Abstract:
A liquid crystal display includes according to an embodiment a display panel provided with a plurality of data lines, a plurality of gate lines intersecting the data lines, liquid crystal cells arranged in a matrix, and TFTs disposed at the intersections of the data lines and the gate lines; source drive ICs configured to supply data voltages to the data lines, wherein polarities of data voltages are reversed by a column inversion scheme; and a gate driver configured to sequentially supply gate pulses for the gate lines, wherein polarities of the data voltages charged in the liquid crystal cells in the display panel are reversed in dot unit.

Description:
[0001]    This application claims the benefit of Korea Patent Application No. 10-2009-00119398 filed on Dec. 3, 2009, the entire contents of which is incorporated herein by reference for all purposes as if fully set forth herein. 
       BACKGROUND 
       [0002]    1. Field 
         [0003]    This document relates to a liquid crystal display which drives a liquid crystal display panel in a dot inversion by using a source drive integrated circuit outputting data voltages of which polarities are reversed by a column inversion scheme. 
         [0004]    2. Related Art 
         [0005]    An active matrix type liquid crystal display (“LCD”) displays moving pictures by the use of thin film transistors (“TFTs”) as switching elements. The LCD can be made small-sized compared with a cathode ray tube (CRT) and is thus applied to portable information devices, office devices, computers, or the like, and further to television sets, as a substitute for the CRT. 
         [0006]    The LCD includes an LC display panel, a backlight unit which provides light to the LC display panel, source drive integrated circuits (ICs) which supply data voltage for data lines in the LC display panel, gate drive ICs which supply gate pulses (or scan pulses) for gate lines (or scan lines) in the LC display panel, a control circuit which controls the above-described ICs, and a light source driving circuit which drives light sources of the backlight unit. 
         [0007]    With the rapid development of the process techniques and the driving techniques for the LCD, a manufacturing cost of the LCD has been lowered and its image quality has been much improved. The power consumption, the image quality, and the manufacturing cost of the LCD are required to be further improved suitable for the demand for low power consumption and a low cost in an information terminal device. 
       SUMMARY 
       [0008]    Embodiments of the present invention provide a liquid crystal display (LCD) comprising an LC display panel provided with a plurality of data lines, a plurality of gate lines intersecting the data lines, LC cells arranged in a matrix, and TFTs disposed at the intersections of the data lines and the gate lines; source drive ICs configured to supply data voltages to the data lines, wherein polarities of data voltages are reversed by a column inversion scheme; and a gate driving circuit configured to sequentially supply gate pulses for the gate lines. 
         [0009]    Here, polarities of the data voltages charged in the LC cells in the LC display panel are reversed in dot unit. 
         [0010]    In addition, at least a part of the LC display panel includes two LC cells disposed between data lines adjacent to each other in a (m+1)-th (where m is an odd number) horizontal display line so as to be spaced apart from two LC cells disposed between data lines adjacent to each other in an m-th horizontal display line. 
         [0011]    The two LC cells in the m-th horizontal display line and the two LC cells in the (m+1)-th horizontal display line sequentially charge therein data voltages with the same polarity supplied from the same data line. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0012]    The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. In the drawings: 
           [0013]      FIG. 1  is a block diagram illustrating an LCD according to an embodiment of this document; 
           [0014]      FIG. 2  is a detailed circuit diagram illustrating a first embodiment of the pixel array shown in  FIG. 1 ; 
           [0015]      FIG. 3  is a diagram illustrating an example where the first data line is connected to the (m+1)-th data line; 
           [0016]      FIG. 4  is a waveform diagram illustrating data voltages supplied for the data lines in the LCD as shown in  FIG. 3 ; 
           [0017]      FIG. 5  is a diagram illustrating an example where the (m+1)-th data line is connected to an output channel of the source drive IC; 
           [0018]      FIG. 6  is a waveform diagram illustrating data voltages supplied for the data lines in the LCD shown in  FIG. 5 ; 
           [0019]      FIG. 7  is a detailed circuit diagram illustrating a second embodiment of the pixel array shown in  FIG. 1 ; 
           [0020]      FIG. 8  is a detailed circuit diagram illustrating a third embodiment of the pixel array shown in  FIG. 1 ; 
           [0021]      FIG. 9  is a detailed circuit diagram illustrating a fourth embodiment of the pixel array shown in  FIG. 1 ; 
           [0022]      FIG. 10  is a detailed circuit diagram illustrating a fifth embodiment of the pixel array shown in  FIG. 1 ; 
           [0023]      FIG. 11  is a detailed circuit diagram illustrating a sixth embodiment of the pixel array shown in  FIG. 1 ; 
           [0024]      FIG. 12  is a detailed circuit diagram illustrating a seventh embodiment of the pixel array shown in  FIG. 1 ; 
           [0025]      FIG. 13  is a detailed circuit diagram illustrating an eighth embodiment of the pixel array shown in  FIG. 1 ; 
           [0026]      FIG. 14  is a detailed circuit diagram illustrating a ninth embodiment of the pixel array shown in  FIG. 1 ; 
           [0027]      FIG. 15  is a detailed circuit diagram illustrating a tenth embodiment of the pixel array shown in  FIG. 1 ; and 
           [0028]      FIG. 16  is a detailed circuit diagram illustrating an eleventh embodiment of the pixel array shown in  FIG. 1 . 
       
    
    
     DETAILED DESCRIPTION 
       [0029]    With reference to the accompanying drawings, exemplary embodiments of this document will be described by exemplifying an LCD. Like reference numerals designate like elements throughout the specification. In the following explanations, when a detailed description of well-known functions or configurations related to this document is determined to unnecessarily cloud a gist of this document, the detailed description thereof will be omitted. 
         [0030]    Names of the respective elements used in the following explanations are selected for convenience of writing the specification and may be thus different from those in actual products. 
         [0031]    Referring to  FIG. 1 , an LCD according to an embodiment of this document an LC display panel provided with a pixel array  10 , source drive ICs  12 , and a timing controller  11 . A backlight unit, which uniformly provides light to the LC display panel, may be placed at a lower part of the LC display panel. 
