TW464781B - Pixel arrangement structure, liquid crystal display device using the same and method for driving the device - Google Patents

Abstract

Disclosed herein is a pixel arrangement wherein a plurality of sub-pixels of a color filter, arranged R, G and B in the direction of substantially perpendicular to a scanning progressive direction, are arranged in a matrix shape, and color filter pixels in even row in the scanning progressive direction are protruded by a selected distance from adjacent color filter pixels in odd row. The pixel arrangement enable the liquid crystal display device to improve the horizontal direction information and other information including curve component.

Description

464781 A7 __________B7______ 5. Description of the Invention (/) < Field of Invention > The present invention relates to the technology of liquid crystal display elements, especially the use of pixel array structures in color filters, which can be used to improve the processing of horizontal direction information and other included curves. Information capability, and a method of driving the reduction of flash-light LCD display elements using a pixel array structure. < Description of related technology > The panel of the liquid crystal display element contains a large number of pixels, and the color filters and optical substrates of the pixels are highlighted by removing the mixed red, green, and blue (hereinafter referred to as R, G, and B). . In addition, the pixel including a thin film transistor substrate can be used to control each pixel 'and liquid crystal is poured between the color filter substrate and the thin film transistor substrate. Each pixel includes sub-pixels R, G, and B. Generally speaking, the pixels can be arranged in stripes, mosaics, and deltas as shown in the eighth to eighth figures. As shown in Fig. 1A, R, G, and B are arranged in a row. As shown in Fig. 1B, the first column is repeatedly arranged in the order of R, G, and B. The second column is arranged in the order of G, B, and R. The third column is arranged in the order of B, R, and G. Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs (please read the notes on the back before writing this page) As shown in Figure 1C, the even-numbered pixels are repeatedly arranged in the order of b, r, and g, and For odd-numbered columns, the arrangement of pixels repeats in the order of B, R, G and highlights a distance. The pixel arrangement shown in Figs. 1A to ic is followed by the length of the pixels in the vertical direction being longer than the horizontal direction. However, when there is more dynamic video data in the horizontal direction than in the vertical direction, the pixel arrangement shown in Figures 1A to ic cannot provide processing of the dynamic signal in the horizontal direction. To effectively process dynamic signals, additional analysis is required. 2 paper sizes (CNS) A4 specifications (21GX297 mm 1 '' 46478 1) Printed by the Consumer Standards Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs A7 B7 5. Description of the invention (& gt ) Degree. To increase the resolution, the size of the sub-pixels can be reduced. However, although it is not impossible, it is difficult to reduce the size of the sub-pixels, and these difficulties will increase the manufacturing cost. ≪ General Invention > Therefore, an object of the present invention is to provide a pixel arrangement and to use a liquid crystal display element capable of smoothly processing a horizontal direction signal without increasing the high resolution in the horizontal direction to achieve the effect of increasing the resolution. Another object of the present invention In order to provide a pixel arrangement and a liquid crystal display element capable of processing image signals requiring a curve component, another object of the present invention is to provide a liquid crystal display element and a driving method capable of reducing screen flicker. In order to achieve the above and other objects of the present invention The present invention provides a pixel arrangement in which a plurality of sub-pixels with color filters are divided into R, G, B is arranged in a matrix in a vertical stepwise scanning direction, and the color filter sub-pixels of the even-numbered columns extend along the scanning direction and protrude a predetermined distance from the color filters of adjacent odd-numbered columns. Another object is to provide a liquid crystal display element including a plurality of gate lines placed in a first direction of a first substrate; a plurality of gate lines placed in a first substrate perpendicular to the first direction and crossing the second direction; A thin film transistor located at the intersection of the gate line and the data line; a color pixel that is placed on the first substrate opposite to the first substrate, and whose pixel electrode can be driven by the thin film transistor. This pixel is represented by R, G, The B order is arranged in the second direction, and the color filter pixels of the even-numbered columns are more prominent than the color filter pixels of the adjacent odd-numbered columns. '3 ▲ The paper scale is easy to use in China-(Please read the note on the back first (See the matter and rewrite this page)

