This application claims the priority of Chinese Patent Application No. 201710848491.9, filed on Sep. 19, 2017, the entire contents of which are incorporated herein by reference.
The present disclosure generally relates to the field of display technology and, more particularly, relates to a display panel, a display apparatus, and a driving method thereof.
As the display technology advances, user demands become more and more diversified. Existing rectangular-shaped display panels are unable to satisfy more and more diversified user demands for displays and applications. Thus, non-rectangular display panels are gradually emerging as a trend of display technology.
However, as shown in
The disclosed display panel, display apparatus, and driving method thereof are directed to solve one or more problems set forth above and other problems.
One aspect of the present disclosure provides a display panel. The display panel includes a display region including a plurality of pixels arranged in both a first direction and a second direction, wherein the first direction intersects the second direction, and a non-display region surrounding the display region. The display region includes at least one irregular edge intersecting both the first direction and the second direction. The plurality of pixels include a plurality of first pixels intersecting the at least one irregular edge and a plurality of second pixels without intersecting the at least one irregular edge. A first pixel has an initial grayscale g. In a display phase of the display panel, the initial grayscale g of the first pixel is adjusted to a display grayscale G, where G<g.
Another aspect of the present disclosure provides a display apparatus comprising a display panel. The display panel includes a display region including a plurality of pixels arranged in both a first direction and a second direction, wherein the first direction intersects the second direction, and a non-display region surrounding the display region. The display region includes at least one irregular edge intersecting both the first direction and the second direction. The plurality of pixels include a plurality of first pixels intersecting the at least one irregular edge and a plurality of second pixels without intersecting the at least one irregular edge. A first pixel has an initial grayscale g. In a display phase of the display panel, the initial grayscale g of the first pixel is adjusted to a display grayscale G, where G<g.
Another aspect of the present disclosure provides a driving method for a display panel. The display panel includes a display region including a plurality of pixels arranged in both a first direction and a second direction, wherein the first direction intersects the second direction, and a non-display region surrounding the display region. The display region includes at least one irregular edge intersecting both the first direction and the second direction. The plurality of pixels include a plurality of first pixels intersecting the at least one irregular edge and a plurality of second pixels without intersecting the at least one irregular edge. A first pixel has an initial grayscale g. In a display phase of the display panel, the initial grayscale g of the first pixel is adjusted to a display grayscale G, where G<g. The driving method comprises, in the display phase of the display panel, supplying a display voltage signal to each first pixel, such that the first pixel displays light at the display grayscale G, where G<g.
Other aspects of the present disclosure can be understood by those skilled in the art in light of the description, the claims, and the drawings of the present disclosure.
The following drawings are merely examples for illustrative purposes according to various disclosed embodiments and are not intended to limit the scope of the present disclosure.
Reference will now be made in detail to exemplary embodiments of the disclosure, which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts. It should be understood that the exemplary embodiments described herein are only intended to illustrate and explain the present invention and not to limit the present invention. In addition, it should also be noted that, for ease of description, only part, but not all, of the structures associated with the present invention are shown in the accompanying drawings. Other embodiments obtained by those skilled in the art without making creative work are within the scope of the present invention.
The present disclosure provides an improved display panel capable of suppressing the jagged image edge of the display region and improving the display performance.
As shown in
In the disclosed embodiments, the display region AA may display images, and may include a plurality of pixels P. The non-display region BB may be arranged surrounding the display region AA, and may include electronic circuit lines, electronic elements, and other appropriate structures. The non-display region BB may not display images. In the disclosed embodiments, each pixel P may include a plurality of sub-pixels. For example, in one embodiment, each pixel P may include three sub-pixels of three different colors, which is intended for illustrative purposes and is not limited by the present disclosure. The plurality of sub-pixels may be defined by a plurality of intersected gate lines and data lines.
Referring to
When the display panel displays images, it is desired that the images appear smoothly at the irregular edge Y of the display region AA. However, in the enlarged view in
In the disclosed display panel, the irregular edge Y may be a curved line section or a sloped line section. The sloped line section may extend in a direction intersecting both the first direction x and the second direction y. In one embodiment, as shown in
Referring to
When the display panel is displaying an image, each of the plurality of the pixels in the display panel may receive an electrical signal. Based on the received electrical signal, each pixel may exhibit corresponding brightness and color and, accordingly, the plurality of pixels may form an image. The brightness displayed by each pixel may be denoted as a grayscale of the pixel. In the existing display panel, a first pixel may receive an electrical signal which is not subject to any grayscale adjustment. For example, when the existing display panel is displaying image, there may be a displayed image in which a plurality of pixels having the grayscale of 255 are disposed in the area adjacent to the irregular edge. Thus, the plurality of the first pixels may receive the electrical signals and exhibit corresponding brightness having the grayscale of 255. Because the irregular edge intersects the plurality of the first pixels, without any brightness adjustment, the image edge may appear severely jagged at the irregular edge.