         [0032]    The LC display panel comprises an upper glass substrate and a lower glass substrate opposite to each other with an LC layer therebetween. The LC display panel is provided with the pixel array  10 . The pixel array  10  includes LC cells arranged in a matrix by the intersection structure of data lines and gate lines. The lower glass substrate of the pixel array  10  is provided with the data lines, the gate lines, TFTs, pixel electrodes of the LC cells connected to the TFTs, storage capacitors Cst connected to the pixel electrodes of the LC cells and so on. Each of the LC cells in the pixel array  10  is driven by a voltage difference between a voltage charged in the pixel electrode via the TFT and a common voltage applied to a common electrode, and this voltage difference controls transmittance of light passing the LC cell to display images corresponding to video data. A structure of the pixel array  10  will be described in detail with reference to following figures. 
         [0033]    The upper glass substrate of the LC display panel is provided with black matrices, color filters and the common electrodes. The common electrodes are disposed on the upper glass substrate in a vertical field driving type such as a TN (twisted nematic) mode and a VA (vertically aligned) mode, and are disposed on the lower glass substrate along with the pixel electrodes in a horizontal field driving type such as an IPS (in-plane switching) mode and an FFS (fringe field switching) mode. 
         [0034]    Polarizers are respectively attached to the outer surfaces of the lower and upper glass substrates of the LC display panel, and alignment layers are formed on the inner surfaces having contact to the LC layer to set pretilt angles of the LC layer. 
         [0035]    The LCD may be implemented by not only the TN mode, the VA mode, the IPS mode, and the FFS mode, but also any other LC mode. The LCD may be implemented by any other type LCD such as a transmissive LCD, a transflective LCD, a reflective LCD, or the like. The transmissive LCD and the reflective LCD require the backlight unit. The backlight unit may be implemented by a direct type backlight unit or an edge type backlight unit. 
         [0036]    The source drive ICs  12  are mounted on tape carrier packages (TCPs)  15 , joined to the lower glass substrate of the LC display panel and connected to a source printed circuit board (PCB)  14  by a TAB (tap automated bonding) process. The source drive ICs  12  may be attached to the lower glass substrate of the LC display panel. Each of data output channels of the source drive ICs  12  is connected to each data line in the pixel array  10 . The total number of the output channels of the source drive ICs  12  is about a half the total number of the data lines. 
         [0037]    Each of the source drive ICs  12  receives digital video data from the timing controller  11 . The source drive ICs  12  convert the digital video data into positive/negative data voltage in response to source timing control signals from the timing controller  11 , and supply the converted data voltages for the data lines in the pixel array  10  via the output channels. The source drive ICs  12  supply the data voltages with polarities opposite to each other for adjacent data lines under the control of the timing controller  11 , and the polarities of the data voltages supplied for the respective data lines are maintained unchanged during one frame period. Thus, the source drive ICs  12  output the data voltages of which the polarities are reversed by a column inversion scheme as shown in  FIGS. 4 and 6 . 
         [0038]    The gate drivers  13  sequentially supply the gate pulses (or scan pulses) for the gate lines in the pixel array in response to gate timing control signals from the timing controller  11 . The gate drivers  13  may be mounted on TCPs and joined to the lower glass substrate of the LC display panel by the TAB process, or may be directly formed on the lower glass substrate along with the pixel array  10  by a GIP (gate in panel) process. The gate drivers  13  may be disposed at both sides of the pixel array  10  as shown in  FIG. 2 , or may be disposed at one side of the pixel array  10 . 
         [0039]    The timing controller  11  transmits the digital video data from an external system board to the source drive ICs  12 . The timing controller  11  generates the source timing control signals for controlling operation timings of the source drive ICs  12  and the gate timing control signals for controlling operation timings of the gate drivers  13 . The timing controller  11  is mounted on a control PCB  16 . The control PCB  16  and the source PCB  14  are connected to each other via a flexible printed circuit board  17  such as an FFC (flexible flat cable) or an FPC (flexible printed circuit). 
         [0040]      FIG. 2  is a circuit diagram illustrating a first embodiment of the pixel array  10 . 
         [0041]    In  FIG. 2 , the pixel array  10  is provided with (m+1) data lines D 1  to Dm+1, the gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and the TFTs T 11  to T 14  and T 21  to T 24  which switch current paths formed between the pixel electrodes PIX 11  to PIX 14  and PIX 21  to PIX 24  in the LC cells and the data lines D 1  to Dm+1 in response to the gate pulses. The number of the LC cells arranged in a single horizontal display line in this pixel array is 2m. 
         [0042]    For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 2 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot inversion. In  FIG. 2 , the arrow indicates an order of the data voltages being charged in the LC cells. 
         [0043]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to Gln. 
         [0044]    During an N-th (where N is an odd number) frame period, the source drive ICs  12  supply only negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm.
       In embodiments described below, a character i for the data lines has a value equal to or less than m, and may have different values in each embodiment. The a character i is natural number. For example, in the embodiments shown in  FIGS. 2 ,  7 ,  8 ,  10 ,  11 ,  12 ,  15  and  16 , the character i=3k−2 (where k is a natural number), and, in the embodiments shown in  FIGS. 9 ,  13  and  14 , the character i=4k−3. In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines disposed between an i-th data line and a (i+1)-th data line charge therein the positive data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 2 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. In addition, in the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines disposed between the (i+1)-th data line and a (i+2) data line charge therein the positive data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 2 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. Therefore, the first and second LC cells in the odd-numbered horizontal display lines and the third and fourth LC cells in the even-numbered horizontal display lines charge therein the voltages with the same polarity supplied from the (i+1)-th data line.       
 
         [0046]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines disposed between the (i+1)-th data line and the (i+2)-th data line charge therein the negative data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 2 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. In addition, in the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, fifth and sixth LC cells in the even-numbered horizontal display lines disposed between the (i+2)-th data line and a (i+3)-th data line charge therein the negative data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 2 , the fifth and sixth LC cells in the even-numbered horizontal display lines are not shown, and their connection structures are substantially the same as those of the first and second LC cells. Therefore, the third and fourth LC cells in the odd-numbered horizontal display lines and the fifth and sixth LC cells in the even-numbered horizontal display lines charge therein the voltages with the same polarity supplied from the (i+2)-th data line. Meanwhile, the first and second LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity supplied from the i-th data line. 
