteristics can be shared by an external computer, when this function is built-in In comparison, the configuration of the liquid crystal display device can be simplified.
[0016]
In a seventh aspect, the present invention provides the method for adjusting a liquid crystal display device having the above-described configuration, wherein the computer is given a gamma characteristic value and white balance from a user, and obtains the user desired characteristic based on the gamma characteristic value and white balance. A method for adjusting a liquid crystal display device is provided.
In the adjustment method of the liquid crystal display device according to the seventh aspect, a function for substantially creating a conversion table for realizing user desired characteristics can be shared by an external computer. In comparison, the configuration of the liquid crystal display device can be simplified.
[0017]
In an eighth aspect, the present invention relates to a liquid crystal display panel, a conversion table for converting an input value to the liquid crystal display device into an input value to the liquid crystal display panel, an input value to the liquid crystal display panel, and a previously measured luminance. An actual measurement characteristic storage means for storing an actual measurement characteristic that is a value characteristic; an interface means for outputting the actual measurement characteristic to the outside and receiving conversion table data input from the outside; and the conversion based on the conversion table data. There is provided a liquid crystal display device comprising conversion table creating means for creating a table.
In the liquid crystal display device according to the eighth aspect, the liquid crystal display device adjustment method according to the sixth aspect can be suitably implemented.
When the color liquid crystal display device is expressed in detail, the R, G, B input values to the color liquid crystal display panel and the color liquid crystal display device are input to the R, G, B inputs to the color liquid crystal display panel. A conversion table for conversion into values, and an actual measurement characteristic storage means for storing an actual measurement characteristic which is a characteristic of R, G, B input values to the color liquid crystal display panel and preliminarily measured R, G, B luminance values A color liquid crystal comprising: interface means for outputting the measured characteristics to the outside and receiving conversion table data input from the outside; and conversion table creating means for creating the conversion table based on the conversion table data It becomes a display device.
[0018]
In a ninth aspect, the present invention stores a liquid crystal display panel, a conversion table for converting an input value to the liquid crystal display device into an input value to the liquid crystal display panel, and a backlight luminance when the conversion table is created. Backlight reference color storage means, backlight brightness measurement means for measuring the brightness of the backlight, and correction of the contents of the conversion table based on the difference between the stored backlight brightness and the measured backlight brightness There is provided a liquid crystal display device characterized by comprising a correcting means.
In the liquid crystal display device according to the ninth aspect, the contents of the conversion table are corrected according to the luminance fluctuation of the backlight, so that the user-desired characteristics can be realized even if the backlight changes with time.
When the color liquid crystal display device is expressed in detail, the R, G, B input values to the color liquid crystal display panel and the color liquid crystal display device are input to the R, G, B inputs to the color liquid crystal display panel. A conversion table for conversion into values, backlight reference color storage means for storing each R, G, B luminance of the backlight when the conversion table is created, and measurement of each R, G, B luminance of the backlight The color liquid crystal display device includes a backlight luminance measuring unit that performs correction, and a correction unit that corrects the content of the conversion table based on the difference between the stored backlight luminance and the measured backlight luminance. In this case, since the contents of the conversion table are corrected according to the color variation of the backlight, the user-desired characteristics can be realized even if the backlight changes with time.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. Note that the present invention is not limited thereby.
[0020]
FIG. 1 is an explanatory diagram showing a configuration of a color liquid crystal display device 100 according to an embodiment of the present invention and connections for user adjustment.
The liquid crystal display device 100 includes a digital signal receiver 1 that receives a digital signal of a display image from a host device PC that can output a digital signal of a display image, and an analog signal of a display image from the host device PC that can output an analog signal of the display image. An A / D converter 2 that receives the signal and converts it into a digital signal, an input selection switch 3 that selects either the digital signal via the digital signal receiver 1 or the digital signal via the A / D converter 2, and an input A resolution conversion unit 4 that converts the resolution so that the resolution of the digital signal is matched with the resolution of the fixed color liquid crystal display panel 10, an OSD signal synthesis unit 6 that mixes the OSD signal with the digital signal of the image, and a digital signal The luminance of the color liquid crystal display panel 10 with respect to the input value of The effective number of gradations of the display luminance is expanded more than the number of gradations of the input value of the digital signal to the color liquid crystal display panel 10 and the conversion table 7 for converting the input value of the digital signal so that the desired characteristic is obtained. A gradation expansion unit 8 that performs gradation expansion processing, a color liquid crystal display panel 10, a backlight 11, a backlight luminance sensor 12 that measures the luminance of the backlight 11, and a backlight that drives the backlight 11. The drive unit 13, the microprocessor 14 that controls the operation of the color liquid crystal display device 500, the serial interface 15 that performs control communication with the host device PC, and each of R, G, and B to the color liquid crystal display panel 10 An actual measurement characteristic storage unit 16 is provided for storing an input value and an actual measurement characteristic that is a characteristic of R, G, and B luminance values measured in advance.
