Patent ID: 7450207
Filing Date: 2008-11-11
Classification: G02F

Abstract:
1. A liquid crystal display device, comprising: a first substrate, a second substrate and a liquid crystal layer interposed between the first substrate and the second substrate, wherein: a picture element region comprises a first electrode provided on one side of the first substrate which is closer to the liquid crystal layer and a second electrode provided on the second substrate so as to oppose the first electrode via the liquid crystal layer; the liquid crystal layer is a vertical alignment type liquid crystal layer containing a liquid crystal material having a negative dielectric anisotropy; and the picture element region includes at least one orientation-regulating region, the orientation-regulating region including a first region in which an electric field applied across the liquid crystal layer by the first electrode and the second electrode has a first electric field strength, a second region in which the electric field has a second electric field strength which is smaller than the first electric field strength, and a third region in which the electric field has a third electric field strength which is smaller than the second electric field strength, wherein the first, second and third regions are arranged in this order in a predetermined direction; wherein a boundary between the first region and the second region, and a boundary between the second region and the third region, are each oriented so as to each extend substantially only in a single direction which is perpendicular to the predetermined direction; wherein the display includes a plurality of the picture element regions including respective ones of the first electrodes arranged in a matrix having row and column directions, and wherein both the predetermined direction and the single direction are angled relative to the column direction; a third electrode in the pixel element region, the first electrode being provided on one side of the first substrate which is closer to the liquid crystal layer than said third electrode; wherein in said second region the electric field is applied across the liquid crystal layer by said third electrode and the second electrode and has a second electric field strength which is smaller than the first electric field strength, and wherein in the third region the electric field applied across the liquid crystal layer by at least a slit and/or aperture region of the third electrode and the second electrode has a third electric field strength which is smaller than the second electric field strength.