Abstract:
A display panel having a repair structure utilizes floating repair lines integrated into the display panel. Each of the floating repair lines bridges across each of any two adjacent pixels so as to be used for the repair of open lines on scan lines, data lines and common lines in the display panel as required. The display panel of the present invention having a repair structure integrates each of the floating repair lines between each of any two adjacent pixels so as to form new substitutional signal transmission routes of various types of open lines. The substitutional signal transmission route is able to reduce the resistive-capacitive delay of the repaired display panel and the impedance of repaired lines, and avoid signal decay and distortion.

Description:
BACKGROUND OF THE INVENTION  
       [0001]    1. Field of the Invention 
         [0002]    The present invention relates to a display panel having a repair structure and a method of repairing a display panel, and more particularly, to a display panel having a repair structure with floating repair lines, and a method of repairing the display panel. In the display panel, the repair structure can be utilized to selectively repair broken scan lines, broken data lines and broken common lines. 
         [0003]    2. Description of the Prior Art 
         [0004]    In the conventional manufacturing process of the display panel, the appearance of the broken data lines may result from process variation, mindless operation or other unexpected factors. The broken data lines generates open signals, which results in malfunction of the thin film transistor switches or storage capacitors, thereby seriously influencing the image quality of the display panel. With reference to  FIG. 1 ,  FIG. 1  is a schematic diagram illustrating a method of repairing the data lines of a conventional liquid crystal display (LCD) panel. As illustrated in  FIG. 1 , the conventional LCD panel  10  includes a substrate  12 , a data line driving circuit board  14 , a scan line driving circuit board  16 , an active region  18 , a plurality of external repair lines R 1 ˜R N , a plurality of scan lines S 1 ˜S N  and a plurality of data lines D 1 ˜D N  disposed on the substrate  12 . The scan lines S 1 ˜S N  and the data lines D 1 ˜D N  are perpendicular to each other, and the external repair lines R 1 ˜R N  and each of the data lines D 1 ˜D N  have overlapping projection areas in the vertical projection direction. According to the conventional repairing method, when a defect position A appears in the data line D N , a welding process should be performed so that the overlapping positions B, C of the external repair line R 1  and the data line D N  in the vertical projection direction are welded. After that, the data line D N  originally having the defect position A is electrically connected the external repair line R 1  so that data line signals sending from the data line driving circuit board  14  can be delivered through the external repair line R 1  between the overlapping position B and the overlapping position C, which serves as a new data signal transmission route, to the data line D N  opposite to the defect position A. However, because the conventional external repair lines R 1 ˜R N  are disposed on the periphery of the active region  18 , the lengths of the signal transmission routes are longer. In another aspect, with the tread for forming larger-size display panel, both the phenomena of signal delay and the problem of signal distortion appearing in the display panel after repairing become serious, which degrades the electrical performance of the display panel. 
       SUMMARY OF THE INVENTION  
       [0005]    One object of the present invention is to provide a display panel having a repair structure and a method of repairing a display panel so that the disconnected scan lines, the disconnected data lines and the disconnected common lines in the display panel can be repaired as required. 
         [0006]    In order to achieve the above-mentioned object, the present invention proposes a display panel having a repair structure of the present invention. The display panel having a repair structure of the present invention includes a substrate, a first metal layer disposed on the substrate, an insulating layer covering the first metal layer disposed on the substrate, a second metal layer disposed on the insulating layer. The first metal layer includes a first scan line, a second scan line, a third scan line and a plurality of common lines. The common lines include a first common line and a second common line. The second metal layer includes a first data line, a second data line, a third data line and a first repair line. The first data line, the second data line and the third data line are substantially parallel to each other and perpendicular to the first scan line, the second scan line and the third scan line for defining a plurality of pixel regions arranged in an array-shaped arrangement. The pixel regions include a first pixel region, a second pixel region, a third pixel region and a fourth pixel region. The first common line penetrates through the first pixel region and the second pixel region and partially overlaps with the first data line, the second data line and the third data line, the second common line penetrates through the third pixel region and the fourth pixel region and partially overlaps with the first data line, the second data line and the third data line, the first repair line bridges across the first pixel region and the third pixel region and partially overlaps with the second scan line, and the first repair line partially overlaps with the first common line disposed in the first pixel region and partially overlaps with the second common line disposed in the third pixel region respectively. 
