ACTIVE-MATRIX ORGANIC EMISSIVE DIODE (AMOLED) DISPLAY PANEL, DRIVING METHOD THEREOF, AND DRIVING DEVICE THEREOF
First Claim
1. An Active-Matrix Organic Emissive Diode (AMOLED) display panel, comprising:
- a plurality of pixel structures arranged in a matrix;
wherein each of the pixel structures comprises at least one red sub-pixel, at least one green sub-pixel, and at least one blue sub-pixel;
wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have a first emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have a second emissive peak wavelength;
or wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have the second emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have the first emissive peak wavelength;
wherein the first emissive peak wavelength is smaller than the second emissive peak wavelength.
1 Assignment
0 Petitions
Accused Products
Abstract
The present disclosure discloses an AMOLED display panel, a driving method thereof, and a driving device thereof. The AMOLED display panel includes a plurality of pixel structures arranged in a matrix, and each of the pixel structures includes at least one red sub-pixel R, at least one green sub-pixel, and at least one blue sub-pixel. The blue sub-pixels of the pixel structures arranged in odd columns respectively have a first emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns respectively have a second emissive peak wavelength. The first emissive peak wavelength is greater than the second emissive peak wavelength.
15 Citations
20 Claims
-
1. An Active-Matrix Organic Emissive Diode (AMOLED) display panel, comprising:
-
a plurality of pixel structures arranged in a matrix; wherein each of the pixel structures comprises at least one red sub-pixel, at least one green sub-pixel, and at least one blue sub-pixel; wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have a first emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have a second emissive peak wavelength;
or wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have the second emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have the first emissive peak wavelength;wherein the first emissive peak wavelength is smaller than the second emissive peak wavelength. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A driving method of an AMOLED display panel, wherein the AMOLED display panel comprise a plurality of pixel structures arranged in a matrix;
-
wherein each of the pixel structures comprises at least one red sub-pixel, at least one green sub-pixel, and at least one blue sub-pixel; wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have a first emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have a second emissive peak wavelength;
or wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have the second emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have the first emissive peak wavelength;wherein the first emissive peak wavelength is smaller than the second emissive peak wavelength. wherein the driving method comprise; determining whether a blue ray saturation of a displayed image frame reaches a saturation threshold; with respect to the blue sub-pixels in the image frame, driving the blue sub-pixels having the second emissive peak wavelength to display upon determining the blue ray saturation of the displayed image frame reaches the saturation threshold; with respect to the blue sub-pixels in the image frame, simultaneously driving the blue sub-pixels having the first emissive peak wavelength and the blue sub-pixels having the second emissive peak wavelength to display upon determining the blue ray saturation of the displayed image frame does not reach the saturation threshold. - View Dependent Claims (8, 9, 10, 11, 12, 13)
-
-
14. A driving device of an AMOLED display panel, wherein the AMOLED display panel comprise a plurality of pixel structures arranged in a matrix;
-
wherein each of the pixel structures comprises at least one red sub-pixel, at least one green sub-pixel, and at least one blue sub-pixel; wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have a first emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have a second emissive peak wavelength;
or wherein the blue sub-pixels of the pixel structures arranged in odd columns of the matrix respectively have the second emissive peak wavelength, and the blue sub-pixels of the pixel structures arranged in even columns of the matrix respectively have the first emissive peak wavelength;wherein the first emissive peak wavelength is smaller than the second emissive peak wavelength. wherein the driving device comprise; an image input unit, configured to receive image data of a displayed image frame; an image analyze unit, configured to calculate a blue ray saturation of the displayed image frame, and compare the blue ray saturation with a saturation threshold; an image output unit, comprising a driving circuit module to output driving signals to the pixel structures of the display panel according to the image data of the displayed image frame, and to drive a current displayed image;
wherein the blue sub-pixels of the pixel structures arranged in odd columns is connected to the driving circuit module through a first flexible circuit board, and the blue sub-pixels of the pixel structures arranged in even columns is connected to the driving circuit module through a second flexible circuit board;wherein with respect to the blue sub-pixels in the image frame, when blue ray saturation of the displayed image frame is greater than the saturation threshold, the driving circuit module drives the blue sub-pixels having the second emissive peak wavelength to display; wherein with respect to the blue sub-pixels in the image frame when blue ray saturation of the displayed image frame is smaller than the saturation threshold, the driving circuit module simultaneously drive the blue sub-pixels having the first emissive peak wavelength and the blue sub-pixels having the second emissive peak wavelength to display. - View Dependent Claims (15, 16, 17, 18, 19, 20)
-
Specification