Line structures for display screens and terminals

The disclosure discloses a line structure for a display screen including a display substrate, a main power supply line and two branch lines. The display substrate includes a display area and a non-display area. The main power supply line is used to transmit a negative signal power supply (VSS) signal, and a length of the main power supply line is less than a length of a long side of the display area, and two branch lines are electrically connected to an end of the main power supply line and extend toward opposite directions along a signal input side of the display area, respectively.

FIELD OF THE DISCLOSURE

The disclosure relates to structures for display screens.

BACKGROUND

With the rapid development of the electronic industry, the penetration rate of electronic products is getting higher and higher, such as a computer, a tablet or a mobile phone. The above electronic products have become necessities in people's daily lives. AMOLED (i.e., Active-Matrix Organic Light-Emitting Diode) has been widely used for its advantages such as high chroma, high contrast, wide viewing angle, self luminous and flexible display. With reference toFIG. 1, in the current AMOLED circuit layout, due to a panel having large size, the difference of (current×resistance) voltage drop between ELVSS and ELVDD across the panel is excessively large, resulting in the phenomenon of uneven display.

SUMMARY

In view of the above, the technical problem to be solved by the disclosure cannot be solved by the prior art. It is known that the size of the panel of the Active-Matrix Organic Light-Emitting Diode is increasing, which causes the (current×resistance) voltage drop between different regions to be too large, so that the optical characteristics of different positions on the panel are inconsistent and the panel is unevenly displayed.

To solve the above problem, the disclosure provides a line structure for a display screen comprising a display substrate, a main power supply line and two branch lines. The display substrate comprises a display area and a non-display area. The main power supply line is used to transmit a negative signal power supply (VSS) signal, and a length of the main power supply line is less than a length of a long side of the display area, and two branch lines are electrically connected to an end of the main power supply line and extend toward opposite directions along a signal input side of the display area, respectively.

According to an exemplary embodiment of the disclosure, the display area comprises a first side, a second side, a third side and a fourth side, the first side is opposite to the second side, the first side is adjacent to the third side and the fourth side, the third side is opposite to the fourth side, and the long sides of the display area are the third side and the fourth side.

According to an exemplary embodiment of the disclosure, one end of the main power supply line receives the negative signal power supply (VSS) signal from the first side of the display area, and the other end of the main power supply line extends to the third side or the fourth side of the display area.

According to an exemplary embodiment of the disclosure, the main power supply line comprises two main power supply lines, and one end of each main power supply line receives the negative signal power supply signal from the first side of the display area, and the other end of each main power supply line extends to the third side and the fourth side of the display area, respectively, and the other end of each main power supply line is connected to the two branch lines, respectively.

According to an exemplary embodiment of the disclosure, the length of the main power supply line is half the length of the long side of the display area.

According to an exemplary embodiment of the disclosure, each of the line length of the two branch lines is smaller than the length of the long side of the display area.

According to an exemplary embodiment of the disclosure, the two branch lines comprise a first line and a second line, and a line length of the first line is equal to a line length of the second line.

According to an exemplary embodiment of the disclosure, the two branch lines comprise a first line and a second line, the first line and the second line have a same cross-sectional area, the cross-sectional area of the main power supply line is the same as the cross-sectional area of the two branch lines.

According to an exemplary embodiment of the disclosure, the two branch lines are located on the same linear extending path.

According to an exemplary embodiment of the disclosure, the main power supply line and the two branch lines are parallel to the signal input side of the display area.

To solve the above technical problem, the disclosure provides a terminal including the above line structure for the display screen.

The line structure for the display screen improves shortcomings of the prior art. The disclosure provides a manner of inputting a signal of a line on average to both ends of the screen so that the signal intensity received by the screen is constant, reducing the problem of uneven display caused by the excessively large difference of the (current×resistance) voltage drop.

DETAILED DESCRIPTION OF PREFERRED EXEMPLARY EMBODIMENTS

In the following, various exemplary embodiments of the disclosure will be disclosed in the drawings, and for the sake of clarity, practical details will be described together in the following description. However, it should be understood that these practical details are not intended to limit the disclosure. That is, in some exemplary embodiments of the disclosure, these practical details are not necessary. In addition, for the simplicity of the drawings, some of the known and conventional structures and components are drawn in the drawings in a simplified schematic representation.

Please refer toFIG. 2, andFIG. 2is a schematic view of a line structure for a display screen of an exemplary embodiment of the disclosure. As shown in the drawing, the present exemplary embodiment provides a line structure1for a display screen, which makes the luminance and color of a picture displayed on the display screen even by changing line paths inside the display screen. The line structure1for the display screen includes a display substrate11, a main power supply line15, and two branch lines17.