In the disclosed embodiments, the first pixel 10 may have an initial grayscale g. The initial grayscale g may be defined as follows. For example, the display panel is displaying an image A. Without adjusting brightness for the pixels forming the image A, the corresponding brightness of each first pixel 10 may be the initial grayscale g. In the disclosed embodiments, the brightness corresponding to the first pixels 10 may be adjusted. In the display phase of the display panel, the grayscale of the first pixel 10 may be adjusted, such that the grayscale of the first pixel 10 may be adjusted to be a display grayscale G, where G<g. In other words, in the disclosed display panel, the first pixel 10 may actually display a brightness corresponding to the display grayscale G.
Accordingly, the display panel may actually display an image A′. The difference between the image A and the image A′ may be the brightness of the first pixels 10. For example, the brightness of the first pixels 10 in the image A′ may be reduced. Because the non-display region BB is often shielded by a black matrix, the pixels disposed in the non-display region BB may have substantially small grayscales. When the display grayscales G of the first pixels 10 decrease and approach the grayscales of the pixels in the non-display region BB, the first pixels 10 may become more and more unlikely to be recognized by human eyes. In the disclosed display panel, the first pixel 10 grayscale may be adjusted to be the display grayscale G to suppress the visual recognition of the first pixel 10 by human eyes. Thus, compared to the existing display panel, the jagged image edge at the irregular edge Y in the disclosed display panel may be suppressed.
In the disclosed embodiments, the display region may include at least one irregular edge. The pixels intersecting the at least one irregular edge may be the first pixels. Each first pixel may have the initial grayscale g. In the display phase, the initial grayscale g of the first pixel may be adjusted to the display grayscale G, where G<g. Because the display grayscale of the first pixel is reduced in the display phase, the jagged image edge at the irregular edge may be suppressed, and the display performance may be improved accordingly.
As shown in
In the disclosed display panel, the first pixels 10 each may have the identical area size SP. On one hand, at the irregular edge Y, when the plurality of the first pixels 10 have the identical initial grayscale g, and the first region 11 has a larger area size S and the second region 12 may have a smaller area size accordingly, the display grayscale G of the corresponding first pixel 10 may be higher. On the other hand, at the irregular edge Y, when the plurality of the first pixels 10 have the identical initial grayscale g, and the first region 11 has a smaller area size S and the second region 12 has a larger area size accordingly, the display grayscale G of the corresponding first pixel 10 may be lower.
For example, as shown in
In the first pixel 10a and the first pixel 10b, the first pixel 10a may have a larger portion disposed in the non-display region BB, and the first pixel 10b may have a smaller portion disposed in the non-display region BB. That is, the second region 12a of the first pixel 10a may be larger than the second region 12b of the first pixel 10b. When the second region 12a of the first pixel 10a is larger than the second region 12b of the first pixel 10b, the first pixel 10a may protrude more from the display region AA into the non-display region BB, and the jagged edge may look more obvious at the first pixel 10a, as compared to the first pixel 10b. Through configuring the display grayscale G of the first pixel 10a to be smaller than the display grayscale G of the first pixel 10b, the jagged edge at the first pixel 10a may be suppressed.
In the disclosed embodiments, the display grayscale G of the first pixel 10 may be correlated with the size of the first region 11. When the first region 11 is smaller, the display grayscale G of the corresponding first pixel 10 may be lower. Based on the specific situation that the first pixel 10 intersects the irregular edge Y (i.e., the area sizes of the first region and second region), the display grayscale G of the first pixel 10 may be configured accordingly to suppress the jagged image edge at the irregular edge Y.