         [0047]    In the pixel array  10  shown in  FIG. 2 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0048]    In the first horizontal display line LINE# 1 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the second data line D 2 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 11  in response to the second gate pulse from the second gate line G 2 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the second gate line G 2 . A drain terminal of the first TFT T 11  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0049]    In the first horizontal display line LINE# 1 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein data voltages sequentially supplied from the third data line D 3 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the fourth TFT T 14  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0050]    In the second horizontal display line LINE# 2 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the first data line D 1 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 21  in response to the third gate pulse from the third gate line G 3 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the third gate line G 3 . A drain terminal of the first TFT T 21  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 22  in response to the fourth gate pulse from the fourth gate line G 4 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the fourth gate line G 4 . A drain terminal of the second TFT T 22  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0051]    In the second horizontal display line LINE# 2 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein the data voltages sequentially supplied from the second data line D 2 . The third and fourth LC cells in the second horizontal display line LINE# 2  are spaced apart from the first and the second LC cells in the first horizontal display line LINE# 1  in the diagonal direction, and share the second data line D 2  with the first and the second LC cells in the first horizontal display line LINE# 1 . Therefore, the first and second in the first horizontal display line LINE# 1  and the third and fourth LC cells sequentially charge therein the data voltages with the same polarity which are consecutively supplied via the second data line D 2 . 
         [0052]    The third TFT T 23  in the second horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the fourth TFT T 24  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0053]    In the LCD according to the embodiment of this document, the polarity of the data voltages charged in the LC cells connected to the same data line is the same, thereby it is possible to reduce power consumption in the source drive ICs and also make an amount of data charged in each LC cell uniform. Thus, according to this document, it is possible to prevent degradation in image quality such as brightness unevenness, color distortion, or the like resulting from the unevenness of the amount of data charged due to the inversion method in the related art. In addition, according to this document, it is possible to reduce the number of the data lines and the channels of the source drive ICs by the use of the TFT connection relation where the LC cells adjacent to each other in the horizontal direction share one data line with each other, and furthermore, to reduce the manufacturing cost of the LCD. 
         [0054]    The pixel array  10  is not limited to that shown in  FIG. 2 . For example, the pixel array  10  may be modified as shown in  FIGS. 7 to 16 . In the embodiments in  FIGS. 7 to 16  as well, the number of data lines is reduced by half, and the data voltages from the source drive ICs  12  are output by the column inversion scheme, and the LC cells in the pixel array  10  are driven by the dot inversion scheme. 
         [0055]    The (m+1)-th data line Dm+1 disposed at the rightmost of the pixel array  10  may be connected to the first data line D 1  disposed at the leftmost of the pixel array  10  like in  FIG. 3 .  FIG. 4  is a waveform diagram illustrating the data voltages provided to the data lines D 1  to Dm+1 in the LCD shown in  FIG. 3 . 
         [0056]    Referring to  FIGS. 3 and 4 , the LCD further comprises a connection line  111  extending via the TCPs  15  and the source PCB  14 . 
         [0057]    The one end of the connection line  111  is connected to the first data line D 1 , and the other end of the connection line  111  is connected to the (m+1)-th data line Dm+1. Among the source drive ICs  12 , the output channel of the first source drive IC  12  disposed at the uppermost left of the pixel array  10  provide the data voltages to the first data line D 1  and the (m+1)-th data line Dm+1. 
         [0058]    The (m+1)-th data Dm+1 disposed at the rightmost of the pixel array  10  may be connected to the output channel of the source drive IC  12  in the state of not being connected to the first data line D 1  as shown in  FIG. 5 .  FIG. 6  is a waveform diagram illustrating waveforms of the data voltages provided to the data lines in the LCD shown in  FIG. 5 . 
         [0059]    Referring to  FIGS. 5 and 6 , the source drive IC  12 , which is disposed at the uppermost right of the LC display panel, further comprises an output channel connected to the (m+1)-th data line Dm+1. Therefore, the (m+1)-th data line Dm+1 is directly supplied with data voltages from the last source drive IC  12  disposed at the uppermost right of the pixel array  10 , among the source drive ICs  12 . 
         [0060]      FIG. 7  is a circuit diagram illustrating a second embodiment of the pixel array  10 . 
         [0061]    In  FIG. 7 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 14  and T 21  to T 24  which switch current paths formed between the pixel electrodes PIX 11  to PIX 14  and PIX 21  to PIX 24  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 7 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot (1×2 dots). 
         [0062]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0063]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0064]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines disposed between an i-th data line and a (i+1)-th data line charge therein the positive data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 7 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0065]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines disposed between the (i+1)-th data line and a (i+2)-th data line charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 7 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. In addition, in the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines disposed between the i-th data line and the (i+1) data line charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 7 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. Therefore, the third and fourth LC cells in the odd-numbered horizontal display lines and the first and second LC cells in the even-numbered horizontal display lines charge therein the voltages with the same polarity supplied from the (i+1)-th data line. 
         [0066]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines disposed between the (i+1)-th data line and a (i+2) data line charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 7 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0067]    In the pixel array  10  shown in  FIG. 7 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0068]    In the first horizontal display line LINE# 1 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the second gate pulse from the second gate line G 2 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the second gate line G 2 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0069]    In the first horizontal display line LINE# 1 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein data voltages sequentially supplied from the second data line D 2 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the fourth TFT T 14  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0070]    In the second horizontal display line LINE# 2 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the second data line D 2 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the third gate pulse from the third gate line G 3 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the third gate line G 3 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 22  in response to the fourth gate pulse from the fourth gate line G 4 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the fourth gate line G 4 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0071]    In the second horizontal display line LINE# 2 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein the data voltages sequentially supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the fourth TFT T 24  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0072]      FIG. 8  is a circuit diagram illustrating a third embodiment of the pixel array  10 . 
         [0073]    Referring to  FIG. 8 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 14  and T 21  to T 24  which switch current paths formed between the pixel electrodes PIX 11  to PIX 14  and PIX 21  to PIX 24  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 8 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. 
         [0074]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0075]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0076]    During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0077]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines disposed between an i-th data line and a (i+1)-th data line charge therein the positive data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 8 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0078]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines disposed between the (i+1)-th data line and a (i+2)-th data line charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 8 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. In addition, in the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines disposed between the i-th data line and the (i+1) data line charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 8 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. Therefore, the third and fourth LC cells in the odd-numbered horizontal display lines and the first and second LC cells in the even-numbered horizontal display lines charge therein the voltages with the same polarity supplied from the (i+1)-th data line. 
