The present disclosure relates to a touch display technical field, and in particular to a touch display panel, a driving circuit and a driving method of a touch display panel.
The development of intelligent terminals enhances the development of integration of the liquid crystal display and touch function, combining the touch function and the liquid crystal display to form a touch display screen has become the development trend of the liquid crystal display, for the structural relationship between the touch screen and the liquid crystal display screen, from the initial separation of OGS technology to the on-cell technology which is to provide a touch screen on the liquid crystal of the liquid crystal display, and further developed into in-cell technology which is to embed the touch screen in the liquid crystal pixel of the liquid crystal display panel, wherein the in-cell technology can achieve slim and lightweight, becoming the development trend of the touch display panel.
In the prior in-cell technology, when the tough display screen scans, each region exists a scanning delay, making the charging circumstance of the capacitor in each region different, thus making the optimum common voltage of each region different, however, the common electrode of the touch display panel in the prior in-cell technology is a complete common electrode layer, which can not solve the problem of the optimum common voltage of each region resulted by the difference of charging circumstance of each region of the touch display panel, affecting the display quality.
The technical issue to be solved by the present disclosure is to improve the circumstance that the difference of the charging circumstance of the capacitor of each region caused by the scanning delay results the difference of the common voltage.
In view of this, the present disclosure provides a touch display panel, a driving circuit and a driving method of a touch display panel, which can improve the circumstance that the difference of the charging circumstance of the capacitor of each region caused by the scanning delay results the difference of the common voltage.
In order to solve the above technical issue, a technical solution provided by the present disclosure is: to provide a touch display panel, wherein said touch display panel comprises a first substrate and a second substrate, said second substrate being an array substrate; said touch display panel comprises a common electrode layer used to display, said common electrode layer being also used for touch detection electrode layer which is used for touch detection, said common electrode layer being divided into a plurality of regions, each region corresponding to an independent common voltage;
said common electrode layer being provided on said second substrate or first substrate;
said common electrode layer having a plurality of common electrodes arranged in array, said common electrode being simultaneously used for touch detection electrode layer which is used for touch detection.
Wherein said common electrode is adjusted through a driving IC of said touch display panel.
In order to solve the above technical issue, another technical solution provided by the present disclosure is: to provide a driving circuit of a touch display panel, said driving circuit comprises a display control circuit, said display control circuit comprises a plurality of common voltage generating circuits, output ends of said plurality of common voltage generating circuits being respectively connected with a relative region of said common electrode layer of said touch display panel through a selector, said common electrode layer being divided into a plurality of regions;
wherein said common electrode being simultaneously used for touch detection electrode layer which is used for touch detection.
Wherein the amount of said selector is the same as the amount of said common voltage generating circuit.
Wherein said common voltage outputted by said selector is corresponded to the configuration bits of said common voltage; the digit of the configuration bits of said common voltage of said selector is provided according to the amount of said common voltage generating circuit.
Wherein said driving circuit also comprises a touch control circuit and a main control circuit, said main control circuit being respectively connected with said touch control circuit and said display control circuit, said touch control circuit and said display control circuit being connected with said touch display panel.
In order to solve the above technical issue, the other technical solution provided by the present disclosure is: to provide a driving method of a touch display panel, said touch display panel comprises a common electrode layer used to display, said common electrode layer being also used for touch detection electrode layer which is used for touch detection, said common electrode layer being divided into a plurality of regions, each region corresponding to an independent common voltage; said display control circuit of said touch display panel comprises a plurality of independent common voltage generating circuits, output ends of said plurality of common voltage generating circuits being respectively connected with a relative region of said common electrode layer of said touch display panel through a selector;
said driving method comprising: when said touch display panel scanning, said display control circuit working, each region of said common electrode layer being respectively driven by said independent common voltage provided by each common voltage generating circuit of said display control circuit.
Wherein when said touch display panel touch detection scans, said common electrode layer is used for a touch detection electrode layer which is used for touch detection, each electrode of said touch detection electrode layer is provided a independent touch detection signal by touch control circuit.
Wherein said common voltage outputted by said selector is corresponded to the configuration bits of said common voltage; the digit of the configuration bits of said common voltage of said selector is provided according to the amount of said common voltage generating circuit.
Wherein said touch display panel comprises a first substrate and a second substrate, said second substrate being an array substrate, said common electrode layer being provided on said second substrate or said first substrate.
Wherein said common electrode layer having a plurality of common electrodes arranged in array, said common electrode being simultaneously used for touch detection electrode layer which is used for touch detection.
Wherein said common electrode is adjusted through a driving IC of said touch display panel.
