TWI351668B - Display method for display on a display device - Google Patents

Description

1351668 IX. Description of the Invention: [Technical Field] The present invention relates to a display method and a display applied to a display, and more particularly to a color shift phenomenon capable of compensating for different colors displayed by front and side views. Display method and display of the display. [Prior Art] Generally, since the incident light of different angles is in the liquid crystal layer, the phase difference (Retardation) is different, so the transmittance of the liquid crystal display and the light transmittance of the liquid crystal display are not the same. Therefore, when the viewing angle is different, the deflection coefficient of light is different, resulting in different transmittance. So 'different viewing angles will cause the brightness of the displayed light to be different. When different color lights (such as red light, green light, and blue light) are mixed in different brightness ratios in front view and side view, a color shift phenomenon in which the colors displayed by the front view and the side view are not the same may occur. . In general, the degree of color deviation caused by side view is that the blue light is greater than the green light, and the green light is greater than the red light. How to reduce the color deviation when facing the front view and the side view LCD display is one of the topics that the industry is working on. The conventional solution techniques are as follows: 1. Kalhxn (U.S. Patent No. 5,717,474) proposes to divide a pixel into a plurality of regions having different characteristics to satisfy display under different viewing angle conditions. The disadvantage is that once the manufacturing is completed, there is no adjustment, and the different regions correspond to different display angles respectively, and the display effect on the original screen is degraded.

Susumu (U.S. Patent No. 5,847,688) proposes to use a gamma curve that uses the original nickname according to two different viewing angles to be input through two different screens per different screen time. The disadvantage is that the change of the picture in the two pictures of the female T will cause the picture to flicker, and the composite picture only has "pixels" for the specific angle of 1351668. It can't actually solve many people watching at the same time. The situation may cause a decrease in the resolution of the screen. 3. Paul et al. (U.S. Patent No. 6,801,220) proposes to display a picture using subpixels of 2x2 or more, and adjust the original display screen using calculated values. The display is completed by using different ratios of bright and dark pixels. The disadvantage is that the display is performed by using a plurality of pixels, and is considered in units of pixels. Therefore, the resolution is required. The problem of color deviation can be solved in the case of more than 17 〇dpi. 4. Sasabayashl et al. (U.S. Patent Publication No. 20050030458) proposes a technique using (1) different total length (Pr〇trusi〇n total pitch) Let the difference between the two sections of the transmissive liquid crystal driving voltage _ penetration versus voltage curve (TV curve, Transmittance versus Voltage curve) to achieve compensation; (2) ps technology Coupling Capacitance is used to make the pre-tilt angle of the liquid crystal in the subpixel different. The advantage is that the normal film liquid crystal and color filter (CF) process can be completed easily. Different ratio control is used to achieve the best compensation effect. However, the disadvantage is that the transmittance is reduced because the voltage of the area B (Area-B) is always lower than that of the area A (Area-A). The ic of the voltage is transmitted.) The aperture ratio of the subpixei is reduced, and thus the flicker and image sticking cause a slight decrease in the resolution. Please refer to Figure 1. A color display 1 〇 (for example, a liquid crystal display) includes a plurality of pixels 11, 12, etc., and the pixels are arranged in a matrix. Each pixel includes two red sub-pixels r and two green colors. The sub-pixel G and the two blue sub-pixels B are arranged in a stripe pattern. Taking the pixel 11 as an example, the first red sub-pixel 1 丨丨 and the second red sub-pixel 丨 2 , 6 1351668 first green sub-pixel 113, second green The color sub-pixel 114, the first blue sub-pixel 115, and the second blue sub-pixel 116. The color display is divided into two color sub-pixels; the smaller sub-pixel, this The two sub-pictures are displayed in a bright state with a small deviation of the large-view character and a small deviation of the viewing angle. The signal is driven to a color-graded value to display a color, and the color is improved. • Color deviation due to large viewing angles and improved range of viewing angles. Referring to Figure 2 - the first red sub-pixel 111 is driven by a bright red display signal; the first red sub-pixel 112 is driven by a dark red signal (the slash in the 2nd Φ picture) It means that the signal is driven in the dark state). The first red sub-pixel 111 and the second red sub-pixel 