464781 Standards of the Ministry of Economic Affairs 扃 Printed by employees' consumer cooperatives A7 B7 V. Description of the invention ()) In addition, another object of the present invention is to provide a liquid crystal display device including a large number of gate lines placed in the first direction of the first substrate. , A large number of gate lines placed on the first substrate perpendicular to the first direction and crossing the second direction; thin film transistors connected to the gate line and the data line and located at the intersections thereof; The transistor is included on each side of a pair of data lines. The transistors in odd columns are connected to one side of the data line. The color filter pixels placed on the second substrate opposite to the first substrate can have pixel electrodes. Thin film transistor driven. This pixel is arranged in the second direction in the order of R, G, and B, and the color filter pixels of the even-numbered columns protrude a distance from the color filter pixels of the adjacent odd-numbered columns. The phase difference between the data lines passing through the even-numbered columns in the first direction and the data lines passing through the odd-numbered columns in the first direction is 18000. A straight line may be used in the embodiment. Another object of the present invention is to provide a liquid crystal display element including a large number of color-filtered sub-pixels of R, G, and B. The steps are as follows: the day surface is divided into the first frame, the second day surface, and Three diurnal planes, and the R signal is driven on the first picture 'The second diurnal plane is driven by the G signal, and the third time is driven by the B signal. At this time, the "second picture execution reversal" makes the data line corresponding to the R signal of the first picture and the G signal and data line corresponding to the second picture have a phase difference of 180 ', so that the R signal forms a sub pixel a. In addition, the data line corresponding to the G signal of the first picture and the b signal and the data line corresponding to the third daytime plane are 180 ° out of phase, so that the R signal and the Q signal form a sub pixel s. Perform the reversal so that the paper sizes corresponding to the first to the third 4th paper standards are applicable to the Chinese National Standard (CNS) A4 specifications (210X297 mm) (please read the precautions on the back before filling this page). IT. 464781 A7 ____B7 V. Description of the invention (Ί) The data lines of the R, G, and B signals on any day of the daytime plane and the R, G, and The B signal is 180 ° out of phase with the data line. The color filter pixels R, G, and B can be arranged in the vertical scanning direction. The delta-shaped arrangement can be used for the color filter pixels located in the even-numbered columns in the vertical scan direction and the color filter pixels in the adjacent odd-numbered columns. Horizontal images and images containing curved components can be processed smoothly. The diurnal surface can be divided into three sub-frames with a fixed picture time, and the R signal is driven at the first diurnal surface, the G signal is driven at the second diurnal surface, and the B signal is driven at the third diurnal surface. Therefore, according to the present invention, the driving frequency is three times larger than that of the conventional technique, so that the phenomenon of daytime flicker can be eliminated. Additional objects, features, and advantages of various aspects of the present invention will be described in the following drawings for a more detailed understanding. < Brief description of the drawings > Figs. 1A to 1C are diagrams of sub-pixels of a color filter of a conventional liquid crystal display element. Fig. 2 is an illustration of the arrangement of color filter sub-pixels according to the first preferred embodiment of the present invention. Printed by the Consumers' Cooperative of the Central Government Bureau of the Ministry of Economic Affairs. Figure 3 is an illustration of a method for driving a color filter sub-map of the liquid crystal