OLED PANEL TEMPERATURE COMPENSATION SYSTEM AND OLED PANEL TEMPERATURE COMPENSATION METHOD
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IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
G09G-003/3225
G01K-001/02
출원번호
16300051
(2018-09-20)
공개번호
20190378454
(2019-12-12)
우선권정보
CN-201810619412.1 (2018-06-11)
국제출원번호
PCT/CN2018/106613
(2018-09-20)
발명자
/ 주소
Jin, Yufeng
출원인 / 주소
Jin, Yufeng
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
The invention provides an OLED panel temperature compensation system and method. The system comprises an OLED panel and a processing module connected to the OLED panel, the OLED panel is disposed with a temperature sensor layer of a plurality of temperature sensors on one side or inside; when perfor
The invention provides an OLED panel temperature compensation system and method. The system comprises an OLED panel and a processing module connected to the OLED panel, the OLED panel is disposed with a temperature sensor layer of a plurality of temperature sensors on one side or inside; when performing temperature compensation, the temperature sensor detects the temperature of the location and transmits to the processing module, the processing module receives and processes the initial data signals of the plurality of sub-pixels to obtain the to-be-displayed brightness of the plurality of sub-pixels, and receives and processes the temperatures from the plurality of temperature sensors to obtain the temperatures of the plurality of sub-pixels, and generates and outputs compensation data signals corresponding to the plurality of sub-pixels according to the to-be-displayed brightness and temperature of the plurality of sub-pixels. The OLED panel is thus accurately and effectively compensated for temperature.
대표청구항▼
1. An organic light-emitting diode (OLED) panel temperature compensation system, comprising: an OLED panel and a processing module electrically connected to the OLED panel; the OLED panel comprising a plurality of sub-pixels arranged in an array, one side of the OLED panel being disposed with a temp
1. An organic light-emitting diode (OLED) panel temperature compensation system, comprising: an OLED panel and a processing module electrically connected to the OLED panel; the OLED panel comprising a plurality of sub-pixels arranged in an array, one side of the OLED panel being disposed with a temperature sensor layer; or inside of the OLED panel being disposed with a temperature sensor layer parallel to the side of the OLED panel;the temperature sensor layer comprising a plurality of temperature sensors disposed at intervals; each temperature sensor being electrically connected to the processing module;the temperature sensor being configured to detect a temperature of a location located therein and transmitting the temperature to the processing module;the processing module being configured to receive an initial data signal of a plurality of sub-pixels and process to obtain a to-be-displayed brightness of the plurality of sub-pixels; the processing module receiving the temperatures from the plurality of temperature sensors and processes the temperatures to obtain the temperatures of the plurality of sub-pixels, and the processing module generating and outputting the compensation data signals corresponding to the plurality of sub-pixels according to the to-be-displayed brightness of the plurality of sub-pixels and the temperatures of the plurality of sub-pixels. 2. The OLED panel temperature compensation system as claimed in claim 1, wherein the specific manner for the processing module to receive the temperatures at the location of the plurality of temperature sensors and processes to obtain the temperatures at the location where the plurality of sub-pixels are located is: setting one of the plurality of sub-pixels as a to-be-tested sub-pixel; the processing module receiving the temperatures at the locations of four temperature sensors adjacent to the to-be-tested sub-pixel, and calculating the temperature of the to-be-tested sub-pixel by bilinear interpolation. 3. The OLED panel temperature compensation system as claimed in claim 2, wherein the temperature sensor layer comprises a plurality of temperature sensors arranged in an array. 4. The OLED panel temperature compensation system as claimed in claim 3, wherein among the four temperature sensors in the 2×2 array adjacent to the to-be-tested sub-pixel, the temperature sensor at the first row first column, the temperature sensor at the first row second column, the temperature sensor at the second row first column, and the temperature sensor at the second row second column are defined as a first temperature sensor, a second temperature sensor, a third temperature sensor, and a fourth temperature sensor, respectively; the processing module obtains the temperatures of the first temperature sensor, the second temperature sensor, the third temperature sensor, and the fourth temperature sensor, and calculates the temperature of the to-be-tested sub-pixel according to a bilinear interpolation calculation formula; the bilinear interpolation calculation formula is as follows: T=[Y2*(T1*X2+T2*X1)+Y1*(T3*X2+T4*X1)]/[(X1+X2)*(Y1+Y2)];wherein T is the temperature of the to-be-tested sub-pixel, T1 is the temperature at the location of the first temperature sensor, T2 is the temperature at the location of the second temperature sensor, and T3 is the temperature at the location of the third temperature sense, T4 is the temperature at the location of the fourth temperature sensor; X1 is a horizontal distance between center of the to-be-tested sub-pixel and center of the first temperature sensor and the third temperature sensor, X2 is a horizontal distance between center of the to-be-tested sub-pixel and center of the second temperature sensor and the fourth temperature sensor, Y1 is a vertical distance between center of the to-be-tested sub-pixel and center of the first temperature sensor and the second temperature sensor, and Y2 is a vertical distance between center of the to-be-tested sub-pixel and center of the third temperature sensor and the fourth temperature sensor. 5. The OLED panel temperature compensation system as claimed in claim 2, wherein the temperature sensor layer comprises a plurality of rows of temperature sensors, and any adjacent four temperature sensors form a virtual parallelogram. 