Transflective liquid crystal display and method of fabricating the same
First Claim
Patent Images
1. A transflective liquid crystal display, comprising:
- upper and lower substrates facing into and spaced apart from each other, wherein the upper and lower substrates include a plurality of pixel regions that display images;
an upper quarter wave plate (QWP) on the upper substrate;
an upper polarizer on the upper quarter wave plate;
a lower quarter wave plate (QWP) below the lower substrate;
a lower polarizer below the lower quarter wave plate;
a backlight device arranged to be adjacent to the lower polarizer;
a liquid crystal layer interposed between the upper and lower substrates;
a transparent common electrode on a surface of the upper substrate facing into the lower substrate;
an upper alignment layer between the transparent common electrode and the liquid crystal layer;
a pixel electrode over the lower substrate, wherein the pixel electrode corresponds to each pixel region, and the pixel electrode is divided into transparent and reflective portions; and
a lower alignment layer between the pixel electrode and the liquid crystal layer;
wherein a transmissive axis of the upper polarizer is perpendicular to a transmissive axis of the lower polarizer, a slow axis of the upper QWP is perpendicular to a slow axis of the lower QWP, the slow axis of the upper QWP forms an angle of 45°
with the transmissive axis of the upper polarizer, an optical retardation of the upper QWP is λ
/4+α
, and an optical retardation of the liquid crystal layer is λ
/4+α
in the reflective portion so that the upper QWP has the same optical retardation as the liquid crystal layer in the reflective portion, ranges from zero to 100 nm, and the slow axis of the lower QWP is parallel to an orientation direction of the liquid crystal display layer, andwherein the liquid crystal layer has an adjusted thickness, and wherein the adjusted thickness is d+d1, where d is a normal thickness of the liquid crystal layer and d1 is calculated using the following equation,
1 Assignment
0 Petitions
Accused Products
Abstract
The invention relates to a transflective liquid crystal display device that has a high contrast ratio. The transflective liquid crystal panel includes a homogeneous liquid crystal such that the transflective liquid crystal display device will have an optical retardation when the voltage is applied. Therefore, in order to compensate the optical retardation caused by this liquid crystal, a thickness of the liquid crystal layer is adjusted. Moreover, a thickness of the retardation film is also adjusted. Accordingly, the complete dark state and the high contrast ratio are achieved in the liquid crystal display.
4 Citations
3 Claims
-
1. A transflective liquid crystal display, comprising:
-
upper and lower substrates facing into and spaced apart from each other, wherein the upper and lower substrates include a plurality of pixel regions that display images; an upper quarter wave plate (QWP) on the upper substrate; an upper polarizer on the upper quarter wave plate; a lower quarter wave plate (QWP) below the lower substrate; a lower polarizer below the lower quarter wave plate; a backlight device arranged to be adjacent to the lower polarizer; a liquid crystal layer interposed between the upper and lower substrates; a transparent common electrode on a surface of the upper substrate facing into the lower substrate; an upper alignment layer between the transparent common electrode and the liquid crystal layer; a pixel electrode over the lower substrate, wherein the pixel electrode corresponds to each pixel region, and the pixel electrode is divided into transparent and reflective portions; and a lower alignment layer between the pixel electrode and the liquid crystal layer; wherein a transmissive axis of the upper polarizer is perpendicular to a transmissive axis of the lower polarizer, a slow axis of the upper QWP is perpendicular to a slow axis of the lower QWP, the slow axis of the upper QWP forms an angle of 45°
with the transmissive axis of the upper polarizer, an optical retardation of the upper QWP is λ
/4+α
, and an optical retardation of the liquid crystal layer is λ
/4+α
in the reflective portion so that the upper QWP has the same optical retardation as the liquid crystal layer in the reflective portion, ranges from zero to 100 nm, and the slow axis of the lower QWP is parallel to an orientation direction of the liquid crystal display layer, andwherein the liquid crystal layer has an adjusted thickness, and wherein the adjusted thickness is d+d1, where d is a normal thickness of the liquid crystal layer and d1 is calculated using the following equation, - View Dependent Claims (2, 3)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeLG Display Co., Ltd.
-
Original AssigneeLG Display Co., Ltd.
-
InventorsBaek, Heum-Il
-
Primary Examiner(s)Nguyen; Dung T.
-
Application NumberUS11/136,415Publication NumberTime in Patent Office1,574 DaysField of Search349113-114, 349117-119, 349 96-103US Class Current349/114CPC Class CodesG02F 1/133555 TransflectorsG02F 1/13363 Birefringent elements, e.g....G02F 1/133631 with a spatial distribution...G02F 1/133638 Waveplates, i.e. plates wit...G02F 2413/04 Number of plates greater th...G02F 2413/08 with a particular optical a...