display device of the present invention as shown in Figure 2. Figures 4A to 4G are pulses corresponding to the R, G, and B signals applied to the gate lines when the liquid crystal is driven. Figures 4H to 41 show the phase of the voltage pulse and data line as a function of time. 5 This paper ruler home standard (CNS) A ~ ^ _ (21 {) > (297 public meals) --- ~~~-46 47 8 Central Standards of the Ministry of Economic Affairs, employee consumption cooperation Du printed A7 B7 V. Description of the Invention (r) FIG. 5 is an illustration of the arrangement of color filtering sub-pixels as the second preferred embodiment of the present invention. ≪ Comparison of component names and symbols in the drawing > SP: Sub-pixels G-R1, G-G1, G-B1, G-R2, G-B2, G-R3, G-G3, G- B3—: Gate lines D_1, D-2, D-3 '..., Dm: dashed lines of data lines G-IU, G-R2, G-R3, G-R4, ..., G-Rn: data lines TFTn, TFT21, TFT22: thin film transistors GG, G-G2, G_G3, ..., G-Gn: gate Line color filter R signal GB, G-B2, G-B3, G-B4, ..., G-Bn: Gate line color filter < Detailed description of preferred embodiment > Refer to FIG. 2 ' The color filters r, G, and B of the present invention may be arranged in a vertical direction as opposed to those in FIGS. 1A to 1C. Each color filter sub-pixel may be designated as a sub-pixel (SP). In addition, the sub-map The primes can be arranged in a delta shape. That is, the sub-pixels of the even-numbered columns are separated from the sub-pixels of the odd-numbered columns by a protruding distance. Especially referring to FIG. 2, the gate line ( } -111, 0-01, 0-81, 0-R2 'G-B2' G-R3, G-G3, G-B3, ... are located on the liquid crystal display element and extend the data lines D1, D-2, D -3, ..., to the lower substrate of the gate line connection (not shown). The data line can be indicated by dotted lines G-R1, G-R2, G-R3, G-R4, ..., G-Rn Gate line color filter r signal, g-G1, G-G2, G-G3, G-G4, ....., G-Gn represents the gate line color filter R signal, G-B1, G-6 This paper size applies to China National Standard {CNS) A4 size (210 X 297 mm). Tips read the back of the paper, and 意 will be broken, then fill in the original book.) Line 46 47 8 1 A7 B7 V. Description of the invention (T) B2 'G-B3' G-B4 '..., G_Bn represents an interrogation line color filter r signal. At the intersection of the gate line and the data line, a thin-film transistor D ^^ D is formed as a switching element (not shown) for driving the pixel electrode. Each thin film transistor TFT11 is connected to one end of a gate line and to the other end of a data line. A > color pixel is opened on the pixel electrode on the upper substrate portion opposite the lower substrate. As described above, r, G, and B constitute color filter sub-pixels which are continuously placed in the data line extending direction. Under this consideration, when the color filter sub-pixels are arranged in the data line, the data line protrudes along the even-numbered color filter sub-pixels. Therefore, it is possible to smoothly process dynamic signals and curve components with more horizontal components. The driving method of the liquid crystal display element with reference to FIGS. 3, 4A to 41 will be described below. In the embodiment of the present invention, the day-surface driving method can be divided into three parts. The part of the female knife can be designated as the secondary screen. The driving time of the picture is 1 pound, where f represents the frequency divided by 3, and the divided time is assigned to the first daytime surface. Printed by the Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs: The second timedaytime surface, the third time . That is, the initial 1 / 3T time, the R signal corresponding to the first picture is scanned and inserted, and the second daytime G signal is scanned when the time is 2 / 3T ', and the last 1 / 3TB is scanned between temples. Corresponds to the third day-time B signal. For example, if the number of data lines of the panel of the liquid crystal display element is m and the gate line is n, during the first frame, the actuation voltage can be added to the R component of the color filter to generate an R signal. At this time, as shown in FIG. 4A to FIG. 4C, FIG. 4H, and FIG. 41, 'the gate lines G_R1, G_R2, G-R3, ...' G-Rn also sequentially receives logic corresponding to the R signal, , This paper »• Standards apply the Chinese National Standard (CNS) A4 specification (210X297 mm) 46 47 8 1 A7 B7__ V. Description of the invention (7) High" signal to allow the thin film transistor to connect to turn on β and pulses with opposite phases It can also be added to the data lines D1, D2 'D3' ... 