The embodiments of present disclosure provide a touch display panel, a driving circuit and a driving method of a touch display panel; the touch display panel of the embodiments of the present disclosure comprises a common electrode layer which used for display, said common electrode layer is simultaneously used for touch detection electrode layer which is used for touch detection, said common electrode layer is divided into a plurality of regions, each region is corresponded to a independent common voltage, which can scan the delay of said touch display panel, each region of said common electrode layer is respectively driven by the independent common voltage, each region provide the corresponded common voltage according to the required optimum common voltage, which can improve the problem that the difference of the pixel capacitors in the pixel circuit results the difference of the common voltage of each pixel region, improving the display quality.
In order to enable those skilled personnel to better understand the technical aspect of the present disclosure, the following will combine the drawings and the embodiments to describe the touch display panel, the driving circuit and the driving method of the touch display panel provided by the present disclosure in detail. In the drawings, in order to more clearly describe the devices and structures, exaggerating the thickness of the layer and area of the region, the same reference numerals are used to represent the same elements throughout the specification and drawings.
Specifically, said common electrode layer 3 having a plurality of common electrodes arranged in array, when the common electrode layer 3 is used for touch detection electrode layer 3 which is used for touch detection, each common electrode is touch detection electrode. Said touch detection electrode is arranged in a range of touch display screen, dividing said touch detection electrode layer 3 into a plurality of pieces according to the size of the touch display screen, the size of said plurality of pieces is not specifically limited by the present disclosure, optionally, the length and width of said plurality of pieces are 3 to 5 mm, said plurality of pieces comprise one or more touch detection electrodes. As shown in
The adjusting method of each common voltage is not specifically limited by the present disclosure, optionally, each common voltage is adjusted through the register configuration of the driving IC of tough display panel.
In the embodiments of the touch display panel of the present disclosure, the size of the plurality of pieces that the touch detect electrode layer 3 is divided is not less than 3×3 mm2, and is not larger than 5×5 mm2; wherein when the common electrode layer is divided into regions, it can be divided equally or not.
Wherein said touch display panel comprises a first substrate and a second substrate, said second substrate is an array substrate, said common electrode layer is provided on said second substrate or said first substrate.
Generally, the common electrode layer of the touch display panel is provided on the first substrate, when the touch display panel is required to be smaller, said common electrode layer can be provided on the second substrate; as shown in
When the existing touch display panel scans, the scanning delay causes the charging circumstance of the capacitors of each region different, thereby resulting the optimum common voltage different, since the common electrode is a completed electrode layer, it only can provide one common voltage, it can not solve the problem of the optimum common voltage of each region resulted by the difference of charging circumstance of each region of the touch display panel, affecting the display quality.
The touch display panel of the embodiments of the present disclosure comprises a common electrode layer 3 which is used for display, said common electrode layer 3 is also used for touch detection electrode layer 3 which is used for touch detection, said common electrode layer 3 is divided into a plurality of regions, each region corresponds to an independent common voltage; when the touch display panel scans, each region can be corresponded to an independent common voltage, according to the charging circumstance of capacitors of each region on the touch display panel caused by the display scanning delay, adjusting the common voltage of each region through the register configuration of the driving IC, thereby improving the circumstance that the difference of the charging circumstance of the capacitor of each region on the touch display panel results the difference of the common voltage, improving the display quality of the touch display panel.
Refer to
As shown in
Wherein the amount of said common voltage generating circuit 11 is the same as the amount of the regions that said common electrode layer 3 is divided, the output end of each common voltage generating circuit 11 is respectively connected with the selector 12, each selector 12 is connected with a common voltage generating circuit 11 of which the amount is the same as the regions that said common electrode layer 3 is divided, the output end of each selector 12 is connected with the common electrode layer 3 of the touch display panel through the connection of channel, optionally, on the trace of connection of each selector 12 and the touch display panel is provided a switch.
Wherein the amount of said selector 12 in the embodiment of the driving circuit of the touch display panel of the present disclosure is the same as the amount of said common voltage generating circuit 11.
Wherein the common voltage outputted by said selector 12 is corresponded to said common voltage configuration bits; the common voltage configuration bits of the selector 12 in the embodiment of the driving circuit of the touch display panel of the present disclosure adopts binary.
Wherein the digit of the configuration bits of said common voltage of said selector 12 is provided according to the amount of said common voltage generating circuit 11.
Each selector 12 is connected with a common voltage generating circuit 11 of which the amount is the same as the regions that said common electrode layer 3 is divided, the output end of each selector 12 is connected with the common electrode layer 3 of the touch display panel through the connection of channel, when each selector 12 outputs common voltage, which selectively outputs a independent common voltage, thus providing a common voltage configuration bits to the common voltage outputted by each selector 12, namely, one common voltage configuration bits is corresponded to an independent common voltage. The digit of the configuration bits of said common voltage is provided according to the amount of amount of the regions divided by said common electrode layer 3, the more is the amount of regions divided by said common electrode layer 3, the more is the digit corresponded to the common voltage configuration bits.
Selecting the correspondingly outputted common voltage through adjusting the common voltage configuration bits of each selector 12, when the common voltage configuration bits of each selector 12 is different, the common voltage outputted by each selector 12 is different, the display control circuit 8 outputs a plurality of common voltages.