As described above, the display substrate11has a display area111and a non-display area113. The main power supply line15is used to receive and transmit a negative signal power supply (VSS) signal, and a length of the main power supply line15is less than that of a long side of the display area111. The two branch lines17are electrically connected to ends of the main power supply line15and extend toward opposite directions along a signal input side of the display area111, respectively.

In the present exemplary embodiment, the display substrate11has the display area111and the non-display area113. The non-display area113is arranged in a ring around the display area111, that is, the display area111is located in the non-display area113, wherein the display area111has a first side112, a second side114, a third side116and a fourth side118. The first side is opposite to the second side114, and the first side112is adjacent to the third side116and the fourth side118, that is, the third side116is opposite to the fourth side118. The third side116and the fourth side118are the long sides of the display area. The main power source line15is disposed in the non-display area113of the display substrate11. One end of the main power supply line15is connected to the first side112of the display area and used to receive the negative signal power supply (VSS) signal, and the other end of the main power supply line15extends to the third side116or the fourth side118of the display area111.

Moreover, as for the main power supply line15located at the third side116(i.e., the left side), the other end of the main power supply line15(i.e., the end of the power supply line) extends toward the display area111, thereby extending and dividing into the two branch lines17, i.e., a first line171and a second line173, respectively. The first line171extends toward one end along a side of the third side116of the display area111(i.e., the signal input side) until the end of the first line171extends to the end of the third side116of the display area111and the first line171is electrically coupled to the display area111. The second line173also extends toward the other end along the side of the third side116of the display area111until the end of the second line173extends to the other end of the third side116of the display area111and the second line173is electrically coupled to the display area111. In addition, the arrangement manner of the main power supply line15located at the fourth side118(i.e., the right side) is also the same as that of the main power supply line15located at the third side116, and therefore will not be described again. The line lengths of the main power supply line15and the two branch lines17described above each are smaller than the length of the long side of the display panel.

Furthermore, in the present exemplary embodiment, the main power supply line15is a signal line of the negative signal power supply (VSS). The first line171and the second line173are parallel to the third side116of the display area111(i.e., the signal input side). The first line171and the second line173may be located on the same linear extending path.

In the present exemplary embodiment, the main power supply line15receives the negative signal power supply (VSS) signal, and the main power supply line15transmits the signal to the position of the third side116or the fourth side118of the display area111(i.e., not the position corresponding to the two ends of the third side116or the fourth side118) first, then transmits the signal to the first line171and the second line173, respectively, and further to the display area111. Generally, a single trace, namely the length of the trace path from the starting end of the display area111to the finishing end of the display area111(i.e., the length of the long side of the display area111), is long, and thus the difference between the signal intensity at the starting end and the signal intensity at the finishing end is relatively large. After the main power supply line15of the present exemplary embodiment first transmits the negative signal power supply (VSS) signal to the end, the trace of the signal intensity thereof is allocated from the first line171(or the second line173) to the display area111, so the length between the end of the main power supply line15and the first line171(or the second line173) is short and the difference between the signal intensity of the end signal of the main power supply line15and the signal intensity of the end signal of the first line171(or the second line173) is small, which makes it possible to effectively reduce the uneven display of the display panel.

In the present exemplary embodiment, the line length of the first line171is further made the same as the line length of the second line173and the cross-sectional area of the first line171is also made the same as the cross-sectional area of the second line173, so that the problem of uneven display of the display panel can be optimized.

In summary, the exemplary embodiments provide a line structure for a display screen, wherein two main power supply lines extend from a non-display area to left and right sides (i.e., a third side and a fourth side) of a display area respectively. An extending end of each main power supply line is electrically connected to two branch lines. The two branch lines extend toward opposite directions along a signal input side, and then are electrically coupled to the display area. Thus, the trace distance of the signal intensity commonly outputted by the end of the main power supply line which is allocated to the display area is shortened, thereby significantly reducing the difference between signal intensities within the display area.

The above description shows and describes several preferred exemplary embodiments of the disclosure. However, as described before, it should be understood that the disclosure is not limited to the forms disclosed herein, and should not be construed as an exclusion to the other exemplary embodiments, other combinations, modifications, and environments are possible which can be modified based on the above teachings or the related technologies or knowledge within the scope of the concept described herein. All changes and modifications made by a person skilled in the art are intended to be within the scope of the appended claims of the disclosure without departing from the spirit and the scope of the disclosure.