ORGANIC LIGHT-EMITTING DIODE DISPLAY DEVICE AND OPERATING METHOD THEREOF

Abstract

An organic light-emitting diode (OLED) display device and an operating method thereof are disclosed. The OLED display device includes an OLED panel, a non-volatile memory and a volatile memory. The non-volatile memory is coupled to the OLED panel and used for storing accumulated current data from the OLED panel. The volatile memory is coupled between the non-volatile memory and the OLED panel and used for storing a compensation value generated according to the accumulated current data stored in the non-volatile memory. When the OLED panel is directly compensated with the compensation value, the non-volatile memory receives and stores updated accumulated current data of the OLED panel.

Claims

1. An organic light-emitting diode (OLED) display device, comprising: an OLED panel; a non-volatile memory, coupled to the OLED panel and configured to store an accumulated current data from the OLED panel; and a volatile memory, coupled between the non-volatile memory and the OLED panel and configured to store a compensation value generated according to the accumulated current data stored in the non-volatile memory; wherein when the OLED panel is directly compensated with the compensation value, the non-volatile memory receives and stores an updated accumulated current data of the OLED panel.

2. The OLED display device of claim 1, further comprising: an update and backup unit, coupled between the OLED panel and the non-volatile memory and used for obtaining the accumulated current data of the OLED panel in a first period and storing the accumulated current data to the non-volatile memory.

3. The OLED display device of claim 2, wherein the update and backup unit also obtains the updated accumulated current data of the OLED panel in a second period later than the first period.

4. The OLED display device of claim 3, further comprising: an addition unit, coupled between the update and backup unit and the non-volatile memory and configured to add the updated accumulated current data from the update and backup unit in the second period to the accumulated current data from the non-volatile memory in the first period to generate a sum and storing the sum to the non-volatile memory to replace the accumulated current data originally stored in the non-volatile memory.

5. The OLED display device of claim 2, further comprising: a compensation unit, coupled between the non-volatile memory and the volatile memory and configured to calculate the compensation value according to the accumulated current data stored in the non-volatile memory and storing the compensation value to the volatile memory.

6. The OLED display device of claim 3, wherein when obtaining the updated accumulated current data of the OLED panel, the update and backup unit only needs to sample and calculate some sectors to be updated in the non-volatile memory.

7. The OLED display device of claim 5, wherein when the compensation unit calculates the compensation value according to the accumulated current data stored in the non-volatile memory and stores the compensation value in the volatile memory, the update and backup unit is in an idle state.

8. The OLED display device of claim 5, wherein when the compensation value stored in the volatile memory is used to compensate the OLED panel, the compensation unit and the update and backup unit are in an idle state.

9. The OLED display device of claim 5, wherein when the update and backup unit obtains the updated accumulated current data and stores the updated accumulated current data in the non-volatile memory, the compensation unit is in an idle state.

10. A method of operating an OLED display device, the OLED display device comprising an OLED panel, a volatile memory and a non-volatile memory, the method comprising the following steps of: (a) generating a compensation value according to an accumulated current data from the OLED panel stored in the non-volatile memory and storing the compensation value in the volatile memory; (b) directly compensating the OLED panel according to the compensation value stored in the volatile memory; and (c) obtaining an updated accumulated current data from the OLED panel and storing the updated accumulated current data in the non-volatile memory.

11. The method of claim 10, wherein the method further comprises the following step of: obtaining the accumulated current data of the OLED panel in a first period and storing the accumulated current data in the non-volatile memory.

12. The method of claim 11, wherein the method further comprises the following step of: obtaining the updated accumulated current data of the OLED panel in a second period, wherein the second period is later than the first period.

13. The method of claim 12, wherein the method further comprises the following step of: adding the updated accumulated current data in the second period to the accumulated current data from the non-volatile memory in the first period to generate a sum and storing the sum in the non-volatile memory to replace the accumulated current data originally stored in the non-volatile memory.

14. The method of claim 11, wherein the method further comprises the following step of: calculating the compensation value according to the accumulated current data stored in the non-volatile memory and storing the compensation value in the volatile memory.

15. The method of claim 12, wherein when obtaining the updated accumulated current data of the OLED panel, the method only needs to sample and calculate some sectors to be updated in the non-volatile memory.

