Electrode assembly and manufacturing method thereof

What is claimed is: 1. An electrode assembly, comprising: at least one first unit cell obtained by stacking a first electrode, a separator, a second electrode, a separator and a first electrode one by one; and at least one second unit cell obtained by stacking a second electrode, a separator, a first electrode, a separator and a second electrode one by one, the first unit cell and the second unit cell being alternately and repeatedly disposed between a separator sheet folded in zigzags, wherein a plurality of the first unit cells is prepared and is divided into at least two groups having different sizes, and a plurality of the second unit cells is prepared and is divided into at least two groups having different sizes, and the separator sheet has different folded lengths in zigzags according to the size of the first unit cell and the size of the second unit cell. 2. The electrode assembly of claim 1 , wherein the first unit cell and the second unit cell have a combined structure of the electrode and the separator into one body by heat and pressure. 3. The electrode assembly of claim 1 , wherein heat and pressure are applied to the electrode assembly. 4. The electrode assembly of claim 1 , wherein an active material is coated only on one side of the first electrode or the second electrode, facing an inner portion of the electrode assembly, the first electrode and the second electrode being disposed respectively at the outermost portions of both terminal portions of the electrode assembly. 5. The electrode assembly of claim 1 , wherein the first unit cell further comprises at least one first additional unit cell obtained by stacking a separator, a second electrode, a separator and a first electrode, and the second unit cell further comprises at least one second additional unit cell obtained by stacking a separator, a first electrode, a separator and a second electrode. 6. The electrode assembly of claim 1 , wherein the first unit cell and the second unit cell are alternately disposed according to the size with the separator sheet therebetween. 7. The electrode assembly of claim 6 , wherein the electrode assembly has a step shape. 8. The electrode assembly of claim 1 , wherein at least one of the plurality of the first unit cells further comprises a first additional unit cell obtained by stacking a separator, a second electrode, a separator and a first electrode, at least one of the plurality of the second unit cells further comprises a second additional unit cell obtained by stacking a separator, a first electrode, a separator and a second electrode, and the separator sheet has different folded heights in zigzags according to the height of the first unit cell and the height of the second unit cell. 9. The electrode assembly of claim 8 , wherein the first unit cell and the second unit cell are alternately disposed according to the height with the separator sheet therebetween. 10. A manufacturing method of an electrode assembly, the method comprising: forming at least one first unit cell obtained by stacking a first electrode, a separator, a second electrode, a separator and a first electrode one by one; forming at least one second unit cell obtained by stacking a second electrode, a separator, a first electrode, a separator and a second electrode one by one; and forming the electrode assembly by alternately and repeatedly disposing the first unit cell and the second unit cell between a separator sheet folded in zigzags, wherein a plurality of the first unit cells is prepared and is divided into at least two groups having different sizes, and a plurality of the second unit cells is prepared and is divided into at least two groups having different sizes, and the separator sheet has different folded lengths in zigzags according to the size of the first unit cell and the size of the second unit cell. 11. The manufacturing method of an electrode assembly of claim 10 , wherein the forming of the electrode assembly comprises: disposing at least one of the first unit cells with a certain distance on one side of the separator sheet, and disposing at least one of the second unit cells with the certain distance on the other side of the separator sheet, the second unit cell being positioned between the first unit cells; and folding the separator sheet in zigzags. 12. The manufacturing method of an electrode assembly of claim 10 , wherein the forming of the electrode assembly comprises: disposing at least one of the first unit cells with a certain distance on one side of the separator sheet, and disposing at least one of the second unit cells with the certain distance on the other side of the separator sheet, the second unit cell being positioned at the same position as the first unit cell; and folding the separator sheet in zigzags. 13. The manufacturing method of an electrode assembly of claim 10 , further comprising pressurizing and compressing both folded portions of the separator sheet. 14. The manufacturing method of an electrode assembly of claim 13 , wherein the first unit cell and the second unit cell are alternately disposed according to the size with the separator sheet therebetween. 15. The manufacturing method of an electrode assembly of claim 14 , wherein the electrode assembly manufactured by the manufacturing method of the electrode assembly has a step shape. 16. The manufacturing method of an electrode assembly of claim 10 , wherein at least one of the plurality of the first unit cells further comprises a first additional unit cell obtained by stacking a separator, a second electrode, a separator and a first electrode, at least one of the plurality of the second unit cells further comprises a second additional unit cell obtained by stacking a separator, a first electrode, a separator and a second electrode, and folded heights of the separator sheet in zigzags are different according to the height of the first unit cell and the height of the second unit cell in the forming of the electrode assembly. 17. The manufacturing method of an electrode assembly of claim 16 , wherein the first unit cell and the second unit cell are alternately disposed according to the height with the separator sheet therebetween.