[0021]
The number of gradations of the input value of the digital signal to the color liquid crystal display panel 10 is, for example, 8 bits, and the number of gradations of the input value of the image from the host device PC is, for example, 8 bits. To realize this, the conversion table 7 expands the number of gradations of the output value to, for example, 10 bits, and the gradation expansion unit 8 converts this into 8 bits of data with an effective gradation number of, for example, 10 bits. The data is converted using a spatial diffusion method and input to the color liquid crystal display panel 10.
[0022]
When the user adjusts the color liquid crystal display device 100, the color liquid crystal display device 100 is connected to the host device PC. Then, the host device PC and the color liquid crystal display device 100 cooperate to execute adjustment processing of the color liquid crystal display device 100.
[0023]
FIG. 2 is a conceptual diagram of actual measurement characteristics stored in the actual measurement characteristic storage unit 16.
The actually measured characteristics are R, G, and B input values V that are input to the color liquid crystal display panel 10 via the gradation enlargement unit 8, and R, G, and B luminance values Kv that are measurement results thereof. The luminance values BL_R, BL_G, BL_B of the backlight R, G, B at the time of the measurement.
[0024]
FIG. 3 is a flowchart showing the adjustment process of the color liquid crystal display device 100. This process is performed for each of R, G, and B colors.
In step P1, the user inputs a desired gamma characteristic value and white balance to the host apparatus PC.
[0025]
In step P2, the host device PC calculates user desired characteristics based on the gamma characteristic value and white balance given by the user.
FIG. 4 is a conceptual diagram of user desired characteristics.
The user-desired characteristics are R, G, and B input values U input to the color liquid crystal display device 100 and R, G, and B luminance values Ku that the user desires.
[0026]
Returning to FIG. 3, in step P <b> 3, the host device PC reads the measured characteristics from the color liquid crystal display device 100.
[0027]
In step P4, the host device PC takes out the pair of the input value U of the user desired characteristic and the luminance value Ku, obtains the input value V of the actually measured characteristic corresponding to the luminance value Ku, and converts the input value U into the output value V. To obtain conversion table data.
For example, a pair of the input value U = 100 and the luminance value Ku = 72 in FIG. 4 is taken out, the input value V = 101 of the actually measured characteristic in FIG. 2 corresponding to the luminance value Ku = 72 is obtained, and the input value U = 100 is obtained. Conversion table data to be converted to output value V = 101 is obtained. In this example, since the luminance value Kv = 72 that is the same as the luminance value Ku = 72 is in the actually measured characteristic of FIG. 2, the input value V = 101 is obtained immediately, but the luminance value Kv that is the same as the luminance value Ku is If the measured characteristic is not found, the input value V is calculated by interpolation calculation.
[0028]
In step P <b> 5, the host device PC passes the conversion table data to the color liquid crystal display device 100. The color liquid crystal display device 100 creates the conversion table 7 based on the conversion table data.
FIG. 5 is a conceptual diagram of the conversion table 7.
[0029]
By the adjustment process, the luminance characteristic of the color liquid crystal display panel 10 with respect to the input value of the digital signal becomes the user desired characteristic. That is, the color liquid crystal display device 100 can be adjusted to the gamma characteristic value and white balance desired by the user without using a sensor (Cs in FIG. 7) that measures the luminance of the screen of the color liquid crystal display panel 10.
[0030]
FIG. 6 is a flowchart showing a correction process that the color liquid crystal display device 100 executes regularly or arbitrarily.
In step H <b> 1, the microprocessor 14 reads the R, G, and B luminance values BL_R, BL_G, and BL_B of the backlight 11 from the measured characteristic storage unit 16.