112 are combined to display the red color of the first pixel u to improve the red color deviation and the view angle of the first pixel 11. Similarly, the green and blue sub-pixels in the first pixel 11 are driven in the same manner. No, the overall color deviation and viewing angle of the first pixel 11 are improved. In other words, when the different color lights are at the same gray level value, the side view and the front view are different. The light transmittance of the light will be different, thus causing color deviation. When the grayscale value is close to 〇 or 255, the difference between the normalized light transmittance of the side view and the front view is small, and the tie is close to 〇%. Therefore, for example, when the original grayscale value of the blue pixel is i 28 Φ, a dark state display signal (ie, a dark state grayscale value) can be selected as a 〇, and a bright state display signal (ie, a bright state) Gray scale value)4, as a set of corrected grayscale values (including the above-mentioned dark state grayscale value and bright state grayscale value), synthesized to obtain visual perception such as the original grayscale value, and make this Group correction gray scale value ^ The difference between the normalized light transmittance of the side view and the front view is smaller than the original gray scale value of 128:: The difference between the normalized light transmittance of the front view and the normal view is small, and the user can fully In the case of a liquid crystal display, the same brightness as the original gray scale value can be obtained. Secondly, the positive gray scale value can make the color deviation of the liquid crystal display in the side view and the front view. Another conventional technique is designed for the same pixel. In the mechanism of the pixel pressure, that is, as long as a voltage signal is input to the book ^, 1351668, the pixel will actively have two regions to feel different voltages, so different gray scale values can be generated. Synthesize into a color grayscale value, display a color, improve the color produced by this large angle Color shift and improve its range of viewing angles. In detail, first, a plurality of image data in a frame period are received. Each image data is used to control a corresponding pixel to exhibit a corresponding color in a corresponding frame period. The corresponding color is divided into gray scale values of each color according to each color sub-pixel in the pixel, and the gray scale value is referred to as the original gray scale value.

Then, each of the original grayscale values is respectively obtained according to a parameter table (丨〇〇k up table) to obtain a first grayscale value and a second grayscale value. The parameter table is a database. For example, FIG. 3 shows a green parameter table. The original gray scale value signal group 2 〇 records that each gray scale value Li (i is a positive integer such as Li) from 0 to 255. The two grayscale values LHi, LLi, one is stored in the higher grayscale value signal group 21, and the other is stored in the lower grayscale value signal group 22. This is referred to herein as a first grayscale value (e.g., lh1) and a second grayscale value (e.g., Lli). When the two gray scale values are combined, the visual perception such as the original gray scale value can be obtained, and the user can obtain the same brightness as the original gray scale value when facing the liquid crystal display, and has less color lines than the front view. For example, when the original grayscale value of the secondary pixel is 12=, a bright state display signal (ie, the first grayscale value) is selected to be 19〇 and a dark, and the display signal (ie, the second grayscale value) is 〇. . This parameter list can be determined according to the needs, and different colors (such as red, green, blue, etc.) can be used differently. _In order to make the picture display at different viewing angles, the color difference is low, and the brightness of the picture is evenly distributed, it is not easy to see black spots. For the sake of the job, the present invention has invented the "display display method and display" of the present invention in view of the lack of the prior art and the idea of improving the invention. ...,. SUMMARY OF THE INVENTION The main object of the present invention is to provide a display method applied to a display, which uses an -parameter table to generate an original gray scale value - the first original gray scale 1351668 flute original gray scale value 'and the first - The original grayscale value and the second::: go: Γ respectively send the adjacent two pixels 'for the same-pixel, electricity: therefore, every: the mechanism of moving the house, can be automatically divided into two do not change Covering the different gray scale values of the Yiluo 10 to synthesize the color as a color gray scale value, and the color deviation caused by the order value - the gossip angle of view and improve the range of the viewing angle. The concept of white knife and pixel sharing can be displayed in low c〇 or s ^ t (LCS) mode to avoid chromatic aberration and uneven brightness.

