Jelly-roll type battery unit and winding method thereof and lithium secondary battery comprising the same

What is claimed is: 1. A battery unit comprising: a first electrode plate having a first electrode current collector with a first electrode tab, and a first electrode active material layer coated on at least one surface of the first electrode current collector; a second electrode plate having a second electrode current collector with a second electrode tab, and a second electrode active material layer coated on at least one surface of the second electrode current collector; a separator that is interposed between the first electrode plate and the second electrode plate; and an insulating tape adhered to inner and outer surfaces of the first electrode tab, wherein, the first electrode tab is formed by folding a cut portion of an uncoated area of the first electrode current collector toward an upper edge thereof, the cut portion is defined by a portion of a lower edge of the first electrode current collector, a portion of a side edge of the first electrode current collector that extends from the lower edge, a cut that begins at the lower edge and extends along more than half of a width of the first electrode current collector, and a fold extending from the side edge to the cut, the insulating tape comprises a cut tape portion and a straight tape portion, the cut tape portion is between the first electrode tab and the first electrode current collector and is folded with the cut portion, and the first electrode tab extends past the upper edge of the first electrode current collector, is disposed at substantially the center of the battery unit, at an innermost layer of the battery unit, and partially overlaps and faces the second electrode tab. 2. The battery unit of claim 1 , wherein the first electrode tab is disposed at a winding start portion of the first electrode current collector. 3. The battery unit of claim 2 , wherein the first electrode tab prevents deformation of the battery unit. 4. The battery unit of claim 2 , wherein material cost of the battery unit is minimized by forming the cut portion in the winding start portion and folding upward to form the first electrode tab. 5. The battery unit of claim 2 , wherein the first electrode tab provides for a lower internal resistance, as compared to an electrode tab made of a different metal than a corresponding electrode current collector. 6. The battery unit of claim 1 , wherein the second electrode tab is disposed at a winding completion portion of the first electrode current collector. 7. A method of winding a battery unit comprising: forming a first electrode plate having a first electrode current collector with a first electrode tab formed at a winding start portion of the first electrode current collector, wherein the first electrode tab is formed by folding a cut portion of the first electrode current collector toward an upper edge thereof, and the cut portion is defined by a portion of a lower edge of the first electrode current collector, a portion of a side edge of the first electrode current collector that extends from the lower edge, a cut that begins at the lower edge and extends along more than half of the width of the first electrode current collector, and a fold extending from the side edge to the cut; forming a second electrode plate having a second electrode current collector with a second electrode tab attached thereto; preparing a separator interposed between the first and second electrode plates; winding the first and second electrode plates together, with the separator interposed therebetween; and adhering an insulating tape to inner and outer surfaces of the first electrode current collector, wherein the insulating tape comprises a cut tape portion and a straight tape portion wherein the cut tape portion is between the first electrode tab and the first electrode current collector and is folded with the cut portion, wherein the first electrode tab extends past the upper edge of the first electrode current collector, is disposed at substantially the center of the battery unit, on an innermost layer of the battery unit, and partially overlaps and faces the second electrode tab. 8. A lithium secondary battery comprising: a battery unit having a first electrode plate having a first electrode tab, an insulating tape adhered to inner and outer surfaces of the first electrode tab, a separator and a second electrode plate of an opposite polarity to the first electrode plate, the second electrode plate having a second electrode tab, sequentially disposed; a can having a space in which the battery unit is housed; and a cap assembly connected to an upper portion of the can, and having a cap plate and an electrode terminal connected to the cap plate through a terminal throughhole formed in the cap plate and having a gasket at an outer surface for insulation from the cap plate, wherein, the first electrode plate includes a first electrode current collector having the first electrode tab formed by folding a cut portion of the first electrode current collector toward an upper edge thereof, and a first electrode active material coated on at least one plane of the first electrode current collector, the cut portion being defined by a portion of a lower edge of the first electrode current collector, a portion of a side edge of the first electrode current collector that extends from the lower edge, a cut that begins at the lower edge and extends along more than half of a width of the first electrode current collector, and a fold extending from the side edge to the cut, and the insulating tape comprises a cut tape portion and a straight tape portion wherein the cut tape portion is between the first electrode tab and the first electrode current collector and is folded with the cut portion, and the second electrode plate includes a second electrode current collector with a second electrode tab attached thereto, and a second electrode active material coated on at least one plane of the second electrode current collector, and the first electrode tab extends past the upper edge of the first electrode current collector, is disposed at substantially the center of the battery unit, on an innermost layer of the battery unit, and partially overlaps and faces the second electrode tab. 9. The battery unit of claim 8 , further including a plurality of insulating tapes attached to both surfaces of the first electrode current collector, to prevent an electrical short-circuit between the first and second electrode plates. 10. The battery unit of claim 9 , wherein the plurality of insulating tapes are attached to both surfaces of the first electrode tab, to prevent electrical short-circuit due to burring of the first electrode tab. 11. A battery unit, comprising: a first tri-functional electrode unit comprising a first electrode plate having a first electrode current collector with a first electrode tab, an insulating tape adhered to inner and outer surfaces of the first electrode tab, and a first electrode active material layer coated on at least one surface of the first electrode current collector; a second tri-functional electrode unit comprising a second electrode plate having a second electrode current collector with a second electrode tab, and a second electrode active material layer coated on at least one surface of the second electrode current collector; and a separator interposed between the first tri-functional electrode unit and the second tri-functional electrode unit, wherein, the separator is interposed between the first electrode plate and the second electrode plate, the first tri-functional electrode unit and the second tri-functional electrode unit are wound, with the separator therebetween, to form the battery unit, the fi