16. The method of claim 14, wherein the OLED display device further comprises an update and backup unit and a compensation unit; when the compensation unit calculates the compensation value according to the accumulated current data stored in the non-volatile memory and stores the compensation value in the volatile memory, the update and backup unit is in an idle state.

17. The method of claim 14, wherein the OLED display device further comprises an update and backup unit and a compensation unit; when the compensation value stored in the volatile memory is used to compensate the OLED panel, the compensation unit and the update and backup unit are in an idle state.

18. The method of claim 14, wherein the OLED display device further comprises an update and backup unit and a compensation unit; when the update and backup unit obtains the updated accumulated current data and stores the updated accumulated current data in the non-volatile memory, the compensation unit is in an idle state.

Description

BRIEF DESCRIPTION OF THE APPENDED DRAWINGS

[0038] FIG. 1 illustrates a schematic diagram that the OLED burn-in compensation technology can achieve uniform display effect by adjusting the input grayscale.

[0039] FIG. 2 and FIG. 3 illustrate a functional block diagram of the conventional OLED display device and a flowchart of the conventional OLED display device operating method respectively.

[0040] FIG. 4 illustrates a schematic diagram that the updating unit in the conventional OLED display device needs to calculate the updated accumulated current data of all positions for each frame displayed by the OLED panel and store it in the volatile memory.

[0041] FIG. 5 illustrates a schematic diagram that the on/idle states of the updating unit, the backup unit and the compensation unit in the conventional OLED display device at different stages.

[0042] FIG. 6 illustrates a schematic diagram of the OLED display device in a preferred embodiment of the invention.

[0043] FIG. 7 illustrates a flowchart of the OLED display device operating method in another preferred embodiment of the invention.

[0044] FIG. 8 illustrates a schematic diagram that the update and backup unit in the OLED display device of the invention only needs to sample and calculate some sectors to be updated in the non-volatile memory for each frame displayed by the OLED panel.

[0045] FIG. 9 illustrates the on/idle states of the compensation unit and the update and backup unit in the OLED display device of the invention at different stages.

DETAILED DESCRIPTION OF THE INVENTION

[0046] Exemplary embodiments of the invention are referenced in detail now, and examples of the exemplary embodiments are illustrated in the drawings. Further, the same or similar reference numerals of the components/components in the drawings and the detailed description of the invention are used on behalf of the same or similar parts.

[0047] A preferred embodiment of the invention is an organic light-emitting diode (OLED) display device. In this embodiment, the OLED display device has a function of de-burn-in. Please refer to FIG. 6. FIG. 6 illustrates a schematic diagram of the OLED display device in this embodiment.

[0048] As shown in FIG. 6, the OLED display device 6 includes an OLED display panel 60, a volatile memory 61, a non-volatile memory 62, an update and backup unit 63, an addition unit 64 and a compensation unit 65. The OLED display panel 60 is coupled to the volatile memory 61 and the update and backup unit 63 respectively. The update and backup unit 63 is coupled between the OLED display panel 60 and the addition unit 64. The addition unit 64 is coupled between the non-volatile memory 62 and the update and backup unit 63. The non-volatile memory 62 is coupled between the addition unit 64 and the compensation unit 65. The compensation unit 65 is coupled between the volatile memory 61 and the non-volatile memory 62. The volatile memory 61 is coupled between the OLED display panel 60 and the compensation unit 65.

[0049] In practical applications, the volatile memory 61 refers to a memory whose stored data will disappear when the power supply is interrupted, such as a static random access memory (SRAM) or dynamic random access memory (DRAM) and other random access memory (RAM), etc., but not limited to this. The non-volatile memory 62 means that when the power supply is interrupted, the data stored in it will not disappear, and the data stored in it can be read after the power supply is restarted, such as flash memory or read-only memory (ROM), etc., but not limited to this.

[0050] In this embodiment, the non-volatile memory 62 stores an accumulated current data D1 from the OLED panel 60 in a first period. The compensation unit 65 calculates a compensation value V according to the accumulated current data D1 stored in the non-volatile memory 62 in the first period and stores the compensation value V in the volatile memory 61. The compensation value V stored in the volatile memory 61 is used to directly compensate the OLED panel 60.