'Dm. That is, a logic “high” signal can be sequentially provided to activate the thin film transistor to actuate the pixel electrode, thereby actuating the data line and the pixel The liquid crystal between the electrodes. At this time, the R component of the color filter will generate an R signal, and the light passing through the liquid crystal will appear red due to the R signal. In the same way, the second daytime driving voltage can be added to the color filter. The G component generates the G signal. At this time, as shown in Figures 4D to 4E, 4H, and 41, the gate lines G-G1, G-G2, G-G3, ... G-Gn also sequentially receives logic "high" signals corresponding to the G signal to allow the thin film transistor to connect and conduct. In addition, when the second time The diurnal driving voltage is added to the G component of the color filter to generate a G signal. At this time, as shown in FIGS. 4D to 4E, '4H and 41, the gate lines G-G1, G-G2' G-G3 '... ·, G-Gn also sequentially receives logic "high" corresponding to the G signal, a signal to allow the thin film transistor to be connected and turned on. In addition, the 'actuating voltage' is added to the B component of the color filter in the third daytime plane to generate a B signal. At this time, as shown in Figures 4F to 41, the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs printed a sequential reception logic, and a "high" signal to allow the thin film transistor to be connected and turned on. Moreover, pulses with opposite phases can also be added to the data line. That is, the thin film transistor can actuate the pixel electrode by sequentially providing a logic "high" signal, and thus actuate the liquid crystal between the data line and the pixel electrode. At this time, the 'signal' can be in the B component of the color filter. The light generated and transmitted through the liquid crystal is blue due to the signal. As shown in Figure 3, in each sub-picture of the same daylight surface, the paper corresponds to the Chinese standard (CNS1.A4 specification (210 .X297 mm) ^ 464781 A7 _____ B7 V. Description of the invention ($) G ', the phase of the data line signal of the B signal is inverted. That is, the first picture on the n-day surface corresponds to the data of the R1 signal The lines D1, D2, ... Dn are positive and correspond to the phase of the R2 signal data line are negative. In the second frame of the N frame, the data lines D1, D2, ... Dn corresponding to the G1 signal are negative and correspond to The phase of the G2 signal data line is positive. Similarly, corresponding to The phase of the data lines of the B1 and B2 signals is also reversed. In addition, the first scan line added to the first daytime surface corresponds to the R1 signal. The first scan line to the second frame corresponds to the phase difference of the Gim data line by 180. The third scan line added to the first frame corresponds to the phase of the B1 signal data line to the second day surface. The phase of the data line of the G1 signal is opposite. The phase of the data line corresponding to a given R'G'B signal is also reversed under the same sub-picture of each day. That is, the first picture of the n-picture corresponds to the R1 signal. The phase of the data lines Di, D2, ... Dn 'and the first picture of the N + l daytime surface correspond to the magic signal data line

Dl 'D2' .._ Dn have opposite phases. The same description is given for a given G and B signal. For this reason, the flickering phenomenon can be reduced by dividing the screen into three parts in the scanning process during the day. The sub-dimension plane is printed by the consumer cooperative of the Central Standards Bureau of the Ministry of Economic Affairs. The screen and the sub-dimension plane are reversed at three times the original frequency. FIG. 5 represents another embodiment of the present invention and is a modified example of FIG. 2. In Fig. 5, a large number of data lines and components of r, g, and b are the same as those in Fig. 2 and have the same reference numerals'. Therefore, the same elements as those in Fig. 2 will be omitted here. In Figure 2, a thin-film transistor TFtii is connected to each subpixel. With reference to Figure 5, the sub-pixels of each odd-numbered column are connected one-to-one to read 9 This record applies to China (CNS.). A4 specifications (.21.〇.