Magnetic Member and Wireless Power Transmission Device Comprising Same

1 . A magnetic member comprising: a cross section provided with a first width x of a first direction and a second width y of a second direction perpendicular to the first direction; and a thickness z which extends from the cross section, wherein a ratio of an area of the cross section to the thickness z is in the range of 1:(0.0002˜1), wherein the first width x is defined as the longest line segment of the cross section in a horizontal direction, and the second width y is defined as the longest line segment in a perpendicular direction to the first width. 2 . The magnetic member of claim 1 , wherein a volume of the magnetic member satisfies the range of 10 3 mm 3 to 10 12 mm 3 . 3 . The magnetic member of claim 1 , wherein the magnetic member is a structure of single layered sheet. 4 . The magnetic member of claim 1 , wherein the magnetic member is a stacked layer structure including at least two or more unit sheets. 5 . The magnetic member of claim 4 , further comprising an insulating material layer adjacent to the unit sheet. 6 . The magnetic member of claim 4 , wherein a thickness of the unit sheet is in the range of 18 um to 200 um. 7 . The magnetic member of claim 4 , wherein the unit sheet is formed of a composite material of a polymer and a metallic-alloy based magnetic powder formed of one element or a combination of two or more elements selected from Fe, Ni, Co, Mo, Si, Al, and B. 8 . The magnetic member of claim 4 , wherein the unit sheet includes a metallic-alloy based magnetic ribbon. 9 . The magnetic member of claim 4 , wherein the unit sheet includes a composite material of a polymer and a ferrite based powder formed of a combination of two or more elements selected from Fe, Ni, Mn, Zn, Co, Cu, Ca, and O, or a sintered ferrite. 10 . A magnetic member comprising: a soft magnetic layer which includes a cross section provided with a first width x of a first direction, a second width y of a second direction perpendicular to the first direction, a thickness z which extends from the cross section, and an opening in the thickness z direction; and a coil pattern on the soft magnetic layer, wherein the soft magnetic layer includes an area which corresponds to the coil pattern, and an area which extends from the area which corresponds to the coil pattern. 11 . The magnetic member of claim 1 , wherein the soft magnetic layer occupies in the range of 25% to 50% of an entire area of the magnetic member including the opening. 12 . The magnetic member of claim 11 , wherein the soft magnetic layer is a combined structure of a plurality of separated magnetic structures. 13 . The magnetic member of claim 10 , further comprising an insulating material layer disposed between the coil pattern and the soft magnetic layer. 14 . The magnetic member of claim 13 , wherein the insulating material layer is a stacked structure including at least two or more layers. 15 . The magnetic member of claim 14 , wherein the insulating material layer includes shielding layers which cover one side and the other side of the soft magnetic layer. 16 . The magnetic member of claim 10 , wherein the soft magnetic layer is formed of a ferrite which includes at least any one of Fe, Ni, Co, Mn, Al, Zn, Cu, Ba, Ti, Sn, Sr, P, B, N, C, W, Cr, Bi, Li, Y, and Cd. 17 . The magnetic member of claim 10 , wherein the soft magnetic layer has a relative permeability in the range of 50 to 200. 18 . The magnetic member of claim 10 , further comprising a second soft magnetic layer disposed at the opening. 19 . The magnetic member of claim 10 , wherein a permeability of the soft magnetic layer is different from that of the second soft magnetic layer. 20 . A wireless power transmission device comprising the magnetic member of claim 1 . 21 . A wireless power transmission device comprising the magnetic member of claim 10 .