         [0007]    In order to achieve the above-mentioned object, the present invention proposes a method of repairing a display panel. The method of repairing a display panel includes the following steps. A display panel is provided. The display panel includes a substrate, a first metal layer disposed on the substrate, an insulating layer covering the first metal layer disposed on the substrate, and a second metal layer disposed on the insulating layer. The first metal layer includes a first scan line, a second scan line, a third scan line, a first common line and a second common line. The second metal layer includes a first data line, a second data line, a third data line and a first repair line. The first data line, the second data line and the third data line are arranged substantially parallel to each other and substantially perpendicular to the first scan line, the second scan line and the third scan line for defining a first pixel region, a second pixel region, a third pixel region and a fourth pixel region arranged in an array-shaped arrangement. The first common line penetrates through the first pixel region and the second pixel region and partially overlaps with the first data line, the second data line and the third data line, the second common line penetrates through the third pixel region and the fourth pixel region and partially overlaps with the first data line, the second data line and the third data line. The first repair line bridges across the first pixel region and the third pixel region and partially overlaps with the second scan line, and the first repair line partially overlaps with the first common line disposed in the first pixel region and the second common line disposed in the third pixel region respectively. Then, the first repair line is utilized to perform a repair process upon the display panel to repair a disconnected line of the display panel. 
         [0008]    The display panel having a repair structure of present invention integrates the floating repair lines into the display panel so that the floating repair lines can repair the disconnected scan lines, the disconnected data lines and the disconnected common lines appearing inside the display panel. The method of repairing a display panel of the present invention not only overcomes the obstacle of the conventional display panel repair line technique which can only repair the disconnected data lines with defects, but also solves the inevitable signal delay phenomena of the conventional display panel technique using external repair line. Moreover, the disadvantages such as electrical instability can be eliminated. In addition, the problem of electrical instability such as signal decay and signal distortion caused due to higher impedance of the repair lines is also addressed. 
         [0009]    These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS  
         [0010]      FIG. 1  is a schematic diagram illustrating a method of repairing the data lines of a conventional liquid crystal display panel. 
           [0011]      FIG. 2  is a schematic diagram illustrating a first preferred embodiment of the display panel having a repair structure of the present invention. 
           [0012]      FIG. 3  is a schematic diagram illustrating a cross-sectional structure along line AA′ illustrated in  FIG. 2 . 
           [0013]      FIG. 4  is a schematic diagram illustrating a second preferred embodiment of the display panel having a repair structure of the present invention. 
           [0014]      FIG. 5  is a schematic diagram illustrating a third preferred embodiment of the display panel having a repair structure of the present invention. 
           [0015]      FIG. 6  is a top view diagram illustrating a method of repairing the disconnected data lines of the first preferred embodiment of the display panel having a repair structure of the present invention. 
           [0016]      FIG. 7  is a cross-sectional schematic diagram along the lines B 1 B 1 ′, B 2 B 2 ′, B 3 B 3 ′ illustrated in  FIG. 6 . 
           [0017]      FIG. 8  is a schematic diagram illustrating a method of repairing the disconnected data lines of the second preferred embodiment of the display panel having a repair structure of the present invention. 
           [0018]      FIG. 9  is a schematic diagram illustrating a method of repairing the disconnected data lines of the third preferred embodiment of the display panel having a repair structure of the present invention. 
           [0019]      FIG. 10  is a top view diagram illustrating a method of repairing the disconnected lines of the first preferred embodiment of the display panel having a repair structure of the present invention. 
           [0020]      FIG. 11  is a cross-sectional schematic diagram along the lines C 1 C 1 ′, C 2 C 2 ′, C 3 C 3 ′ illustrated in  FIG. 10 . 