In certain embodiments, referring to
In particular, the TFT 43 may include a gate electrode, a source electrode, and a drain electrode. The gate electrode of the TFT 43 may be electrically connected to a corresponding gate line 40. The source electrode of the TFT 43 may be electrically connected to a corresponding data line 41. The drain electrode of the TFT 43 may be electrically connected to a corresponding pixel electrode 42. In the pixel, three sub-pixels may have three different colors. For example, the first color sub-pixel SP1 may be red, the second color sub-pixel SP2 may be green, and the third color sub-pixel SP3 may be blue, which is intended for illustrative purposes and is not limited by the present disclosure.
The display panel may be a plasma display panel, a field emission display panel, a light-emitting diode (LED) display panel, an organic light-emitting diode (OLED) display panel, a liquid crystal display panel, a quantum dots (QDs) display panel, an electrophoretic display panel, etc. Further, the display panel may include any appropriate type of display panels capable of display images and/or videos.
In one embodiment, referring to
As shown in
Different from the display panel shown in
In the disclosed display panel shown in
In the existing display panel shown in
The present disclosure also provides a display apparatus, comprising any one of the disclosed display panels.
In the display apparatus, the chip 50 may be electrically connected to the display panel to supply the display voltage signals to the first pixels 10. Each first pixel 10 may receive the corresponding display voltage signal and may display the grayscale accordingly. In one embodiment, the chip 50 may be bonded to the display panel. In another embodiment, the chip 50 may be disposed in any other location of the display apparatus, which is not limited by the present disclosure.
In certain embodiments, referring to
In certain other embodiments, referring to
In certain other embodiments, referring to
In certain other embodiments, referring to
In one embodiment, after the display apparatus is fabricated, the area size SP of each first pixel 10 may be fixed. Moreover, the irregular edge Y may also be fixed. Thus, the area size S of the first region 11 in each first pixel 10 may be fixed as well. The area size SP of each first pixel 10 and the area size S of the first region 11 in each first pixel 10 may be pre-configured in the image information processing module 54. Then the image information processing module 54 may only be desired to obtain the initial grayscale g for each first pixel 10 in each image frame.
In one embodiment, in the display apparatus shown in
In particular applications, the chips where the voltage conversion module 51, the grayscale calculation module 52, the information retrieval module 53, and the information processing module 54 are disposed in may be determined according to various application scenarios, which are not limited by the present disclosure.
The present disclosure further provides a display panel driving method. Referring to
In one embodiment, the driving method may include the following steps. In a display phase of the display panel, a display voltage signal may be supplied to each first pixel 10, such that the first pixel 10 may have a display grayscale G, where G>g. In the display panel driving method, each first pixel 10 may have the initial grayscale g. The initial grayscale g may be defined as follows. For example, when the display panel is displaying an image A, without adjusting brightness for the pixels forming the image A, the corresponding brightness of each first pixel 10 may be the initial grayscale g. In the disclosed embodiments, the brightness corresponding to each first pixel 10 may be adjusted. In the display phase of the display panel, the grayscale of each first pixel 10 may be adjusted, such that the grayscale of the first pixel 10 may be configured to be the display grayscale G, where G<g. In other words, in the disclosed embodiments, each first pixel 10 may actually exhibit a brightness corresponding to the display grayscale G.
The display panel may actually display an image A′. The difference between the image A and the image A′ may be the brightness of the first pixels 10. The brightness of each first pixel 10 in the image A′ may be reduced. Because the non-display region BB is often shielded by the black matrix, the pixels disposed in the non-display region BB may have substantially small grayscales. When the display grayscale G of the first pixel 10 decreases and approaches the grayscale of the pixels in the non-display region BB, the first pixel 10 may become more and more unlikely to be recognized by human eyes.
In the disclosed embodiments, the display voltage signal may be supplied to each first pixel 10, such that the grayscale of each first pixel 10 may be adjusted to be the display grayscale G to suppress the visual recognition of the first pixel 10 by human eyes. Thus, compared to the existing display panel, the jagged image edge at the irregular edge Y of the disclosed display panel may be suppressed.
In certain embodiments, referring to
In the disclosed embodiments, the first pixels 10 each may have the identical area size SP. On one hand, at the irregular edge Y, when the plurality of the first pixels 10 have the identical initial grayscale g, and the first region 11 has a larger area size S, and the second region 12 has a smaller area size accordingly, the display grayscale G of the corresponding first pixel 10 may be higher. On the other hand, at the irregular edge Y, when the plurality of the first pixels 10 have the identical initial grayscale g, and the first region 11 has a smaller area size S and the second region 12 has a larger area size accordingly, the display grayscale G of the corresponding first pixel 10 may be lower.