χ297 公 楚) 4 6 47 8 1 A7 ___B7 5 7. Description of the invention (7) The film transistor 11 is connected to the thin film transistor TFT21 and the TFT22 one-to-two of the sub-pixels of each even column. That is, 'Each data line is connected in common to two transistors in even columns. Therefore, this embodiment provides smooth processing of horizontal direction information and curves. In addition, in this embodiment, even if one of the two thin-film transistors of each even-numbered column is disadvantageous, another thin-film transistor can be used to actuate the liquid crystal element. Therefore, this embodiment also provides a suitable residual effect of the thin film transistor. In addition, the data line also spans the sub-pixels linearly in each column. The linearization of the data line results in a reduction in the resistance of the data line. It is therefore possible to reduce the distortion of the signal and obtain a true image. In addition, since the area including the data lines becomes smaller, the aperture ratio of the liquid crystal display element can be increased. The invention has been described in detail with reference to several preferred embodiments, but the invention may include any modifications or embodiments. Printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs ο 1 1

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Claims (1)

464781 A8 BS C8 D8 printed by the Consumer Cooperatives of the Central Bureau of Standards, Ministry of Economic Affairs 夂, patent application scope 1. A pixel arrangement structure, including a large number of sub-pixels of color filter, each with R, perpendicular to the scanning direction, G and B are arranged in a matrix form, and the pixels of the even-numbered columns of color filter plates in the scanning direction are spaced by a protruding distance from the pixels of the adjacent odd-numbered columns of color filter plates. 2. A liquid crystal display element comprising a large number of gate lines placed on a first substrate in a first direction; a large number of thin film transistors placed on a second direction perpendicular to the first direction and intersecting the gate lines; , Located at the intersection of the gate line and the data line; and in the second direction, there are color filter plate pixels arranged in accordance with r ′ G, B and the opposite pixel electrode located on the second substrate portion opposite to the first substrate by the thin film electrode. The crystal driven 'color calenders' in the even-numbered columns in the first direction and the color filter plates adjacent to the odd-numbered columns are at a protruding distance. 3. A type of liquid crystal display element includes a large number of gate lines placed on a first substrate in a first direction; a large number of gate lines placed in a second direction perpendicular to the first direction and intersects with the gate lines; A crystal, located at the intersection of the gate line and the data line, and the color filter plate in the even-numbered column in the first direction includes a pair connected to the data line, and the transistors in the odd-numbered column are connected one-to-one to one end of the data line; There are color filters arranged in R, G, and B directions, and pixel electrodes located on the opposite side of the second substrate opposite to the first substrate. The pixel electrodes can be driven by thin-film transistors. The color filters are separated by a protruding distance. 11 This paper size applies to China's national standard (CNS > A4 scale (210 X 297 mm) (Please read the notes on the back before filling out this page) -a 46 47 8 A8 B8 C8 D8 4. If the liquid crystal display element of item 3 of the scope of patent application is applied, there is a 180 ° phase difference between passing through the -direction coupling material line and passing through the -direction. 5.-There is a large 1-color color plate, A method for driving down a crystal element. Each sub-pixel contains R, G, and B. The steps include the following steps: σ divides the day surface into the first-time frame, the second day-surface, and the third frame; and The first picture drives the R signal, the second day drives the g signal ^, and the third day drives the B signal. 6. For the method in the fifth scope of the patent application, which corresponds to the first picture R signal data line. The phase is 180 ° from the phase corresponding to the second daytime G signal data line. This G signal forms a sub-pixel of the R signal, and the phase corresponding to the second time G signal data line corresponds to the third time. The phase of the signal data line of frame B differs by 180 °, and this b signal is formed with (^ 7_ The method according to item 5 of the scope of patent application, which corresponds to each of the R, G, and B signal data lines corresponding to the first day surface, the second frame, and the third frame. The phase difference of each R, G, B data line on the first day, the second screen and the third screen is 80.... Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs. Standard (CNS) A4 specification (210X297 male)