           [0021]      FIG. 12  is a schematic diagram illustrating a method of repairing the disconnected scan lines of the second preferred embodiment of the display panel having a repair structure of the present invention. 
           [0022]      FIG. 13  is a schematic diagram illustrating a method of repairing the disconnected scan lines of the third preferred embodiment of the display panel having a repair structure of the present invention. 
           [0023]      FIG. 14  is a schematic diagram illustrating a method of repairing the disconnected common lines of the first preferred embodiment of the display panel having a repair structure of the present invention. 
           [0024]      FIG. 15  is a schematic diagram illustrating a method of repairing the disconnected common lines of the second preferred embodiment of the display panel having a repair structure of the present invention. 
           [0025]      FIG. 16  is a schematic diagram illustrating a method of repairing the disconnected common lines of the third preferred embodiment of the display panel having a repair structure of the present invention. 
       
    
    
     DETAILED DESCRIPTION  
       [0026]    Certain terms are used throughout the following description and claims to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This document does not intend to distinguish between components that differ in name but in function. In the following discussion and in the claims, the terms “include” and “comprise” are used in an open-ended fashion, and thus should be interpreted to mean “including, but not limited to . . . ”. In addition, the term “electrically connected” includes any directly or indirectly electrical connection methods. Therefore, if the description in the following paragraphs is that a first device is electrically connected to a second device, the aforementioned words stand for that the first device can be electrically connected to the second device directly or be electrically connected to the second device indirectly by means of other devices or electrical connection methods. 
         [0027]    With reference to  FIG. 2  and  FIG. 3 ,  FIG. 2  is a schematic diagram illustrating a first preferred embodiment of the display panel having a repair structure of the present invention, and  FIG. 3  is a schematic diagram illustrating a cross-sectional structure along line AA′ illustrated in  FIG. 2 . As illustrated in  FIG. 2  and  FIG. 3 , in order to clearly describe the structure of the present invention,  FIG. 2  and  FIG. 3  are referred and explained together. The display panel having a repair structure of the first preferred embodiment of the present invention includes a substrate  21 , a first metal layer  22  disposed on the substrate  21 , an insulating layer  26  covering the first metal layer  22  disposed on the substrate  21 , a second metal layer  23  disposed on the insulating layer  26 . The first metal layer  22  includes a first scan line  22   a,  a second scan line  22   b,  a third scan line  22   c  and a plurality of common lines, and each of the common lines further includes a plurality of common line branches. In this embodiment, the common lines include a first common line  22   d  and a second common line  22   e,  the first common line  22   d  includes a plurality of first common line branches  22   f,  and the second common line  22   e  includes a plurality of second common line branches  22   g.  The first common line  22   d  is electrically connected to the first common line branches  22   f,  and the second common line  22   e  is electrically connected to the second common line branches  22   g.  Each of the common lines penetrates through the central parts of pixel regions so that the common lines and common line branches substantially form an H-shaped structure in each of the pixel regions. In addition, the second metal layer  23  includes a first data line  23   a,  a second data line  23   b,  a third data line  23   c,  a first floating repair line  23   d  and a second floating repair line  23   e.  