         [0079]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines disposed between the (i+1)-th data line and a (i+2) data line charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 8 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0080]    In the pixel array  10  shown in  FIG. 8 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0081]    In the first horizontal display line LINE# 1 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the first gate pulse from the first gate line G 1 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the first gate line G 1 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 12  in response to the second gate pulse from the second gate line G 2 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0082]    In the first horizontal display line LINE# 1 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein data voltages sequentially supplied from the second data line D 2 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the fourth TFT T 14  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0083]    In the second horizontal display line LINE# 2 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the second data line D 2 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the fourth gate pulse from the fourth gate line G 4 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the fourth gate line G 4 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 22  in response to the third gate pulse from the third gate line G 3 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0084]    In the second horizontal display line LINE# 2 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein the data voltages sequentially supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the fourth TFT T 24  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0085]      FIG. 9  is a circuit diagram illustrating a fourth embodiment of the pixel array  10 . 
         [0086]    In  FIG. 9 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 16  and T 21  to T 26  which switch current paths formed between the pixel electrodes PIX 11  to PIX 16  and PIX 21  to PIX 26  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 9 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. 
         [0087]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0088]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0089]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines disposed between an i-th data line and a (i+1)-th data line charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 9 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0090]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines disposed between the (i+1)-th data line and a (i+2)-th data line charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 9 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. In addition, in the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines disposed between the i-th data line and the (i+1) data line charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 9 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. Therefore, the third and fourth LC cells in the odd-numbered horizontal display lines and the first and second LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity supplied from the (i+1)-th data line. 
         [0091]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, fifth and sixth LC cells in the odd-numbered horizontal display lines disposed between the (i+2)-th data line and a (i+3)-th data line charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 9 , the reference numeral “PIX 15 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 16 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the odd-numbered horizontal display lines. In addition, in the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines disposed between the (i+1)-th data line and the (i+2) data line charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 9 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. Therefore, the fifth and sixth LC cells in the odd-numbered horizontal display lines and the third and fourth LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity supplied from the (i+2)-th data line. 
         [0092]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, fifth and sixth LC cells in the even-numbered horizontal display lines disposed between the (i+2)-th data line and the (i+3)-th data line charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. In  FIG. 9 , the reference numeral “PIX 25 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 26 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the even-numbered horizontal display lines. 
         [0093]    In the pixel array  10  shown in  FIG. 9 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to sixth LC cells in the first horizontal display line LINE# 1 , and the first to sixth LC cells in the second horizontal display line LINE# 2 . 
         [0094]    In the first horizontal display line LINE# 1 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the second gate pulse from the second gate line G 2 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the second gate line G 2 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0095]    In the first horizontal display line LINE# 1 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein data voltages sequentially supplied from the second data line D 2 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the fourth TFT T 14  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0096]    In the first horizontal display line LINE# 1 , the fifth and sixth LC cells disposed between the third data line D 3  and the fourth data line D 4  charge therein data voltages sequentially supplied from the third data line D 3 . The fifth TFT T 15  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fifth pixel electrode PIX 15  in response to the first gate pulse from the first gate line G 1 . The fifth pixel electrode PIX 15  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fifth TFT T 15  is connected to the first gate line G 1 . A drain terminal of the fifth TFT T 15  is connected to the third data line D 3 , and a source terminal thereof is connected to the fifth pixel electrode PIX 15 . The sixth TFT T 16  in the first horizontal display line transmits the data voltage from the third data line D 3  to the sixth pixel electrode PIX 16  in response to the second gate pulse from the second gate line G 2 . The sixth pixel electrode PIX 16  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 16  is connected to the second gate line G 2 . A drain terminal of the sixth TFT T 16  is connected to the third data line D 3 , and a source terminal thereof is connected to the sixth pixel electrode PIX 16 . 
         [0097]    In the second horizontal display line LINE# 2 , the first and second LC cells disposed between the first data line D 1  and the second data line D 2  charge therein data voltages sequentially supplied from the second data line D 2 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the third gate pulse from the third gate line G 3 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the third gate line G 3 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 22  in response to the fourth gate pulse from the fourth gate line G 4 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the fourth gate line G 4 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0098]    In the second horizontal display line LINE# 2 , the third and fourth LC cells disposed between the second data line D 2  and the third data line D 3  charge therein the data voltages sequentially supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the fourth TFT T 24  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0099]    In the second horizontal display line LINE# 2 , the fifth and sixth LC cells disposed between the third data line D 3  and the fourth data line D 4  charge therein the data voltages sequentially supplied from the fourth data line D 4 . The fifth TFT T 25  in the second horizontal display line transmits the data voltage from the fourth data line D 4  to the fifth pixel electrode PIX 25  in response to the fourth gate pulse from the fourth gate line G 4 . The fifth pixel electrode PIX 25  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fifth TFT T 25  is connected to the fourth gate line G 4 . A drain terminal of the fifth TFT T 25  is connected to the fourth data line D 4 , and a source terminal thereof is connected to the fifth pixel electrode PIX 25 . The sixth TFT T 26  in the second horizontal display line transmits the data voltage from the fourth data line D 4  to the sixth pixel electrode PIX 26  in response to the third gate pulse from the third gate line G 3 . The sixth pixel electrode PIX 26  charges the data voltage therein during about ½ horizontal period. A gate terminal of the sixth TFT T 26  is connected to the third gate line G 3 . A drain terminal of the sixth TFT T 26  is connected to the fourth data line D 4 , and a source terminal thereof is connected to the sixth pixel electrode PIX 26 . 
         [0100]      FIG. 10  is a circuit diagram illustrating a fifth embodiment of the pixel array  10 . 
         [0101]    Referring to  FIG. 10 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 14  and T 21  to T 24  which switch current paths formed between the pixel electrodes PIX 11  to PIX 14  and PIX 21  to PIX 24  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 10 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. 
         [0102]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0103]    During an N-th frame period, the source drive ICs supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0104]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 10 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0105]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 10 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0106]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 10 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0107]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 10 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0108]    As can be seen from  FIG. 10 , the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity which are supplied from the (i+1)-th data line. The polarity of the data voltages charged in the second and third cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines is opposite to that of the data voltages charged in the first and fourth LC cells in the odd-numbered horizontal display lines and the second and third LC cells in the even-numbered horizontal display lines. 