^Achieving the above object%' The present invention provides a display for display:, the display comprises a plurality of pixels arranged in a matrix, each of which contains at least one color sub-pixel, each color painting The prime includes a first person pixel and a second pixel. The display method includes: receiving a plural number: the image resource is used, and each image data is used to control a corresponding pixel to be represented in a frame period of a pair of f Outputting the original grayscale value of the corresponding color; generating the original grayscale value by the parameter table 'the first grayscale value and the first: the original grayscale value, and the first original grayscale value and the The second original fire order value is respectively sent to two adjacent pixels, and for the same pixel, the two sub-pixels have a mechanism of automatic voltage division, and the two sub-pixels have two regions which can be automatically divided into two different The voltage, therefore, produces different grayscale values to be combined into a color grayscale value. To achieve the above object, the present invention provides a display comprising: a panel comprising a plurality of pixels arranged in a matrix, each pixel comprising at least one color sub-pixel, each color sub-pixel comprising a first a pixel and a second pixel; a parameter table for receiving one of the original grayscale values, generating a first original grayscale value and a second original grayscale value; scanning the driver to start The pixel; and a data driver, driving the first original gray scale value and the second original gray scale value to drive two adjacent pixels, the pin=for the same pixel, and the second pixel has an automatic voltage division mechanism The two solid pixels have two regions which can be automatically divided into two different voltages respectively, thus generating different gray scale values 'to be synthesized into one color gray scale value.丄 668 This case can be understood by the following illustration and detailed description. [Embodiment] The following description is for the purpose of describing the display method of the display of the present invention and the detailed embodiment of the display, but the scope of the present invention is not an embodiment. Figure 4 is a color display pirate 30 (e.g., liquid crystal display) of the preferred embodiment of the present invention including a plurality of pixels 31, etc.

The pixels are arranged in a matrix. Each pixel consists of two red sub-scores G and two blue sub-pixels B' arranged in a strip. In the present embodiment, a stnpe arrangement is taken as an example, but it is not limited to a stripe arrangement. Taking pixel 31 as an example, and J-red sub-pixel 3U, second red sub-pixel 312, first green: under-pixel 313, second green sub-pixel 314, first blue sub-pixel 315, And the second blue sub-pixel 316. Taking the pixel 32 as an example, the third red sub-pixel 321 , the fourth red sub-pixel 322 , the third green sub-pixel 323 , the fourth green sub-pixel 324 , the third blue sub-pixel 325 , and the first 320. 〇 重 请 请 请 请 请 请 请 请 请 请 请 请 l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l The second gray scale value R〇H, the parameter table is a database. The first gray scale value and the sinking and the second gray scale value r〇h are respectively sent to the pixel Η and the drawing t 32 'the second gray scale value synthetic syllabary, and the original gray scale value can be obtained. The visual experience allows the user to get the same brightness as the original grayscale value when facing the liquid crystal display, and the color difference between the side view and the front view is reduced. For example, when the original grayscale value of the secondary pixels is 128, a bright off display signal (i.e., the first grayscale value) is selected to be 190 and a dark state display signal (i.e., the second grayscale value) is 0. This parameter list can be used as needed, and different color tables (such as red, green, and blue) can use different parameter tables.