The first data line  23   a,  the second data line  23   b  and the third data line  23   c  are arranged substantially parallel to each other and substantially perpendicular to the first scan line  22   a,  the second scan line  22   b  and the third scan line  22   c  respectively so that a first pixel region  24   a,  a second pixel region  24   b,  a third pixel region  24   c,  a fourth pixel region  24   d  and a fifth pixel region  24   e  are defined and in an array-shaped arrangement. Each of the pixel regions respectively includes a thin film transistor switch  25  disposed on the same side of each of the scan lines to form a 4-domain pixel electrode arrangement. In addition, the first common line  22   d  penetrates through the first pixel region  24   a  and the second pixel region  24   b,  and the second common line  22   e  penetrates through the third pixel region  24   c  and the fourth pixel region  24   d.  The first common line  22   d  and the second common line  22   e  have overlapping projection areas respectively with the first data line  23   a,  the second data line  23   b  and the third data line  23   c  in the vertical projection direction. The cross-sectional structure in the vertical projection direction illustrated in  FIG. 3  can be referred to further comprehend that the first common line  22   d,  the second common line  22   e,  and the second data line  23   b  substantially have an insulating layer  26  disposed therebetween, and the second common line  22   e  and the second data line  23   b  substantially have an insulating layer  26  disposed therebetween. Besides, the first floating repair line  23   d  brides across the first pixel region  24   a  and the third pixel region  24   c,  the first common line branches  22   f  are disposed in the first pixel region  24   a,  and the second common line branches  22   g  are disposed in the third pixel region  24   c.  The cross-sectional structure in the vertical projection direction illustrated in  FIG. 3  can be referred to further comprehend that an insulating layer  26  is substantially disposed between the first repair line  23   d  and the second scan line  22   b,  and the first floating repair line  23   d  has an overlapping projection area respectively with the first common line branch  22   f  and the second common line branch  22   g  in the vertical projection direction. Similarly, as illustrated in  FIG. 2 , the second floating repair line  23   e  bridges across the second pixel region  24   b  and the fourth pixel region  24   d  and has an overlapping projection area with the second scan line  22   b  in the vertical projection direction, the second floating repair line  23   e  and the first common line branch  22   f  disposed in the second pixel region  24   b  has an overlapping projection area in the vertical projection direction, and similarly the second floating repair line  23   e  and the second common line branch  22   g  disposed in the fourth pixel region  24   d  has an overlapping projection area in the vertical projection direction. 
         [0028]    With reference to  FIG. 4 ,  FIG. 4  is a schematic diagram illustrating a second preferred embodiment of the display panel having a repair structure of the present invention. As illustrated in  FIG. 4  and  FIG. 2 , the difference between the first and second preferred embodiments of the display panels having repair structures is that the first common line  22   d  and the second common line  22   e  of two embodiments are disposed in different positions in the pixel regions. In the second preferred embodiment, each of the common lines penetrates through edge parts of the pixel regions, and the common lines and the common line branches disposed in each of the pixel region substantially form a U-shaped structure. With reference to  FIG. 5 ,  FIG. 5  is a schematic diagram illustrating a third preferred embodiment of the display panel having a repair structure of the present invention. As illustrated in  FIG. 5  and  FIG. 2 , the difference between the third and first preferred embodiments of the display panels having repair structures is that the third preferred embodiment of the display panel is disposed in an 8-domain pixel electrode arrangement. Thus, thin film transistor switches  25  are additionally disposed on another side of each of the scan lines in the pixel regions, and each of the pixel regions includes two sub-pixel regions. For example, the first pixel region  24   a  includes two sub-pixel regions  241   a,    242   a;  the second pixel region  24   b  includes two sub-pixel regions  241   b,    242   b;  the third pixel region  24   c  includes two sub-pixel regions  241   c,    242   c;  and the fourth pixel region  24   d  includes two sub-pixel regions  241   d,    242   d.  In this embodiment, the repair structure is similar to the aforementioned first and second preferred embodiments. 
