液晶与显示
液晶與顯示
액정여현시
CHINESE JOURNAL OF LIQUID CRYSTALS AND DISPLAYS
2014年
6期
916-921
,共6页
占红明%徐征%董学%陈明%金雄%布占场%邵喜斌%李成圭
佔紅明%徐徵%董學%陳明%金雄%佈佔場%邵喜斌%李成圭
점홍명%서정%동학%진명%금웅%포점장%소희빈%리성규
色差%液晶显示%层厚%灰阶
色差%液晶顯示%層厚%灰階
색차%액정현시%층후%회계
chromatic aberration%liquid crystal display%cell gap%gray scale
为了改善彩色液晶显示器件的色差,提升画面品质,针对(128,192,192)灰阶图形下色差的问题,对色差产生的机理进行了分析.模拟了 RGB 三色像素透过率对该图形下色差的影响.通过分别调整 RGB 彩膜膜厚,不仅相对调整了三色像素下的液晶盒层厚,而且还调整了三色像素的透过率,改善了 RGB 的 Gamma 曲线,对色差进行了补偿优化.实验结果表明,增加 G 像素和减小 B 像素的液晶盒层厚,对色差有明显补偿改善效果;同时,当 RGB 膜厚保持不变时,色差与液晶层厚呈正比关系,液晶层厚每减小1%时,色差约降低0.2.当 RGB 三色液晶盒层厚从(3.47,3.38,3.4)μm 分别调整到(3.5,3.45,3.36)μm 和(3.5,3.44,3.28)μm 时,(128,192,192)灰阶图形下样品色差平均值从13.8分别降低到12.8和12.通过分别调整 RGB 彩膜膜厚,相对调整了三色像素下的液晶层盒厚和液晶量调节,可以一定程度优化补偿色差.
為瞭改善綵色液晶顯示器件的色差,提升畫麵品質,針對(128,192,192)灰階圖形下色差的問題,對色差產生的機理進行瞭分析.模擬瞭 RGB 三色像素透過率對該圖形下色差的影響.通過分彆調整 RGB 綵膜膜厚,不僅相對調整瞭三色像素下的液晶盒層厚,而且還調整瞭三色像素的透過率,改善瞭 RGB 的 Gamma 麯線,對色差進行瞭補償優化.實驗結果錶明,增加 G 像素和減小 B 像素的液晶盒層厚,對色差有明顯補償改善效果;同時,噹 RGB 膜厚保持不變時,色差與液晶層厚呈正比關繫,液晶層厚每減小1%時,色差約降低0.2.噹 RGB 三色液晶盒層厚從(3.47,3.38,3.4)μm 分彆調整到(3.5,3.45,3.36)μm 和(3.5,3.44,3.28)μm 時,(128,192,192)灰階圖形下樣品色差平均值從13.8分彆降低到12.8和12.通過分彆調整 RGB 綵膜膜厚,相對調整瞭三色像素下的液晶層盒厚和液晶量調節,可以一定程度優化補償色差.
위료개선채색액정현시기건적색차,제승화면품질,침대(128,192,192)회계도형하색차적문제,대색차산생적궤리진행료분석.모의료 RGB 삼색상소투과솔대해도형하색차적영향.통과분별조정 RGB 채막막후,불부상대조정료삼색상소하적액정합층후,이차환조정료삼색상소적투과솔,개선료 RGB 적 Gamma 곡선,대색차진행료보상우화.실험결과표명,증가 G 상소화감소 B 상소적액정합층후,대색차유명현보상개선효과;동시,당 RGB 막후보지불변시,색차여액정층후정정비관계,액정층후매감소1%시,색차약강저0.2.당 RGB 삼색액정합층후종(3.47,3.38,3.4)μm 분별조정도(3.5,3.45,3.36)μm 화(3.5,3.44,3.28)μm 시,(128,192,192)회계도형하양품색차평균치종13.8분별강저도12.8화12.통과분별조정 RGB 채막막후,상대조정료삼색상소하적액정층합후화액정량조절,가이일정정도우화보상색차.
In order to improve the chromatic aberration in color LCD device and enhance the display quality,the effect of RGB transmittance on chromatic aberration was simulated for a particular pattern of (128,1 92,1 92)gray scale.By respectively adjusting the thickness of RGB film,not only the rela-tive cell gap of RGB was tuned,but also the transmittance of RGB was adjusted to improve RGB gamma curves,and chromatic aberration was compensated and optimized.Experimental results show that the increase of G and the decrease of B in cell gap,can obviously improve chromatic aberration. Meanwhile,when the thickness of RGB keeps no change,chromatic aberration is proportional to cell gap of liquid crystal.Cell gap reduces by 1%,chromatic aberration correspondently decreases about 0.2.When the cell gap of RGB changed from (3.47,3.38,3.4)μm to (3.5,3.45,3.36)μm and (3.5, 3.44,3.28)μm,the average chromatic aberration of sample was reduced from 13.8 to 12.8 and 12 in the pattern,respectively.Thus,chromatic aberration can be compensated by separately adjusting the relative thickness and cell gap of RGB.