10 1351668 And each pixel consists of two sub-pictures of R, two green sub-words, 〗 〖Ma----G and two blue sub-books, designed in two-woman cover Prime B. Entering a voltage signal to the book's special mechanism, the two pixels and the right are automatically divided into two different voltages. This can produce different gray levels::. The LL, R_, and 夂 order values are combined into a single color and a single color to improve the color in the wide angle range. The color deviation caused by the large angle of view of the Bayu is changed. Please refer to the figure. The red, the workbench-man cover 3 11 series is driven by a red signal, and the second red sub-pixel 312 is a red display signal. Drive (the slash in Figure 6 indicates... signal drive). The first red sub-pixel 311 and the second red color display the red color of the first pixel 31 to improve the first pixel η color deviation and the view angle. Similarly, the green element in the first pixel 31 is The display is driven in the same way to improve the first pixel deviation and the viewing angle. In addition, each sub-pixel has two regions that can be automatically different voltages, so different grayscale values can be generated to synthesize grayscale values. 13 In addition, the third red sub-pixel 321 is driven by a second bright state signal; the fourth red sub-pixel 322 is driven by a second dark display signal (the diagonal line in FIG. 6 indicates dark state) move). The second red sub-pixel 321 and the fourth red sub-pixel 322 of the second pixel 32 are red to improve the red color and the viewing angle of the second pixel 32. Similarly, the green and blue colors in the second pixel 32 are driven in the same manner to improve the overall viewing angle of the second pixel 32. When the pixel 3 1 and the pixel 32 are displayed, the visual sensation of the original gray scale value can be obtained, so that when the crystal display is used, the same brightness as the original gray scale value is obtained, and the red color painting is again For the same point, as long as the input area can be R〇hl, due to the value, the display is good. The first bright state is displayed in a dark state, and the color of the blue color and the blue color are divided into two. The color of the red color of the red signal is displayed in the color deviation of the sub-pixels. The color deviation and the value of the color difference are combined with the positive color of the liquid in the side view and the 1351668 front view. • The display method and display of the display device of the present invention can display the screen - the color difference is low at different viewing angles, and the brightness distribution of the kneading surface is hooked, and it is not easy to see the black dots. Please refer to FIG. 7A, which is a schematic diagram of a liquid crystal display system architecture according to a preferred embodiment of the present invention. As shown in FIG. 7A, the liquid crystal display 4 includes an interface circuit module 41 and a panel module 42. The interface circuit module 41 includes a signal converter (Scaier) 43, and uses the signal converter ^ (Scaler) 43 to convert a signal into a signal format or a resolution. In the preferred embodiment, the signal converter (Scaler) 43 further includes a parameter table or calculation unit 44, and uses the parameter table or the calculation unit 44 to convert an original grayscale value R into a parameter table ( 1〇〇k up taMe) respectively obtain a first gray scale value ROL and a second gray scale value r〇h, the parameter table is a database, • as shown in Fig. 5. The first grayscale value R〇L and the second grayscale value R〇H are respectively sent to the pixel 31 (as shown in FIG. 4) and the pixel 32 (as shown in FIG. 4). Shown, when the two gray scale values are combined and displayed, the visual feeling such as the original gray scale value can be obtained, and the user can obtain the same brightness as the original gray scale value when facing the liquid crystal display, and in the side view and the front view The color difference is reduced. For example, Lu, when the original grayscale value of the secondary pixel is 128, a bright state display signal (ie, the first grayscale value) is selected to be 190 and a dark state display signal (ie, the second grayscale value) is 0. . This parameter list can be used as desired, and different parameter lists can be used for different colors (eg red, green and blue). Therefore, 'as shown in FIG. 7A', the signal converter (Sca丨er) 43 uses the parameter table or the calculation unit 44 to respectively obtain a red display signal according to the parameter table (look up table) to obtain a first red color. The display signal 趴 and a first-red display signal Rh. The signal converter (Scaler) 43 uses the parameter table or the calculation unit 44 to respectively obtain a green display signal & and a second green display signal Gh according to the parameter table up tabie). The signal converter (Scaler) 43 uses the parameter 12 1351668 table or the calculation unit 44 to respectively obtain a blue display signal & a blue display signal B according to the parameter table (1〇〇k up table) and A second blue display signal BH. • the first red display signal RL, the second red display signal Rh, the first green display signal GL, the second green display signal gh, the first blue display signal BL, and the second blue display The signal Bh is sent to one of the timing controllers 45 included in the panel module 42. Using the timing controller 45, the first red display signal rl, the second red display signal Rh, the first green display signal GL, the second green display signal gh, the ninth blue display signal BL, and The second blue display signal Bh controls the image presentation of a liquid crystal panel 46. Each of the pixels of the liquid crystal panel 46 includes two sub-pixels, two red sub-pixels R, two green sub-pixels G, and two blue sub-crystals B. For the same pixel, the machine that automatically divides the two pixels is designed: the system only needs to input a voltage signal to the pixel, and the two sub-pictures have two areas that can be automatically divided into two. A different voltage, as shown in Figure 