For example, according to
If said common electrode layer 3 does not need the plurality of common voltages, thus providing the same common voltage configuration bits for each selector 12 in the display control circuit 8, thus able to achieve that the display control circuit 8 provides the same common voltage for each region of the common electrode layer 3.
The digit of the common voltage configuration bits of the selector 12 in the embodiment of the driving circuit of the touch display panel of the present disclosure is changed according to amount of the regions that the common electrode layer 3 is divided; if the amount of the region that the common electrode 3 is divided is 4, thus the digit of the common voltage configure bits corresponded to the selector 12 is 2 bytes, if the amount of the regions that the common electrode layer 3 is divided is 8, thus the digit of the common voltage configuration bits corresponded to the selector 12 is 3 bytes.
Wherein said driving circuit also comprises a touch control circuit 9 and a main control circuit 10, said main control circuit 10 is respectively connected with said touch control circuit 9 and said display control circuit 8, said touch control circuit 9 and said display control circuit 8 are connected with said touch display panel.
When the touch display panel scans, the touch control circuit 9 works.
The embodiment of the touch display panel of the present disclosure comprises a common electrode layer 3 which is used for display, said common electrode layer 3 is also used for touch detection electrode layer 3 which is used for touch detection, said common electrode layer 3 is divided into a plurality of regions, each region is corresponded to an independent common voltage; said display control circuit 8 of said touch display panel comprises a plurality of common voltage generating circuits 11, output ends of said plurality of common voltage generating circuits 11 are respectively connected with a relative region of said common electrode layer 3 of said touch display panel through a selector 12.
Refer to
Step S101, when said touch display panel scans, said display control circuit 8 works, each region of said common electrode layer 3 is respectively driven by the independent common voltage provided by each common voltage generating circuit 11 in said display control circuit 8.
Wherein the common voltage outputted by said selector 12 is corresponded to said common voltage configuration bits; the digit of the common voltage configuration bits of said selector 12 is provided according to the amount of said common voltage generating circuit 11.
The common electrode layer 3 of the touch display panel is divided into a plurality of regions, the output end of each selector 12 in the display control circuit 8 is corresponded to the region of the common voltage layer 3, meanwhile, the input end of each selector 12 is connected with the plurality of common voltage generating circuits 11; when the touch display panel scans, according to the charging circumstance of the capacitor of each region, the driving IC provides a corresponded common voltage configuration bits for the selector 12 in the display control circuit 8, the selector 12 provides an independent common voltage for the region of the corresponded common electrode layer 3, the common voltage is corresponded to the common voltage configuration bits of the selector 12, namely, achieving that when the touch display panel scans, according to the charging circumstance of the capacitor of each region on the touch display panel caused by the delay of the display scan, providing the independent common voltage for each region of the common electrode layer 3, thereby improving the circumstance of the optimum common voltage of each region resulted by the difference of charging circumstance of each region of the touch display panel, improving the display quality of the touch display panel.
Step S102, when said touch display panel scans, said common electrode layer 3 is used for touch detection electrode layer 3 which is used for touch detection, each electrode of said touch detection electrode layer 3 is provided an independent touch detection signal by the touch control circuit 9.
Step S101 and S102 are chosen according to the operation state of said touch display panel, there is no particular order.
The other embodiment of the present disclosure provides a touch display device, said touch display device comprises a touch display panel, said touch display panel comprises a common electrode layer which is used for display, said common electrode layer is also used for touch detection electrode layer which is used for touch detection, said common electrode layer is divided into a plurality of regions, each region corresponds to an independent common voltage.
Wherein said touch display panel comprises a first substrate and a second substrate, said second substrate is an array substrate, said common electrode layer is provided on said second substrate or said first substrate.
The technical solution of the present disclosure use the common electrode 3 which is used for display in the touch display panel for touch detection electrode layer 3 which is used for touch detection when the touch display panel scans, said common electrode layer 3 is divided into a plurality of regions, each region corresponds to an independent common voltage; when the touch display panel scans, each region of said common electrode layer 3 is respectively driven by the independent common voltage, each region provides the corresponded common voltage according to the charging circumstance of the capacitor thereof, which can improve the circumstance that the difference of the charging circumstance of the capacitor of each region caused by the scanning delay results the difference of the common voltage, improving the display quality.
The preferred embodiments according to the present disclosure are mentioned above, which cannot be used to define the scope of the right of the present disclosure. Those variations of equivalent structure or equivalent process according to the present specification and the drawings or directly or indirectly applied in other areas of technology are considered encompassed in the scope of protection defined by the claims of the present disclosure.
Number | Date | Country | Kind |
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2016 1 0541395 | Jul 2016 | CN | national |
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PCT/CN2016/090896 | 7/21/2016 | WO | 00 |
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WO2018/010204 | 1/18/2018 | WO | A |
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