For example, as shown in
In the first pixel 10a and the first pixel 10b, the first pixel 10a may have a larger portion disposed in the non-display region BB, and the first pixel 10b may have a smaller portion disposed in the non-display region BB. That is, the second region 12a of the first pixel 10a may be larger than the second region 12b of the first pixel 10b. When the second region 12a of the first pixel 10a is larger than the second region 12b of the first pixel 10b, the first pixel 10a may protrude more from the display region AA into the non-display region BB, and the jagged edge may look more obvious at the first pixel 10a, as compared to the first pixel 10b. Through configuring the display grayscale G of the first pixel 10a to be smaller than the display grayscale G of the first pixel 10b, the jagged edge at the first pixel 10a may be suppressed.
In the disclosed embodiments, the display grayscale G of the first pixel 10 may be correlated with the size of the first region 11. When the first region 11 is smaller, the display grayscale G of the corresponding first pixel 10 may be lower. Based on the specific situation that the first pixel 10 intersects the irregular edge Y (i.e., the area sizes of the first region and the second region), the display grayscale G of the first pixel 10 may be configured accordingly to suppress the jagged image edge at the irregular edge Y.
Step a: retrieving image information for a current image frame. In particular, the initial grayscale g for each pixel in the current image frame may be retrieved.
Step b: analyzing the image information to obtain the initial grayscale g for each first pixel 10, the area size SP of the first pixel, and the area size S of the first region. In particular, after the display apparatus is fabricated, the area size SP of each first pixel 10 may be fixed. Moreover, the irregular edge Y may also be fixed. Thus, the area size S of the first region 11 in each first pixel 10 may be fixed as well. The area size SP of each first pixel 10 and the area size S of the first region 11 in each first pixel 10 may be pre-configured. In the Step b, only the initial grayscale g for each first pixel 10 in each image frame may be desired to be obtained.
Step c: based on the initial grayscale g for each first pixel, the area size SP of the first pixel, the area size S of the first region, and the equation S*g=G*SP, obtaining a display grayscale for the first pixel through calculation.
Step d: converting the display grayscale G to a corresponding display voltage signal. In particular, a calculation equation may be pre-configured. The calculation equation may use the display grayscale G to calculate a corresponding display voltage signal.
Step e: supplying the display voltage signal to the corresponding first pixel such that the first pixel displays light at the display grayscale G.
In the driving method for the disclosed display panel, the image information may be retrieved, the image information may be analyzed, the display grayscale G for the first pixel may be calculated and converted into the corresponding display voltage signal, and finally the display voltage signal may be supplied to the corresponding first pixel such that the first pixel may actually display light at the display grayscale G. Thus, the jagged image edge at the irregular edge Y may be suppressed.
The present disclosure provides a display panel, a display apparatus, and a driving method for the display panel.
In the disclosed display panel, the display region includes at least one irregular edge. The pixels intersecting the irregular edge are first pixels. Each first pixel has an initial grayscale g. In the display phase of the display panel, the grayscale for each first pixel may be adjusted such that the first pixel displays light at the display grayscale G, where G<g. In the display phase, the grayscale of each first pixel is reduced from the initial grayscale g to the display grayscale G. Thus, the jagged image edge at the irregular edge may be suppressed, and the display performance may be enhanced. The display apparatus has the features and functions provided by the disclosed display panel.
In the driving method for the disclosed display panel, the image information may be retrieved, the image information may be analyzed, the display grayscale G for the first pixel may be calculated and converted into the corresponding display voltage signal, and finally the display voltage signal may be supplied to the corresponding first pixel such that the first pixel may actually display light at the display grayscale G. Thus, the jagged image edge at the irregular edge Y may be suppressed, and the display performance may be enhanced.
Various embodiments have been described to illustrate the operation principles and exemplary implementations. It should be understood by those skilled in the art that the present invention is not limited to the specific embodiments described herein and that various other obvious changes, rearrangements, and substitutions will occur to those skilled in the art without departing from the scope of the invention. Thus, while the present invention has been described in detail with reference to the above described embodiments, the present invention is not limited to the above described embodiments, but may be embodied in other equivalent forms without departing from the scope of the present invention, which is determined by the appended claims.
Number | Date | Country | Kind |
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201710848491.9 | Sep 2017 | CN | national |