5. Therefore, different gray scale values can be generated to be synthesized into a color gray scale value, and a color is displayed to improve the color deviation of the color at a large viewing angle and to improve the range of the viewing angle. ® Referring to Figure 6 and Figure 7A, the first red sub-pixel 3 11 is driven by the second red display signal rh, and the second red sub-pixel 3 12 is driven by the first red display signal RL ( The diagonal line in FIG. 6 indicates that the first red sub-picture 311 and the second red sub-pixel 3 12 are combined to display the red color of the first pixel 31 to improve the first picture. The red color deviation of the prime 31 and the viewing angle. Moreover, since each sub-pixel has two regions which can be automatically divided into two different voltages, respectively, different gray-scale values can be generated to be synthesized into a color gray-scale value. Similarly, the green and blue sub-pixels in the first pixel 31 drive the display in the same manner to improve the overall color deviation of the first pixel 31 and the visible angle of 13 1351668. A schematic diagram of a liquid crystal display system system according to another preferred embodiment of the present invention. As shown in FIG. 7B, the liquid crystal display 50 includes an interface circuit module 51 and a panel module 52. The interface circuit f group 51 includes a signal converter (Scaler) 53, which uses the signal conversion scaler (Scaler) 53 to convert a signal into a signal format or resolution. The panel module 52 includes a timing controller 54 and a liquid crystal panel 56. The timing controller 54 includes a parameter table or calculation unit 55, receives the signal converted by the signal converter (Scaler) 53 and uses the parameter table or the calculation unit 55 to convert an original grayscale value R into one. The parameter up table obtains a first gray scale value r〇l and a second gray scale value r〇h 'parameter table as a database, as shown in FIG. 5. The first grayscale value R〇L and the second grayscale value R〇h are respectively sent to the pixel 31 (as shown in FIG. 4) and the pixel 32 (as shown in FIG. 4). When the two gray scale values are synthesized, the 'visual feeling such as the original gray scale value is obtained' allows the user to obtain the same brightness as the original gray scale value when facing the liquid crystal display, and the color difference between the side view and the front view is reduced. For example, when the original grayscale value of the secondary pixel is 128, a bright state display signal (ie, the first grayscale value) is selected to be 190 and a dark state display signal (ie, the second grayscale value) is 〇. This parameter list can be used as needed, and different parameter tables can be used for different colors (eg red, green and blue). Therefore, as shown in FIG. 7B, the timing controller 54 uses the parameter table or the 疋 calculation unit 55 to respectively obtain a red display signal R1 and a second red according to the parameter table )table). No signal RH. The timing controller 54 uses the parameter table or the calculation unit 55 to respectively obtain the green display signal GL and the second green display signal gh according to the lookup table. The timing controller 54 uses the parameter table or the calculation unit 55 to respectively obtain a blue display 1351668 signal B1 and a second blue display signal according to the look up table. Bh. The first red display signal rl', the second red display signal Rh, the first green display signal G1, the second green display signal gh, the first blue display signal B1, and the second blue display signal Bh is fed in, and the board module 42 includes a timing controller 45. Using the timing controller 45, the first red display signal R1, the second red display signal Rh, the second green display signal GL, the second green display signal gh, the first blue display signal B1, and the first The two blue display signals Bh control the image presentation of a liquid crystal panel 46. Further, each pixel of the liquid crystal panel 56 includes two sub-pixels, two red sub-alliants R, two green sub-pixels G, and two blue sub-tin B. For the same pixel, the mechanism of automatic partial voltage division in two sub-pixels is designed, that is, as long as a voltage signal is input to the pixel, the two sub-pixels have two regions which can be automatically divided into two different voltages, respectively. As shown in Fig. 5: therefore, different grayscale values can be generated to be synthesized into a color grayscale value, which is different in color' to improve the color deviation of the color at a large viewing angle and to improve the range of the viewing angle. Please refer to FIG. 6 and FIG. 7B. 'The first red sub-pixel 311 is driven by the second red display signal Rh. The second red sub-pixel 3 12 is driven by the first red display signal rl (Fig. 6). The slash in the middle indicates that the first red sub-picture 311 is combined with the second red sub-pixel 3 11 and the second red sub-pixel 3 12 to display the red color of the first pixel 31 to improve the first pixel 31. The red color deviation and the angle of view. Moreover, since each sub-pixel has two regions which can be automatically divided into two different voltages, respectively, different gray-scale values can be generated to be synthesized into a color gray-scale value. Similarly, the green and blue sub-pixels in the first pixel 31 drive display in the same manner to improve the color deviation and viewing angle of the first pixel 31 as a whole. The above-described embodiments and illustrations of the present invention are known to those skilled in the art. However, the scope of the patent is not limited to the above-described embodiment 15 1351668. In summary, the objects of the present invention have been fully and effectively disclosed. This case has been modified by those skilled in the art, and is not intended to be protected by the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of a pixel arrangement of a conventional liquid crystal display. Figure 2 is a schematic diagram showing the results of a liquid crystal display of the second embodiment displayed by a conventional method.