         [0109]    In the pixel array  10  shown in  FIG. 10 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0110]    The second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the second gate pulse from the second gate line G 2 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the second gate line G 2 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0111]    The fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . Successively, the third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0112]    The first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the third gate pulse from the third gate line G 3 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the third gate line G 3 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 22  in response to the fourth gate pulse from the fourth gate line G 4 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the fourth gate line G 4 . A drain terminal of the second TFT T 22  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0113]    The third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . Successively, the fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0114]      FIG. 11  is a circuit diagram illustrating a sixth embodiment of the pixel array  10 . 
         [0115]    Referring to  FIG. 11 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 14  and T 21  to T 24  which switch current paths formed between the pixel electrodes PIX 11  to PIX 14  and PIX 21  to PIX 24  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 11 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. 
         [0116]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0117]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0118]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 11 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0119]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 11 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0120]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 11 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0121]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 11 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0122]    As can be seen from  FIG. 11 , the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity which are supplied from the (i+1)-th data line. The polarity of the data voltages charged in the second and third cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines is opposite to that of the data voltages charged in the first and fourth LC cells in the odd-numbered horizontal display lines and the second and third LC cells in the even-numbered horizontal display lines. 
         [0123]    In the pixel array  10  shown in  FIG. 11 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0124]    The first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . Successively, the second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the first gate pulse from the first gate line G 1 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the first gate line G 1 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the second gate pulse from the second gate line G 2 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0125]    The third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the first gate pulse from the first gate line G 1 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the first gate line G 1 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the second gate pulse from the second gate line G 2 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0126]    The second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . Successively, the first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the fourth gate pulse from the fourth gate line G 4 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the fourth gate line G 4 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 22  in response to the third gate pulse from the third gate line G 3 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0127]    The fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the fourth gate pulse from the fourth gate line G 4 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the fourth gate line G 4 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the third gate pulse from the third gate line G 3 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0128]      FIG. 12  is a circuit diagram illustrating a fourth embodiment of the pixel array  10 . 
         [0129]    In  FIG. 12 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 16  and T 21  to T 26  which switch current paths formed between the pixel electrodes PIX 11  to PIX 16  and PIX 21  to PIX 26  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 12 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. 
         [0130]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0131]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0132]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 12 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0133]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 12 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0134]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 12 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0135]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 12 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0136]    As can be seen from  FIG. 12 , the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity which are supplied from the (i+1)-th data line. The polarity of the data voltages charged in the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines is opposite to that of the data voltages charged in the first and fourth LC cells in the odd-numbered horizontal display lines and the second and third LC cells in the even-numbered horizontal display lines. 
         [0137]    In the pixel array  10  shown in  FIG. 12 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0138]    The first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . At the same time, the second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the first gate pulse from the first gate line G 1 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the first gate line G 1 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0139]    The third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . At the same time, the fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the second gate pulse from the second gate line G 2 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0140]    The second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . Successively, the first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the fourth gate pulse from the fourth gate line G 4 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the fourth gate line G 4 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 22  in response to the third gate pulse from the third gate line G 3 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0141]    The fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the fourth gate pulse from the fourth gate line G 4 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the fourth gate line G 4 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the third gate pulse from the third gate line G 3 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0142]      FIG. 13  is a circuit diagram illustrating an eighth embodiment of the pixel array  10 . 
         [0143]    In  FIG. 13 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 16  and T 21  to T 26  which switch current paths formed between the pixel electrodes PIX 11  to PIX 16  and PIX 21  to PIX 26  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 13 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. In addition, the polarities of the data voltages charged in a part of the LC cells of the pixel array  10  in  FIG. 13  are reversed in a unit of horizontal 1-dot and vertical 1-dot (1×1 dot). Therefore, in the pixel array in  FIG. 13 , there are mixed the LC cells where the polarities of the data voltages charged therein are reversed in a unit of horizontal 2-dot and vertical 1-dot and in a unit of horizontal 1-dot and vertical 1-dot. 
         [0144]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0145]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0146]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 13 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0147]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 13 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0148]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, fifth and sixth LC cells in the odd-numbered horizontal display lines are disposed between the (i+2)-th data line and a (i+3)-th data line. The fifth LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. The sixth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 13 , the reference numeral “PIX 15 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 16 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the odd-numbered horizontal display lines. 
         [0149]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 13 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0150]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 13 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0151]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, fifth and sixth LC cells in the even-numbered horizontal display lines are disposed between the (i+2)-th data line and a (i+3) data line. The fifth LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The sixth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. In  FIG. 13 , the reference numeral “PIX 25 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 26 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the even-numbered horizontal display lines. 
         [0152]    As can be seen from  FIG. 13 , the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity which are supplied from the (i+1)-th data line. The polarity of the data voltages charged in the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines is opposite to that of the data voltages charged in the first and fourth LC cells in the odd-numbered horizontal display lines and the second and third LC cells in the even-numbered horizontal display lines. The polarities of the data voltages charged in the first to fourth LC cells in the odd-numbered horizontal display lines and the first to fourth LC cells in the even-numbered horizontal display lines are reversed in a unit of horizontal 2-dot and vertical 1-dot. On the other hand, the polarities of the data voltages charged in the third to sixth LC cells in the odd-numbered horizontal display lines and the third to sixth LC cells in the even-numbered horizontal display lines are reversed in a unit of horizontal 1-dot and vertical 1-dot. 
         [0153]    In the pixel array  10  shown in  FIG. 13 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to sixth LC cells in the first horizontal display line LINE# 1 , and the first to sixth LC cells in the second horizontal display line LINE# 2 . 
         [0154]    The second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the second gate pulse from the second gate line G 2 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the second gate line G 2 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0155]    The fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . Successively, the third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0156]    The fifth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the fourth data line D 4 . Successively, the sixth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . The fifth TFT T 15  in the first horizontal display line transmits the data voltage from the fourth data line D 4  to the fifth pixel electrode PIX 15  in response to the first gate pulse from the first gate line G 1 . The fifth pixel electrode PIX 15  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fifth TFT T 15  is connected to the first gate line G 1 . A drain terminal of the fifth TFT T 15  is connected to the fourth data line D 4 , and a source terminal thereof is connected to the fifth pixel electrode PIX 15 . The sixth TFT T 16  in the first horizontal display line transmits the data voltage from the third data line D 3  to the sixth pixel electrode PIX 16  in response to the second gate pulse from the second gate line G 2 . The sixth pixel electrode PIX 16  charges the data voltage therein during about ½ horizontal period. A gate terminal of the sixth TFT T 16  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the third data line D 3 , and a source terminal thereof is connected to the sixth pixel electrode PIX 16 . 
