Affiliation:
1. BOE Technology Group Co., Ltd. Research Institute of IoT and AI No. 9 Dize Rd, BDA Beijing China
Abstract
COG (Chip On Class) based MLED (Mini‐LED) Splicing Screen has an advantage of ultra low current, but suffers the problem that its red light luminescent efficiency is drastically hindered by high temperature of screen. MLED splicing screen consists of multiple display panels, the display panel sticks partially to its background frame with margin. As a result, the speed of heat diffusion difference between the panel margin area and the central area results in grid pattern image sticking. The central area looks cyan because it has a higher temperature, but the margin area looks white because of its lower temperature. To prevent grid image sticking problem and improve the visual quality of splicing screen, we propose a novel method to dynamically estimate the compensation ratio for red channel and apply this compensation ratio to acquire chroma uniformity. Our method is implemented in FPGA to achieve realtime performance. Experimental results validate the effectiveness of the proposed method.
Reference9 articles.
1. P‐47: Improvement of Image Sticking for High Standard Automotive Application
2. 53-4: New Analysis Method of Image Sticking of LCD
3. Evaluation and improvement of image sticking in In-plane switching liquid crystal display;Liu N;Journal of Physics D: Applied Physics,2020
4. Flexoelectric Effect on Image Sticking Caused by Residual Direct Current Voltage and Flicker Phenomenon in Fringe-Field Switching Mode Liquid Crystal Display;Inoue D;IEICE Transactions on Electronics,2020
5. P‐177: Study of AMOLED short‐term image sticking mechanism and improvement