6. The OLED panel temperature compensation system as claimed in claim 5, wherein the four temperature sensors adjacent to the to-be-tested sub-pixel are defined as a first temperature sensor, a second temperature sensor, a third temperature sensor, and a fourth temperature sensor, respectively; a line connecting center of the first temperature sensor and center of the second temperature sensor is parallel to a line connecting center of the third temperature sensor and center of the fourth temperature sensor; a line connecting the center of the first temperature sensor and the center of the third temperature sensor is parallel to a line connecting the center of the second temperature sensor and the center of the fourth temperature sensor; the processing module obtains the temperatures of the first temperature sensor, the second temperature sensor, the third temperature sensor, and the fourth temperature sensor, and calculates the temperature of the to-be-tested sub-pixel according to a bilinear interpolation calculation formula; the bilinear interpolation calculation formula is as follows: T′=[Y2′*(T1′*X2′+T2′*X1′)+Y1′*(T3′*X2′+T4′*X1′)]/[(X1′+X2′)*(Y1′+Y2′)];wherein T′ is the temperature of the to-be-tested sub-pixel, T1′ is the temperature at the location of the first temperature sensor, T2′ is the temperature at the location of the second temperature sensor, and T3′ is the temperature at the location of the third temperature sense, T4′ is the temperature at the location of the fourth temperature sensor; X1′ is a distance between the line connecting the center of the first temperature sensor and the center of the third temperature sensor and center of the to-be-tested sub-pixel in a direction parallel to the line connecting the center of the first temperature sensor and the center of the second temperature center, X2′ is a distance between the line connecting the center of the second temperature sensor and the center of the fourth temperature sensor and the center of the to-be-tested sub-pixel in a direction parallel to the line connecting the center of the first temperature sensor and the center of the second temperature center, Y1′ is a distance between the line connecting the center of the first temperature sensor and the center of the second temperature sensor and center of the to-be-tested sub-pixel in a direction parallel to the line connecting the center of the first temperature sensor and the center of the third temperature center, and Y2′ is a distance between the line connecting the center of the third temperature sensor and the center of the fourth temperature sensor and center of the to-be-tested sub-pixel in a direction parallel to the line connecting the center of the first temperature sensor and the center of the third temperature center. 7. The OLED panel temperature compensation system as claimed in claim 1, wherein the distance between adjacent temperature sensors is 3 cm-5 cm. 8. The OLED panel temperature compensation system as claimed in claim 1, wherein the specific manner for the processing module to generate a compensation data signal corresponding to the plurality of sub-pixels according to the to-be-displayed brightness of the plurality of sub-pixels and the temperatures of the plurality of sub-pixels is: according to the to-be-displayed brightness of the plurality of sub-pixels, the temperatures of the plurality of sub-pixels, and the default reference data table of relation among the voltage difference between the compensation data voltages corresponding respectively to the plurality of sub-pixels and the threshold voltage of the of driving thin film transistor (TFT), temperature and display brightness, the processing module obtains the voltage difference between the compensation data voltages of corresponding plurality of sub-pixels and the threshold voltage of the driving TFT, and calculate a sum of the voltage difference between the compensation data voltages and threshold voltage and the default threshold voltages of the driving TFT of the plurality of sub-pixels respectively to obtain the compensation data voltages of the plurality of sub-pixels; according to the compensation data voltages of the plurality of sub-pixels, the processing module generates the corresponding compensation data signals of the plurality of sub-pixels. 9. The OLED panel temperature compensation system as claimed in claim 8, wherein the reference data table corresponding to each sub-pixel comprises a plurality of sequentially increasing voltage difference node values between the compensation data voltages and the driving TFT threshold voltage, a plurality of sequentially increasing temperature node values, and a plurality of display brightness node values; one display brightness node value corresponds to a combination of one voltage difference node value between the compensation data voltage and the driving TFT threshold voltage and one temperature node value; when the temperature of the sub-pixel and a corresponding temperature node value in the reference data table are equal, the to-be-displayed brightness of the sub-pixel is equal to a display brightness node value in the corresponding reference data table; and when a combination of the temperature of the sub-pixel and a voltage difference node value between the compensation data voltage and the driving TFT threshold voltage in the corresponding reference data voltage corresponds to the to-be-displayed brightness of the sub-pixel, the voltage difference node value between the compensation data voltage of the to-be-displayed brightness of the sub-pixel and the driving TFT threshold voltage corresponding to the combination with the temperature of the sub-pixel is used as the voltage difference between the compensation data voltage of the sub-pixel and the driving TFT threshold voltage; otherwise, the processing modules uses the reference data table, the to-be-displayed brightness of the sub-pixel, the temperature of the sub-pixel to obtain the voltage difference between the compensation data voltage of the sub-pixel and the driving TFT threshold voltage by interpolation. 10. An organic light-emitting diode (OLED) panel temperature compensation method, applicable to the OLED panel temperature compensation system as claimed in claim 1, comprising the steps of: Step S1: the temperature sensors sensing temperatures at locations where the temperature sensors being located therein, and transmitting to the processing module;Step S2: the processing module receiving and processing the initial data signals of the plurality of sub-pixels to obtain the to-be-displayed brightness of the plurality of sub-pixels, and the processing module receiving and processing the temperatures from the plurality of temperature sensors to obtain the temperatures of the plurality of sub-pixels, the processing module generating and outputting compensation data signals corresponding to the plurality of sub-pixels according to the to-be-displayed brightness of the plurality of sub-pixels and the temperature of the plurality of sub-pixels.
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