         [0029]    With reference to  FIG. 6  and  FIG. 7 ,  FIG. 6  and  FIG. 7  are schematic diagrams illustrating a method of repairing the disconnected data lines of the first preferred embodiment of the display panel having a repair structure of the present invention,  FIG. 6  is a top view diagram, and  FIG. 7  is a cross-sectional schematic diagram along the lines B 1 B 1 ′, B 2 B 2 ′, B 3 B 3 ′ illustrated in  FIG. 6 . The method illustrated in  FIG. 6  and  FIG. 7  is carried out to repair the disconnected data lines of the display panel having a repair structure illustrated in  FIG. 2 . As illustrated in  FIG. 6  and  FIG. 7 , the steps of repairing the disconnected data lines include performing a welding process and performing a cutting process. For example, if the disconnected line occurs to the second data line  23   b  between the first pixel region  24   a  and the third pixel region  24   c,  the following steps are performed to repair the disconnected data lines. A welding process such as laser welding process is performed so as to form a plurality of welding structures  27 , and each of the welding structures  27  is served as a connector to electrically connect one terminal of the first floating repair line  23   d  and the first common line branch  22   f  and to electrically connect another terminal of the first repairing line  23   d  and the second common line branch  22   g.  A cutting process such as laser cutting process is performed to form a plurality of cutting openings  28 . Parts of the cutting openings  28  disconnect the first common line  22   d  disposed in the first pixel region  24   a  and the second pixel region  24   b.  Accordingly, the disconnected first common line  22   d  forms a first floating common line  22   h.  Also, parts of the cutting openings  28  disconnect the second common lines  22   e  disposed in the third pixel region  24   c  and the fourth pixel region  24   d  so that the disconnected second common line  22   e  forms a second floating common line  22   i.  As illustrated in  FIG. 7 , the two terminals of the first floating repair line  23   d  are vertically welded to the first common line branch  22   f  and the second common line branch  22   g  respectively by virtue of laser irradiation so as to form a new signal transmission route. In addition, the two opposite terminals of the first common line  22   d  and those of the second common line  22   e  are cut in the vertical projection direction respectively by virtue of laser irradiation to form a first floating common line  22   h  and a second floating common line  22   i.  Thus, as illustrated in  FIG. 6 , the second floating common line  22   i,  the first floating repair line  23   d  and the first floating common line  22   h  accordingly form one substitutional signal transmission route  29  for the second data line  23   b  so as to achieve the goal of repairing the disconnected data line. It should be noted that the sequence of the steps of the aforementioned welding process and cutting process can be adjusted as required and have no particular limitation. With reference to  FIG. 8  and  FIG. 9 ,  FIG. 8  is a schematic diagram illustrating a method of repairing the disconnected data lines of the second preferred embodiment of the display panel having a repair structure of the present invention, and  FIG. 9  is a schematic diagram illustrating a method of repairing the disconnected data lines of the third preferred embodiment of the display panel having a repair structure of the present invention. The method illustrated in  FIG. 8  is carried out to repair the disconnected data line of the display panel having a repair structure illustrated in  FIG. 4 , and the method illustrated in  FIG. 9  is carried out to repair the disconnected data line of the display panel having a repair structure illustrated in  FIG. 5 . As illustrated in  FIG. 8  and  FIG. 9 , the methods of repairing data lines according to the aforementioned two preferred embodiments include performing a welding process such as laser welding process and performing a cutting process such as laser cutting process so that a substitutional signal transmission route  29  is formed for the second data line  23   b.  As illustrated in  FIG. 8  and  FIG. 6 , the difference between the methods of repairing the disconnected data lines of the first and second preferred embodiment of the display panel pixel having repair structures is that the two preferred embodiments originally have different pixel electrode arrangements so that the cutting positions of the common lines in the pixel regions are substantially different while laser irradiation is applied. As illustrated in  FIG. 9  and  FIG. 6 , the difference between the methods of repairing the disconnected data lines of the third and first preferred embodiments of the display panel pixel having repair structures is that an 8-domain pixel electrode arrangement is adapted in the third preferred embodiment for repairing of the disconnected data lines, whereas the method of repairing disconnected data lines of the third preferred embodiment is substantially identical to the methods of repairing disconnected lines of the aforementioned first and second preferred embodiments. 