         [0157]    The first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the third gate pulse from the third gate line G 3 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the third gate line G 3 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 22  in response to the fourth gate pulse from the fourth gate line G 4 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the fourth gate line G 4 . A drain terminal of the second TFT T 22  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0158]    The third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . Successively, the fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the fourth TFT T 24  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0159]    The sixth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the fourth data line D 4 . Successively, the fifth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . The fifth TFT T 25  in the second horizontal display line transmits the data voltage from the third data line D 3  to the fifth pixel electrode PIX 25  in response to the fourth gate pulse from the fourth gate line G 4 . The fifth pixel electrode PIX 25  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fifth TFT T 25  is connected to the fourth gate line G 4 . A drain terminal of the fifth TFT T 25  is connected to the third data line D 3 , and a source terminal thereof is connected to the fifth pixel electrode PIX 25 . The sixth TFT T 26  in the second horizontal display line transmits the data voltage from the fourth data line D 4  to the sixth pixel electrode PIX 26  in response to the third gate pulse from the third gate line G 3 . The sixth pixel electrode PIX 26  charges the data voltage therein during about ½ horizontal period. A gate terminal of the sixth TFT T 26  is connected to the third gate line G 3 . A drain terminal of the sixth TFT T 26  is connected to the fourth data line D 4 , and a source terminal thereof is connected to the sixth pixel electrode PIX 26 . 
         [0160]      FIG. 14  is a circuit diagram illustrating a ninth embodiment of the pixel array  10 . 
         [0161]    In  FIG. 14 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to Gln intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 16  and T 21  to T 26  which switch current paths formed between the pixel electrodes PIX 11  to PIX 16  and PIX 21  to PIX 26  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 14 , their polarities are reversed in a unit of horizontal 2-dot and vertical 1-dot. In addition, the polarities of the data voltages charged in a part of the LC cells of the pixel array  10  in  FIG. 14  are reversed in a unit of horizontal 1-dot and vertical 1-dot. Therefore, in the pixel array in  FIG. 14 , there are mixed the LC cells where the polarities of the data voltages charged therein are reversed in a unit of horizontal 2-dot and vertical 1-dot and in a unit of horizontal 1-dot and vertical 1-dot. 
         [0162]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0163]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0164]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. 
         [0165]    In  FIG. 14 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0166]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 14 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0167]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, fifth and sixth LC cells in the odd-numbered horizontal display lines are disposed between the (i+2)-th data line and a (i+3)-th data line. The fifth LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. The sixth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 14 , the reference numeral “PIX 15 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 16 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the odd-numbered horizontal display lines. 
         [0168]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 14 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0169]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 14 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0170]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, fifth and sixth LC cells in the even-numbered horizontal display lines are disposed between the (i+2)-th data line and a (i+3) data line. The fifth LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The sixth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. In  FIG. 14 , the reference numeral “PIX 25 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 26 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the even-numbered horizontal display lines. 
         [0171]    As can be seen from  FIG. 14 , the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines charge therein the data voltages with the same polarity which are supplied from the (i+1)-th data line. The polarity of the data voltages charged in the second and third LC cells in the odd-numbered horizontal display lines and the first and fourth LC cells in the even-numbered horizontal display lines is opposite to that of the data voltages charged in the first and fourth LC cells in the odd-numbered horizontal display lines and the second and third LC cells in the even-numbered horizontal display lines. The polarities of the data voltages charged in the first to fourth LC cells in the odd-numbered horizontal display lines and the first to fourth LC cells in the even-numbered horizontal display lines are reversed in a unit of horizontal 2-dot and vertical 1-dot. On the other hand, the polarities of the data voltages charged in the third to sixth LC cells in the odd-numbered horizontal display lines and the third to sixth LC cells in the even-numbered horizontal display lines are reversed in a unit of horizontal 1-dot and vertical 1-dot. 
         [0172]    In the pixel array  10  shown in  FIG. 14 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to sixth LC cells in the first horizontal display line LINE# 1 , and the first to sixth LC cells in the second horizontal display line LINE# 2 . 
         [0173]    The first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . Successively, the second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the first gate pulse from the first gate line G 1 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the first gate line G 1 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the second gate pulse from the second gate line G 2 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0174]    The third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the first gate pulse from the first gate line G 1 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the first gate line G 1 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the second gate pulse from the second gate line G 2 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the second gate line G 2 . A drain terminal of the fourth TFT T 14  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0175]    The sixth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . Successively, the fifth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the fourth data line D 4 . The fifth TFT T 15  in the first horizontal display line transmits the data voltage from the fourth data line D 4  to the fifth pixel electrode PIX 15  in response to the second gate pulse from the second gate line G 2 . The fifth pixel electrode PIX 15  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fifth TFT T 15  is connected to the second gate line G 2 . A drain terminal of the fifth TFT T 15  is connected to the fourth data line D 4 , and a source terminal thereof is connected to the fifth pixel electrode PIX 15 . The sixth TFT T 16  in the first horizontal display line transmits the data voltage from the third data line D 3  to the sixth pixel electrode PIX 16  in response to the first gate pulse from the first gate line G 1 . The sixth pixel electrode PIX 16  charges the data voltage therein during about ½ horizontal period. A gate terminal of the sixth TFT T 16  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the third data line D 3 , and a source terminal thereof is connected to the sixth pixel electrode PIX 16 . 