In step H2, the microprocessor 14 adjusts the backlight 11 via the backlight drive unit 13 so as to approach the read luminance values BL_R, BL_G, and BL_B.
In step H <b> 3, the microprocessor 14 measures the color of the backlight 11 with the backlight luminance sensor 12.
[0031]
In step H4, the microprocessor 14 compares the read luminance values BL_R, BL_G, and BL_B with the actually measured colors, and ends the process if the difference is within an allowable range (the contents of the current conversion table are maintained). If the difference is larger than the allowable range, the process proceeds to step H5.
[0032]
In step H5, the contents of the conversion table 7 are corrected so as to cancel the difference. For example, if the color actually measured from the read luminance values BL_R, BL_G, and BL_B is reddish, the contents of the conversion table 7 are corrected so that the luminance of R is lower than that of G and B. Then, the process ends.
[0033]
By the correction process, even if there is a color change of the backlight 11 over time, user desired characteristics can be realized.
[0034]
When the display image is an analog signal, there is a variation in characteristics in the analog output circuit of the host device PC, and thus the analog signal also varies. Therefore, the A / D converter 2 is adjusted to absorb the variation in the analog signal. If this is not sufficient, the microprocessor 14 corrects the content of the conversion table 7 to reduce the variation in the analog signal. Absorb.
[0035]
Another embodiment is shown below.
(1) User desired characteristics may be input to the color liquid crystal display device 100 via the host device PC, and the conversion table data may be calculated by the microprocessor 14.
(2) The user desired characteristics may be directly input to the color liquid crystal display device 100, and the conversion table data may be calculated by the microprocessor 14. In this case, the host device PC is not necessary.
(3) The color of the backlight 11 may be sent from the color liquid crystal display device 100 to the host device PC, and the host device PC may correct the conversion table data.
(4) The present invention can be applied to a monochrome liquid crystal display device in the same manner as described above.
(5) The present invention can be applied to a digital image display device (plasma display device or the like) other than the liquid crystal display device in the same manner as described above.
[0036]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to the adjustment method of a digital image display apparatus of this invention, a digital image display apparatus, the adjustment method of a color liquid crystal display device, and a color liquid crystal display device, a digital image is used, without using the sensor which measures the brightness | luminance of the screen of a display device. The display device or the color liquid crystal display device can be adjusted to the characteristics desired by the user.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a color liquid crystal display device according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram showing measured characteristics according to an embodiment of the present invention.
FIG. 3 is a flowchart showing an adjustment process according to an embodiment of the present invention.
FIG. 4 is a conceptual diagram showing user desired characteristics.
FIG. 5 is a conceptual diagram showing a conversion table.
FIG. 6 is a flowchart showing a correction process according to an embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of a conventional color liquid crystal display device.
FIG. 8 is a flowchart showing a conventional adjustment process.
[Explanation of symbols]
7 Conversion table 10 Color liquid crystal display panel 11 Backlight 12 Backlight luminance sensor 13 Backlight drive unit 14 Microprocessor 15 Serial interface 16 Actual characteristic storage unit 100 Color liquid crystal display device PC Host device

Claims (2)

Leave the actual characteristic is a characteristic of the input value with a previously measured luminance value of the liquid crystal display panel is stored in the liquid crystal display device, the user would like characteristic is a characteristic of the input value and the luminance value of the liquid crystal display device the user wants the input value to the liquid crystal display device so as to achieve a create a conversion table for converting the input value to the liquid crystal display panel, a liquid crystal display device via the conversion table is added input to the liquid crystal display device to the liquid crystal display panel In the adjustment method, the luminance of the backlight when the actual measurement characteristics are measured is measured and stored in the liquid crystal display device, and then the luminance of the backlight is measured. A method for adjusting a liquid crystal display device , wherein the content of the conversion table is corrected based on a difference from the brightness of the backlight . A liquid crystal display panel, a conversion table for converting an input value to the liquid crystal display device into an input value to the liquid crystal display panel, a backlight reference color storage means for storing the luminance of the backlight when the conversion table is created, and a backlight A backlight luminance measuring unit for measuring the luminance of the light, and a correcting unit for correcting the contents of the conversion table based on a difference between the stored backlight luminance and the measured backlight luminance. A liquid crystal display device .

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