Figure 3 is a table of parameters for dividing the grayscale value into two grayscale values. Figure 4 is a schematic illustration of the pixel arrangement of the liquid crystal display of the preferred embodiment of the present invention. Figure 5 is a preferred embodiment of the present invention, which uses an original grayscale value r〇 to obtain a first grayscale value r〇l and a second grayscale value R0H according to a look up table and utilizes two The mechanism of the automatic partial pressure of the secondary element is automatically divided into four = the same voltage ROLH, r〇ll, r〇hh, r〇hl, which produce different gray scale values to be synthesized into a color gray scale value, which is improved in Schematic diagram of the color deviation produced by a large viewing angle. The figure is a schematic diagram showing the results of the liquid crystal display of Fig. 4 in the preferred embodiment of the present invention. Fig. 7 is a schematic view of the liquid crystal display system architecture of the preferred embodiment of the present invention. Figure 7 is a schematic diagram of a liquid crystal display system architecture according to another preferred embodiment of the present invention. [Main component symbol description] 10 color display 11, 12 pixels 111 first red sub-pixel 112 second red sub-pixel 113 first green sub-pixel

16 1351668 114 second green sub-pixel 115 first blue sub-pixel 116 second blue sub-pixel 20 original gray-scale value signal group record 21 higher gray-scale value signal group 2 2 lower gray-scale value signal group 30 color display 31, 32 pixels 3 11 first red sub-pixel 312 second red sub-pixel 313 first green sub-pixel 314 second green sub-pixel 315 first blue sub-pixel 316 second blue Sub-pixel 40 LCD display unfavorable 41 interface circuit module 42 panel module 43 signal converter (Scaler) 44 parameter table or calculation unit 45 timing controller 46 liquid crystal panel 5 0 LCD display unfavorable 5 1 interface circuit module 52 panel module 53 signal converter (Scaler) 54 timing controller 55 parameter table or calculation unit 56 liquid crystal panel R red sub-pixel G green sub-pixel 17 1351668 B blue sub-pixel.

(5) 18

Claims (1)

1351668 No. 9513926] Amendment date: 100.7.20 Amendment 10, Patent scope: 1. A display method applied to a display, the display comprising a plurality of pixels arranged in a matrix, each pixel including at least one a color sub-pixel, each color sub-pixel includes a first pixel and a second pixel, the display method includes: receiving a plurality of image data 'each image data is used to control a corresponding pixel a corresponding grayscale value of a corresponding color is displayed in a corresponding frame period; according to the parameter table, the original grayscale value is generated by a grayscale value and a second grayscale value; and the first money is The value and the second grayscale value respectively give two sub-pixels of _ a single pixel, and the two secondary pixels have a mechanism of automatic voltage division, and the two secondary pixels have two regions which can be automatically divided into two Different voltages, thus producing different grayscale values to be synthesized into a color grayscale value. The method of displaying the item of item 1, wherein the display is a liquid crystal display. 3 · The gg thousand t, also ^ ”., the method according to the 1st item, wherein the pixel contains red (R), green (G), and supervised (B) color sub-pixels. The item described in the item eternal ~ method 'where the element contains red (R), green (G) and super (B) color secondary sputum. 5 · a kind of display, including · · = panel 'where the panel - a pixel includes two sub-sequences; ^ signal converter, the signal is converted into a signal format, wherein the signal converter comprises a parameter table, and the β-baby parameter table has an original gray-scale value according to the parameter 19 1351668 » . Amendment date 95139261: 100.7.20 Correction of the clothing to obtain a first grayscale value and a second grayscale value; and. The timing controller receives the signal sent by the signal converter a grayscale value* and the second grayscale value' respectively send the first grayscale value and the second grayscale value to the two subpixels of the pixel in the "board, and two The secondary pixel has a mechanism of automatic partial pressure, and the two secondary elements have two regions which can be self-twisted into two different electrical covers, The display of the display is a liquid crystal display, wherein the display is a liquid crystal display, as shown in item 5. Wherein the display is one of the following red (R), green (6) and blue (B) color secondary substances. 