Flexible Display Device with Divided Power Lines and Manufacturing Method for the Same

What is claimed is: 1 . A flexible display, comprising: a substantially flat portion; a bend portion that is curved away from a tangent plane of the substantially flat portion; and a wire trace having at least three different trace designs, in which a first trace design is applied to a portion of the wire trace in the substantially flat portion, a second trace design is applied to a portion of the wire trace in the bend portion, and a third trace design is applied to a portion of the wire trace between the wire trace portions of the first trace design and of the second trace design. 2 . The flexible display of claim 1 , wherein the second trace design is formed of a plurality of sub-traces that splits and merges at predetermined angles away from a tangent vector on the tangent plane. 3 . The flexible display of claim 2 , wherein the third wire trace design has a width that is greater than a width of the first trace design and widths of the sub-traces in the second trace design. 4 . The flexible display of claim 2 wherein the portion of the wire trace having the third trace design extends in an inclining or a declining direction from a first surface to a second surface. 5 . The flexible display of claim 4 , wherein the third trace design includes a reinforced portion at a step created between the first surface and the second surface. 6 . The flexible display of claim 4 , wherein the reinforced portion starts on the first surface and ends on the second surface. 7 . The flexible display of claim 4 , wherein the first surface is a surface of a first insulation layer positioned above a semiconductor layer of a thin-film-transistor (TFT) and the second surface is a surface of a second insulation layer positioned below the semiconductor layer of the TFT. 8 . The flexible display of claim 4 , wherein the first surface and the second surface are surfaces of insulation layers positioned below a semiconductor layer of a thin-film-transistor (TFT). 9 . The flexible display of claim 1 , further comprising a base layer; and an array of pixel circuits and a driving circuit on the base layer, wherein the wire trace is connected to the array of pixel circuits or the driving circuit. 10 . The flexible display of claim 9 , wherein the wire trace includes a portion having a strain-reducing trace design. 11 . The flexible display of claim 10 , wherein the the strain-reducing trace design is located on the base layer corresponding to the bend portion of the display apparatus. 12 . The flexible display of claim 11 , wherein one or more inorganic insulation layers disposed under and/or on the wire trace is patterned around the strain-reducing trace design. 13 . The flexible display of claim 10 , wherein the portion of the wire trace corresponding to the strain-reducing trace design includes an elongated recessed channel between a first grid part and a second grid part, which are in contact with each other. 14 . The flexible display of claim 13 , wherein each of the first grid part and the second grid part has a plurality of diamond-chain line traces that are arranged side-by-side and in contact to each other. 15 . The flexible display of claim 14 , wherein the elongated recessed channel extends in a direction substantially parallel to a bending direction. 16 . The flexible display of claim 15 , wherein the first grid part and the second grid part are connected to each other at one or both ends of the wire trace. 17 . The flexible display of claim 15 , wherein the portion of the wire trace corresponding to the strain-reducing trace design is on a bend allowance section, and wherein the first grid parts and the second grid parts are in contact to each other at outside the bend allowance section of the flexible display. 18 . The flexible display of claim 17 , wherein the portion of the wire trace corresponding to the strain-reducing trace design is covered by a micro coating layer. 19 . The flexible display of claim 18 , wherein the first grid part and the second grid part have the same size.