         [0030]    With reference to  FIG. 10  and  FIG. 11 ,  FIG. 10  and  FIG. 11  are schematic diagrams illustrating the methods of repairing the disconnected scan lines of the first preferred embodiment of the display panel having a repair structure of the present invention,  FIG. 10  is a top view diagram, and  FIG. 11  is a cross-sectional schematic diagram along the lines C 1 C 1 ′, C 2 C 2 ′, C 3 C 3 ′ illustrated in  FIG. 10 . The method of repairing disconnected scan line illustrated in  FIG. 10  and  FIG. 11  is carried out to repair the disconnected scan line of the first preferred embodiment of the display panel having a repair structure illustrated in  FIG. 2 . As illustrated in  FIG. 10  and  FIG. 11 , the steps of repairing the disconnected scan line include performing a welding process and performing a cutting process. For example, if the disconnected line occurs to the second scan line  22   b  between the second pixel region  24   b  and the fourth pixel region  24   d,  the following steps can be performed to repair the disconnected scan line. A welding process such as laser welding process is performed to form a plurality of welding structures  27 , and each of the welding structures  27  is served as a connector to electrically connect the second common line branch  22   g  disposed in the third pixel region  24   c  and one terminal of the first floating repair line  23   d,  and to electrically connect the second common line branch  22   g  disposed in the fourth pixel region  24   d  and one terminal of the second floating repair line  23   e;  and a cutting process such as laser cutting process is performed to form a plurality of cutting openings  28 , and each of the cutting openings  28  is served as a open point to achieve the goal of disconnecting the second common line  22   e  disposed in both the third pixel region  24   c  and the fifth pixel region  24   e  so that the disconnected second common line  22   e  forms a second floating common line  22   i.  As illustrated in  FIG. 11 , the first floating repair line  23   d  is vertically welded to the second scan line  22   b  and to the second common line branch  22   g  respectively while the laser irradiation is applied so that a new signal transmission route is formed. Similarly, the second floating repair line  23   e  is vertically welded to the second scan line  22   b  and to the second common line branch  22   g  respectively so that a new signal transmission route is formed. In addition, as illustrated in  FIG. 10 , the two opposite terminals of the second common line  22   e  is cut in the vertical projection direction after laser irradiation so as to form a second floating common line  22   i.  Accordingly, the first floating repair line  23   d,  the second floating repair line  22   i  and the second floating repair line  23   e  form a substitutional signal transmission route  29  for the second scan line  22   b  to achieve the goal of repairing the disconnected scan lines. It should be noted that the sequence of the steps of the aforementioned welding process and the cutting process can be adjusted as required and has no particular limitation. With reference to  FIG. 12  and  FIG. 13 ,  FIG. 12  is a schematic diagram illustrating a method of repairing the disconnected scan lines of the second preferred embodiment of the display panel having a repair structure of the present invention, and  FIG. 13  is a schematic diagram illustrating a method of repairing the disconnected scan lines of the third preferred embodiment of the display panel having a repair structure of the present invention. The method illustrated in  FIG. 12  is carried out to repair the disconnected scan line of the second preferred embodiment of the pixel electrode of the display panel having a repair structure illustrated in  FIG. 4 , and the method illustrated in  FIG. 13  is carried out to repair the disconnected scan line of the third preferred embodiment of the pixel electrode of the display panel having a repair structure illustrated in  FIG. 5 . As illustrated in  FIG. 12  and  FIG. 13 , the steps of repairing the disconnected data lines of the aforementioned two preferred embodiments include a welding process and a cutting process so that a substitutional signal transmission route  29  is formed for the second scan line  22   b  to achieve the goal of repairing the disconnected scan lines. Meanwhile, the difference is that the arrangements of the pixel electrodes of the embodiments are substantially different, whereas the methods of repairing the disconnected scan lines of the first preferred embodiment, the second preferred embodiment and the third preferred embodiment are substantially identical. 