         [0176]    The second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . Successively, the first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 21  in response to the fourth gate pulse from the fourth gate line G 4 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the fourth gate line G 4 . A drain terminal of the first TFT T 21  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 22  in response to the third gate pulse from the third gate line G 3 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0177]    The fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the fourth gate pulse from the fourth gate line G 4 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the fourth gate line G 4 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the third gate pulse from the third gate line G 3 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the third gate line G 3 . A drain terminal of the fourth TFT T 24  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0178]    The fifth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . Successively, the sixth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the fourth data line D 4 . The fifth TFT T 25  in the second horizontal display line transmits the data voltage from the third data line D 3  to the fifth pixel electrode PIX 25  in response to the third gate pulse from the third gate line G 3 . The fifth pixel electrode PIX 25  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fifth TFT T 25  is connected to the third gate line G 3 . A drain terminal of the fifth TFT T 25  is connected to the third data line D 3 , and a source terminal thereof is connected to the fifth pixel electrode PIX 25 . The sixth TFT T 26  in the second horizontal display line transmits the data voltage from the fourth data line D 4  to the sixth pixel electrode PIX 26  in response to the fourth gate pulse from the fourth gate line G 4 . The sixth pixel electrode PIX 26  charges the data voltage therein during about ½ horizontal period. A gate terminal of the sixth TFT T 26  is connected to the fourth gate line G 4 . A drain terminal of the sixth TFT T 26  is connected to the fourth data line D 4 , and a source terminal thereof is connected to the sixth pixel electrode PIX 26 . 
         [0179]      FIG. 15  is a circuit diagram illustrating a tenth embodiment of the pixel array  10 . 
         [0180]    In  FIG. 15 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 16  and T 21  to T 26  which switch current paths formed between the pixel electrodes PIX 11  to PIX 16  and PIX 21  to PIX 26  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 15 , their polarities are reversed in a unit of horizontal 1-dot and vertical 1-dot. 
         [0181]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0182]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0183]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. In  FIG. 15 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0184]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 15 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0185]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, fifth and sixth LC cells in the odd-numbered horizontal display lines are disposed between the (i+2)-th data line and a (i+3)-th data line. The fifth LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. The sixth LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. In  FIG. 15 , the reference numeral “PIX 15 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 16 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the odd-numbered horizontal display lines. 
         [0186]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein negative data voltages the supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 15 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0187]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 15 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0188]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, fifth and sixth LC cells in the even-numbered horizontal display lines are disposed between the (i+2)-th data line and a (i+3) data line. The fifth LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The sixth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+3)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+3)-th data line during the (N+1)-th frame period. In  FIG. 15 , the reference numeral “PIX 25 ” denotes the fifth pixel electrodes formed in the fifth LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 26 ” denotes the sixth pixel electrodes formed in the sixth LC cells in the even-numbered horizontal display lines. 
         [0189]    As can be seen from  FIG. 15 , the LC cells adjacent to each other in the vertical direction as well as the LC cells adjacent to each other in the horizontal direction charge therein the data voltages with the polarities opposite to each other. Therefore, the LC cells of the pixel array in  FIG. 15  charge therein the data voltages of which the polarities are reversed in a unit of horizontal 1-dot and vertical 1-dot. 
         [0190]    In the pixel array  10  shown in  FIG. 15 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0191]    The first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the second data line D 2  to the first pixel electrode PIX 11  in response to the first gate pulse from the first gate line G 1 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the first gate line G 1 . A drain terminal of the first TFT T 11  is connected to the second data line D 2 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the first data line D 1  to the second pixel electrode PIX 12  in response to the second gate pulse from the second gate line G 2 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the second gate line G 2 . A drain terminal of the second TFT T 12  is connected to the first data line D 1 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0192]    The fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . Successively, the third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the second data line D 2  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the second data line D 2 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the third data line D 3  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the fourth TFT T 14  is connected to the third data line D 3 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0193]    The second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 21  in response to the fourth gate pulse from the fourth gate line G 4 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the fourth gate line G 4 . A drain terminal of the first TFT T 21  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 22  in response to the third gate pulse from the third gate line G 3 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0194]    The third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . Successively, the fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the third gate pulse from the third gate line G 3 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the third gate line G 3 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the fourth gate pulse from the fourth gate line G 4 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the fourth gate line G 4 . A drain terminal of the fourth TFT T 24  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0195]      FIG. 16  is a circuit diagram illustrating an eleventh embodiment of the pixel array  10 . 
         [0196]    In  FIG. 16 , the pixel array  10  is provided with data lines D 1  to Dm+1, gate lines G 1  to G 2   n  intersecting the data lines D 1  to Dm+1, and TFTs T 11  to T 14  and T 21  to T 24  which switch current paths formed between the pixel electrodes PIX 11  to PIX 14  and PIX 21  to PIX 24  in LC cells and the data lines D 1  to Dm+1 in response to gate pulses. For the data voltages charged in the LC cells due to the pixel array structure in  FIG. 16 , their polarities are reversed in a unit of horizontal 1-dot and vertical 2-dot. 
         [0197]    The source drive ICs  12  output to the data lines D 1  to Dm+1 the data voltages of which the polarities are reversed by the column inversion scheme. The gate drivers  13  sequentially supply the gate pulses for the first to 2n-th gate lines G 1  to G 2   n . A first gate pulse is provided to the first gate line G 1 , and then second to 2n-th gate pulses are provided to the second to 2n-th gate lines G 2  to G 2   n.    
         [0198]    During an N-th frame period, the source drive ICs  12  supply only positive data voltages for the odd-numbered data lines D 1 , D 3 , . . . , Dm−1 and Dm+1, and supply only negative data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. During a (N+1)-th frame period, the source drive ICs  12  supply only the negative data voltages for the odd-numbered data lines D 1 , Dm−1 and Dm+1, and supply only the positive data voltages for the even-numbered data lines D 2 , D 4 , . . . , and Dm. 
         [0199]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, first and second LC cells in the odd-numbered horizontal display lines are disposed between an i-th data line and a (i+1)-th data line. The first LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 16 , the reference numeral “PIX 11 ” denotes the first pixel electrodes formed in the first LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 12 ” denotes the second pixel electrodes formed in the second LC cells in the odd-numbered horizontal display lines. 
         [0200]    In the respective odd-numbered horizontal display lines LINE# 1 , LINE# 3 , . . . , and LINE#n−1, third and fourth LC cells in the odd-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2)-th data line. The third LC cells in the odd-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the odd-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 16 , the reference numeral “PIX 13 ” denotes the third pixel electrodes formed in the third LC cells in the odd-numbered horizontal display lines, and the reference numeral “PIX 14 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the odd-numbered horizontal display lines. 
         [0201]    In The respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, first and second LC cells in the even-numbered horizontal display lines are disposed between the i-th data line and the (i+1) data line. The first LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the i-th data line during the N-th frame period, and thereafter charge therein negative data voltages the supplied from the i-th data line during the (N+1)-th frame period. The second LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 16 , the reference numeral “PIX 21 ” denotes the first pixel electrodes formed in the first LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 22 ” denotes the second pixel electrodes formed in the second LC cells in the even-numbered horizontal display lines. 
         [0202]    In the respective even-numbered horizontal display lines LINE# 2 , LINE# 4 , . . . , and LINE#n, third and fourth LC cells in the even-numbered horizontal display lines are disposed between the (i+1)-th data line and a (i+2) data line. The third LC cells in the even-numbered horizontal display lines charge therein the positive data voltages supplied from the (i+2)-th data line during the N-th frame period, and thereafter charge therein the negative data voltages supplied from the (i+2)-th data line during the (N+1)-th frame period. The fourth LC cells in the even-numbered horizontal display lines charge therein the negative data voltages supplied from the (i+1)-th data line during the N-th frame period, and thereafter charge therein the positive data voltages supplied from the (i+1)-th data line during the (N+1)-th frame period. In  FIG. 16 , the reference numeral “PIX 23 ” denotes the third pixel electrodes formed in the third LC cells in the even-numbered horizontal display lines, and the reference numeral “PIX 24 ” denotes the fourth pixel electrodes formed in the fourth LC cells in the even-numbered horizontal display lines. 
         [0203]    As can be seen from  FIG. 16 , the polarities of the data voltages charged in the LC cells adjacent to each other in the vertical direction are reversed in a unit of 2-dot (or LC cell), and the polarities of the data voltages charged in the LC cells adjacent to each other in the horizontal direction are reversed in a unit of 1-dot. Therefore, the LC cells of the pixel array in  FIG. 16  charge the data voltages of which the polarities are reversed in a unit of horizontal 1-dot and vertical 2-dot (2×1 dots). 
         [0204]    In the pixel array  10  shown in  FIG. 16 , connection relations among the TFTs, the pixel electrodes, and the data lines will be described by exemplifying the first to fourth LC cells in the first horizontal display line LINE# 1 , and the first to fourth LC cells in the second horizontal display line LINE# 2 . 
         [0205]    The second LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the first LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 11  in the first horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 11  in response to the second gate pulse from the second gate line G 2 . The first pixel electrode PIX 11  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 11  is connected to the second gate line G 2 . A drain terminal of the first TFT T 11  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 11 . The second TFT T 12  in the first horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 12  in response to the first gate pulse from the first gate line G 1 . The second pixel electrode PIX 12  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 12  is connected to the first gate line G 1 . A drain terminal of the second TFT T 12  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 12 . 
         [0206]    The fourth LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the second data line D 2 . Successively, the third LC cell in the first horizontal display line LINE# 1  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 13  in the first horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 13  in response to the second gate pulse from the second gate line G 2 . The third pixel electrode PIX 13  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 13  is connected to the second gate line G 2 . A drain terminal of the third TFT T 13  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 13 . The fourth TFT T 14  in the first horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 14  in response to the first gate pulse from the first gate line G 1 . The fourth pixel electrode PIX 14  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 14  is connected to the first gate line G 1 . A drain terminal of the fourth TFT T 14  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 14 . 
         [0207]    The second LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the first LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the first data line D 1 . The first TFT T 21  in the second horizontal display line transmits the data voltage from the first data line D 1  to the first pixel electrode PIX 21  in response to the fourth gate pulse from the fourth gate line G 4 . The first pixel electrode PIX 21  charges the data voltage therein during about ½ horizontal period. A gate terminal of the first TFT T 21  is connected to the fourth gate line G 4 . A drain terminal of the first TFT T 21  is connected to the first data line D 1 , and a source terminal thereof is connected to the first pixel electrode PIX 21 . The second TFT T 22  in the second horizontal display line transmits the data voltage from the second data line D 2  to the second pixel electrode PIX 22  in response to the third gate pulse from the third gate line G 3 . The second pixel electrode PIX 22  charges the data voltage therein during about ½ horizontal period. A gate terminal of the second TFT T 22  is connected to the third gate line G 3 . A drain terminal of the second TFT T 22  is connected to the second data line D 2 , and a source terminal thereof is connected to the second pixel electrode PIX 22 . 
         [0208]    The fourth LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the second data line D 2 . Successively, the third LC cell in the second horizontal display line LINE# 2  charges therein the data voltage supplied from the third data line D 3 . The third TFT T 23  in the second horizontal display line transmits the data voltage from the third data line D 3  to the third pixel electrode PIX 23  in response to the fourth gate pulse from the fourth gate line G 4 . The third pixel electrode PIX 23  charges the data voltage therein during about ½ horizontal period. A gate terminal of the third TFT T 23  is connected to the fourth gate line G 4 . A drain terminal of the third TFT T 23  is connected to the third data line D 3 , and a source terminal thereof is connected to the third pixel electrode PIX 23 . The fourth TFT T 24  in the second horizontal display line transmits the data voltage from the second data line D 2  to the fourth pixel electrode PIX 24  in response to the third gate pulse from the third gate line G 3 . The fourth pixel electrode PIX 24  charges the data voltage therein during about ½ horizontal period. A gate terminal of the fourth TFT T 24  is connected to the third gate line G 3 . A drain terminal of the fourth TFT T 24  is connected to the second data line D 2 , and a source terminal thereof is connected to the fourth pixel electrode PIX 24 . 
         [0209]    As described above, according to this document, the polarity of the data voltages charged in the LC cells connected to the same data line is controlled to be the same, thereby it is possible to reduce power consumption in the source drive ICs and also make uniform an amount of data charged in each LC cell. Thus, according to this document, it is possible to prevent degradation in image quality such as brightness unevenness, color distortion, or the like resulting from the unevenness of the amount of data charged due to the inversion method in the related art, and to reduce power consumption in the source drive ICs by reducing the number of polarity inversion for the data voltages. In addition, according to this document, it is possible to reduce the number of the data lines and the channels of the source drive ICs by the use of the TFT connection relation where the LC cells adjacent to each other in the horizontal direction share one data line with each other. 
         [0210]    Although embodiments have been described with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the scope of the principles of this disclosure. More particularly, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, alternative uses will also be apparent to those skilled in the art.