8. The display according to item 7, wherein the secondary element is the following red (8), Green (6) ' 卩 Μ Μ B B 之一 之一 之一 之一 之一 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 第 第 第 第 第 第 第 第 第 第 第The circuit module includes the signal converter, the panel module includes the timing controller and the panel. The display device of the sixth item, wherein the page display device comprises an interface circuit handle.. and the panel The module of the module includes the signal converter, the panel module comprising the timing controller and the panel. The display of item 8, wherein the display comprises an interface circuit module and a lift. Anti-loose, and, the I-side circuit module includes the signal converter The panel module includes the timing controller and the panel. 12. A display comprising: a 20-face, wherein each pixel of the panel includes two sub-pixels; a signal converter H signal is performed Signal format conversion; and timing control benefit, including a parameter table, receiving the signal converter to convert the output signal 'use the parameter table - the original gray scale value according to the financial table to obtain a gray scale value and - the first a second gray scale value, the first gray scale value and the second gray scale value are respectively sent into two sub-pixels of the pixel in the panel, and the two secondary elements have a mechanism of automatic knife pressing' The _ 昼 昼 具有 has two regions that can be automatically split into two different voltages respectively 'and thus produce different gray scale values to be synthesized into one color gray scale value. 3. The display of item 12, wherein the display is a liquid crystal display. The display of claim 12, wherein the sub-genogen is the following red (8), green (6), and blue (8) color sub-tendin. 5. The display of item 13, wherein the pixel is of the following red (foot), green (6), and blue (B) color subsequences or a composition thereof. 16. The display of claim 12, wherein the display comprises an interface circuit module and a panel module, the interface circuit module comprising the signal converter, the panel module comprising the timing controller and the panel . 17. The display of claim 1, wherein the display comprises an interface circuit nm board module, the interface circuit module comprising the signal converter, the panel module comprising the timing controller and the panel. 18. The display of item 15, wherein the display comprises an interface !351668 21 1351668 ✓ _ 9513926] Revision date: 100.7.20 Correction of the module, and a panel module, the interface circuit module includes the signal converter, • The panel module includes the timing controller and The panel. A display comprising: a panel comprising a plurality of pixels arranged in a matrix, each pixel comprising: at least one color secondary element, each color secondary element comprising a first pixel and a second a secondary parameter; a parameter table for receiving one of the original grayscale values, generating a first grayscale® value and a second grayscale value; - scanning the driver to activate the pixel; and - data driver 'Drive the first gray scale value and the second gray scale value respectively · the first pixel of the pixel and the second pixel 'and the first pixel and the second time The mechanism with automatic partial pressure 'can be automatically divided into two different voltages, respectively, so different gray scale values are generated to be synthesized into one color gray scale value. The display of claim 19, wherein the display is a liquid crystal display. 21. The display of claim 19, wherein the subpixel is one of the following red (r), green (G), and blue (B) color sub-pixels or a composition thereof. 22. The display of claim 20, wherein the sub-pixel is one of the following red 'green' (G) and blue (B) color sub-pixels or a composition thereof. 23. The display of item i9, wherein the display comprises a _ heart circuit module and a panel module, the interface circuit module comprising the signal conversion crying, 22 1351668 - 95139261 revision date: 100.7. 20 Correction The panel module contains the timing controller and the panel. 24. The display of claim 20, wherein the display comprises an interface circuit module and a panel module, the interface circuit module comprising the signal converter, the panel module comprising the timing controller and the panel . 25. The display of claim 22, wherein the display comprises an interface 'circuit module and a panel module, the interface circuit module includes the signal converter, the panel module includes the timing controller and The panel. twenty three