         [0031]    With reference to  FIG. 14 ,  FIG. 14  is a schematic diagram illustrating a method of repairing the disconnected common lines of the first preferred embodiment of the display panel having a repair structure of the present invention, and  FIG. 14  illustrates the steps of repairing the disconnected common line of the first preferred embodiment of the display panel having a repair structure illustrated in  FIG. 2 . As illustrated in  FIG. 14 , the steps of repairing the disconnected common lines include performing a welding process. For example, if the disconnected line occurs to the second common line  22   e  disposed in the fourth pixel region  24   d,  the following steps can be performed to repair the disconnected common line. A welding process such as laser process is performed to form a plurality of welding structures  27 , each of the welding structures  27  is served as a connector so that the first common line branch  22   f  disposed in the first pixel region  24   a,  the second common line branch  22   g  disposed in the third pixel region  24   c  and the first floating repair line  23   d  are electrically connected to each other, and the first common line branch  22   f  disposed in the second pixel region  24   b,  the second common line branch  22   g  disposed in the fourth pixel region  24   d  and the second floating repair line  23   e  are electrically connected to each other. Consequently, the first floating repair line  23   d,  the first common line  22   d  and the second floating repair line  23   e  form a substitutional signal transmission route  29  for the second common line  22   e  to achieve the goal of repairing the disconnected common lines. With reference to  FIG. 15  and  FIG. 16 ,  FIG. 15  is a schematic diagram illustrating a method of repairing the disconnected common lines of the second preferred embodiment of the display panel having a repair structure of the present invention, and  FIG. 16  is a schematic diagram illustrating a method of repairing the disconnected common lines of the third preferred embodiment of the display panel having a repair structure of the present invention.  FIG. 15  illustrates the steps of repairing the disconnected common line of the second preferred embodiment of the display panel having a repair structure illustrated in  FIG. 4 , and  FIG. 16  illustrates the steps of repairing the disconnected common line of the third preferred embodiment of the display panel having a repair structure illustrated in  FIG. 5 . As illustrated in  FIG. 15  and  FIG. 16 , the steps of repairing the disconnected common lines of the aforementioned two preferred embodiments include performing a welding process to form a plurality of welding structures  27 , and each of the welding structures  27  is served as a connector to electrically connect the first floating repair line, first floating repair line  23   d,  the first common lines  22   d  and the second floating repair line  23   e  to each other so as to form a new signal transmission route. After that, the first floating repair line  23   d,  the first common line  22   d  and the second floating repair line  23   e  form a substitutional signal transmission route  29  so as to achieve the goal of repairing the disconnected common line. Meanwhile, it is therefore that the arrangements of the pixel electrodes of the embodiments are substantially different, whereas the methods of repairing the disconnected common lines of the first preferred embodiment, the second preferred embodiment and the third preferred embodiment are substantially identical. 
         [0032]    From aforementioned description we know, the repair lines of the display panel having a repair structure of the present invention can be electrically connected to the common line branches or scan lines respectively as required. Meanwhile, the present invention has the foregoing merits and thereby disposes the floating repair lines inside the display panel so as to achieve the goal of repairing the broken scan lines, broken data lines and broken common lines inside the display panel. 
         [0033]    In summary, the display panel having a repair structure of the present invention has advantages as follows: 
         [0034]    The display panel having a repair structure of present invention integrates the floating repair lines into two adjacent pixel structures so that the repair line structure of the present invention overcomes the disadvantages of the conventional longer repair lines and the larger space peripherally occupied by the external repair lines inside the display panel. Consequently, the display panel having a repair structure of the present invention obviously minimizes the space occupied by the repair structure and economizes the cost of forming the repair lines. 
         [0035]    The display panel having a repair structure of the present invention can integrate the forming process of the repair structure into the pixel region of the display panel so that the broken scan lines, the broken data lines and the broken common lines inside the display panel can be repaired as required. Meanwhile, the repair structure of the display panel of the present invention overcomes the obstacle of the conventional display panel repair line technique which can only repair the disconnected data lines with defects. In another words, the display panel having a repair structure of the present invention can provide a multifunctional repair function. 
         [0036]    The display panel having a repair structure of the present invention can overcome the inevitable signal delay phenomena generated in the conventional display panel which adopts the external repair line technique and eliminate the disadvantage of electrical instability, such as signal decay and signal distortion caused due to the higher impedance of the repair lines. As a result, the display panel having a repair structure of the present invention can provide a new stable signal transmission route. 
         [0037]    Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention.