Apparatus and method for coating electrode active material slurry

What is claimed is: 1. A method of coating electrode active material slurry such that the active material slurry is coated, by using a coating die, on a coating area of an electrode current collector continuously transferred in a predetermined process direction at a constant, predetermined moving speed, the method comprising: (a) a coating start process in which, while the coating die stands by at a predetermined coating start position, when a balcony region of the coating area, on which coating of the active material slurry begins, reaches the coating start position and the electrode current collector is moving in the process direction at the moving speed, the coating die coats the active material slurry on the balcony region while moving from the coating start position to a main coating position that is spaced apart from the coating start position by a predetermined distance in an opposite direction to the process direction; (b) a main coating process in which, when the coating die reaches the main coating position and the electrode current collector is moving in the process direction at the moving speed, the coating die coats the active material slurry on a main coating region of the coating area while stopped, the main coating region located between the balcony region and a drag region of the coating area, on which coating of the active material slurry is terminated; and (c) a coating end process in which, when the drag region reaches the main coating position and the electrode current collector is moving in the process direction at the moving speed, the coating die coats the active material slurry on the drag region while moving from the main coating position to a coating end position that is spaced apart from the main coating position by a predetermined distance in the process direction. 2. The method according to claim 1 , wherein, in the operation (a), the coating die is moved in the opposite direction at a speed equal to a moving speed of the electrode current collector. 3. The method according to claim 1 , wherein, in the operation (c), the coating die is moved in the process direction at a speed equal to a moving speed of the electrode current collector. 4. The method according to claim 1 , wherein the coating start position and the coating end position are a same position. 5. The method according to claim 1 , wherein, during the coating start process, the coating die coats the active material slurry on the balcony region while the electrode current collector moves at a first relative speed with respect to the coating die; during the main coating process, the coating die coats the active material slurry on the main coating region while the electrode current collector moves at a second relative speed with respect to the coating die; and, curing the coating end process, the coating die coats the active material slurry on the drag region while the electrode current collector moves at a third relative speed with respect to the coating die; and wherein the first relative speed is larger than the second relative speed, and the second relative speed is larger than the third relative speed. 6. A method of coating electrode active material slurry such that the active material slurry is coated, by using a coating die, on a coating area of an electrode current collector continuously transferred in a predetermined process direction, the method comprising: (a) a coating start process in which, while the coating die stands by at a predetermined coating start position, when a balcony region of the coating area, on which coating of the active material slurry begins, reaches the coating start position, the coating die coats the active material slurry on the balcony region while moving from the coating start position to a main coating position that is spaced apart from the coating start position by a predetermined distance in an opposite direction to the process direction, such that the coating die coats the active material slurry on the balcony region while the electrode current collector moves at a first relative speed with respect to the coating die; and (b) a main coating process in which, when the coating die reaches the main coating position, the coating die coats the active material slurry on a main coating region of the coating area while stopped, such that the coating die coats the active material slurry on the main coating region while the electrode current collector moves at a second relative speed with respect to the coating die, wherein the main coating region is located between the balcony region and a drag region of the coating area, on which coating of the active material slurry is terminated; wherein the first relative speed is larger than the second relative speed. 7. The method according to claim 6 , wherein, in the operation (a), the coating die is moved in the opposite direction at a speed equal to a moving speed of the electrode current collector. 8. A method of coating electrode active material slurry such that the active material slurry is coated, by using a coating die, on a coating area of an electrode current collector continuously transferred in a predetermined process direction, the method comprising: (a) a main coating process in which, when the coating die reaches the main coating position, the coating die coats the active material slurry on a main coating region of the coating area while stopped, such that the coating die coats the active material slurry on the main coating region while the electrode current collector moves at a first relative speed with respect to the coating die, wherein the main coating region is located between the balcony region and a drag region of the coating area, on which coating of the active material slurry is terminated; and (b) a coating end process in which, when the drag region reaches the main coating position, the coating die coats the active material slurry on the drag region while moving from the main coating position to a coating end position that is spaced apart from the main coating position by a predetermined distance in the process direction, such that the coating die coats the active material slurry on the drag region while the electrode current collector moves at a second relative speed with respect to the coating die; wherein the first relative speed is larger than the second relative speed. 9. The method according to claim 8 , wherein, in the operation (b), the coating die is moved in the process direction at a speed equal to a moving speed of the electrode current collector.