[0051] When the compensation value V stored in the volatile memory 61 is used to directly compensate the OLED panel 60, the update and backup unit 63 obtains an update accumulated current data D2 from the OLED panel 60 in a second period, wherein the second period is later than the first period. The addition unit 64 adds the updated accumulated current data D2 in the second period from the update and backup unit 63 and the accumulated current data D1 in the first period from the non-volatile memory 62 as a sum D1+D2 and stores the sum D1+D2 in the non-volatile memory 62 to replace the accumulated current data D1 originally stored in the non-volatile memory 62. Next, the OLED display device 6 can repeat the above-mentioned operations, which will not be described in detail here.

[0052] Another preferred embodiment of the invention is an OLED display device operating method. In this embodiment, the OLED display device has a function of de-burn-in. The OLED display device includes at least an OLED panel, a volatile memory and a non-volatile memory. Please refer to FIG. 7. FIG. 7 illustrates a flowchart of the OLED display device operating method in this embodiment.

[0053] As shown in FIG. 7, the OLED display device operating method can include the following steps:

[0054] Step S20 (power-on stage): generating a compensation value according to an accumulated current data from the OLED panel stored in the non-volatile memory and storing the compensation value in the volatile memory;

[0055] Step S22 (display stage): directly compensating the OLED panel according to the compensation value stored in the volatile memory; and

[0056] Step S24 (backup stage): obtaining an updated accumulated current data from the OLED panel and storing the updated accumulated current data in the non-volatile memory.

[0057] In practical applications, the method can further include but not limited to the following steps: obtaining the accumulated current data of the OLED panel in the first period and storing the accumulated current data in the non-volatile memory; obtaining the updated accumulated current data of the OLED panel in the second period, wherein the second period is later than the first period; adding the updated accumulated current data in the second period to the accumulated current data from the non-volatile memory in the first period to generate a sum and storing the sum in the non-volatile memory to replace the accumulated current data originally stored in the non-volatile memory; and calculating the compensation value according to the accumulated current data stored in the non-volatile memory and storing the compensation value in the volatile memory.

[0058] It should be noted that, as shown in FIG. 8, in Step S24 (backup stage), when the update and backup unit 63 obtains the updated accumulated current data D2 of the OLED panel 60, the method only needs to sample and calculate some sectors S to be updated in the non-volatile memory 62 for each frame F1-F7 displayed by the OLED panel 20, instead of calculating the updated accumulated current data of all positions, so its computing resources and power consumption can be greatly saved.

[0059] Next, please also refer to FIG. 9. FIG. 9 illustrates the on/idle states of the compensation unit 65 and the update and backup unit 63 in the OLED display device 6 at different stages.

[0060] As shown in FIG. 9, in Step S20 (power-on stage), when the compensation unit 65 calculates the compensation value V according to the accumulated current data D1 in the first period and stores the compensation value V in the volatile memory 61, the update and backup unit 63 is in an idle state. In Step S22 (display stage), when the compensation value V stored in the volatile memory 61 is used to compensate the OLED panel 60, the compensation unit 65 and the update and backup unit 63 are in the idle state. In Step S24 (backup stage), when the update and backup unit 63 obtains the updated accumulated current data D2 from the OLED panel 60 in the second period and stores the updated accumulated current data D2 in the non-volatile memory 62, the compensation unit 65 is in the idle state.

[0061] Compared to the prior art, the OLED display device and the OLED display device operating method proposed by the invention have the following advantages and effects:

[0062] (1) since the huge accumulated current data required to de-burn-in is stored in the non-volatile memory, so that the volatile memory only needs to store the compensation value for compensating the OLED panel, so the size of the required volatile memory and the read and write times can be significantly reduced;

[0063] (2) since its compensation unit only needs to be activated in the power-on stage and its update and backup units only need to be activated in the backup stage, both are idle in the display stage, thereby the overall power consumption can be effectively reduced; and

[0064] (3) since the update and backup unit only needs to sample and calculate some sectors to be updated in the non-volatile memory without calculating the updated accumulated current data of all locations, so its computing resources and power consumption can be greatly saved.

[0065] With the example and explanations above, the characteristics and spirits of the invention will be hopefully well described. Those skilled in the art will readily observe that numerous modifications and alterations of the device may be made while retaining the teaching of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.