Battery management apparatus, battery management method, battery pack and electric vehicle

What is claimed is: 1. A battery management apparatus comprising: a sensing unit configured to detect a voltage and a current of a battery, and configured to output a sensing signal indicating the detected voltage and the detected current; and a control unit operably coupled to the sensing unit, wherein the control unit is configured to: determine a first differential capacity curve based on a first voltage history and a first capacity history of the battery acquired for a first period during which the battery is charged with a first constant current, determine a second differential capacity curve based on a second voltage history and a second capacity history of the battery acquired for a second period during which the battery is discharged with the first constant current, determine a third differential capacity curve based on a third voltage history and a third capacity history of the battery acquired for a third period during which the battery is charged with a second constant current that is different from the first constant current, determine a fourth differential capacity curve based on a fourth voltage history and a fourth capacity history of the battery acquired for a fourth period during which the battery is discharged with the second constant current, detect a first charge feature point from the first differential capacity curve, detect a first discharge feature point from the second differential capacity curve, detect a second charge feature point from the third differential capacity curve, detect a second discharge feature point from the fourth differential capacity curve, and determine degradation information of the battery based on first and second charge feature values and first and second discharge feature values, wherein the first and second charge feature values are voltage values of the first and second charge feature points, respectively, and the first and second discharge feature values are voltage values of the first and second discharge feature points, respectively. 2. The battery management apparatus according to claim 1 , wherein the first charge feature point is an i th peak among a plurality of ordered peaks of the first differential capacity curve, the first discharge feature point is the i th peak among a plurality of ordered peaks of the second differential capacity curve, the second charge feature point is the i th peak among a plurality of ordered peaks of the third differential capacity curve, and the second discharge feature point is the i th peak among a plurality of ordered peaks of the fourth differential capacity curve, wherein i is a predetermined value. 3. The battery management apparatus according to claim 2 , wherein the control unit is configured to: determine a first hysteresis value indicating an absolute value of difference between the first charge feature value and the first discharge feature value, and determine a second hysteresis value indicating an absolute value of difference between the second charge feature value and the second discharge feature value, wherein the degradation information includes the first and second hysteresis values. 4. The battery management apparatus according to claim 3 , wherein the degradation information further includes a first difference value which is an absolute value of difference between the first hysteresis value and the second hysteresis value. 5. The battery management apparatus according to claim 3 , wherein the control unit is further configured to: detect a third charge feature point from the first differential capacity curve, detect a third discharge feature point from the second differential capacity curve, detect a fourth charge feature point from the third differential capacity curve, detect a fourth discharge feature point from the fourth differential capacity curve, and determine the degradation information further based on third and fourth charge feature values and third and fourth discharge feature values, wherein the third and fourth charge feature values are voltage values of the third and fourth charge feature points respectively, and the third and fourth discharge feature values are voltage values of the third and fourth discharge feature points respectively. 6. The battery management apparatus according to claim 5 , wherein the third charge feature point is a j th peak among a plurality of ordered peaks of the first differential capacity curve, the third discharge feature point is the j th peak among a plurality of ordered peaks of the second differential capacity curve, the fourth charge feature point is the j th peak among a plurality of ordered peaks of the third differential capacity curve, and the fourth discharge feature point is the j th peak among a plurality of ordered peaks of the fourth differential capacity curve, wherein j is a predetermined value different from i. 7. The battery management apparatus according to claim 6 , wherein the control unit is configured to: determine a third hysteresis value indicating an absolute value of difference between the third charge feature value and the third discharge charge feature value, and determine a fourth hysteresis value indicating an absolute value of difference between the fourth charge feature value and the fourth discharge feature value, wherein the degradation information further includes the third and fourth hysteresis values. 8. The battery management apparatus according to claim 7 , wherein the degradation information further includes at least one of a second difference value which is an absolute value of difference between the third hysteresis value and the fourth hysteresis value, a third difference value which is an absolute value of difference between the first hysteresis value and the third hysteresis value, or a fourth difference value which is an absolute value of difference between the second hysteresis value and the fourth hysteresis value. 9. The battery management apparatus according to claim 1 , wherein the control unit is configured to determine a maximum current rate allowable for charge and discharge of the battery based on the degradation information. 10. A battery pack comprising the battery management apparatus according to claim 1 . 11. An electric vehicle comprising the battery pack according to claim 10 . 12. A battery management method using a battery management apparatus that includes a sensing unit configured to detect a voltage and a current of a battery and a control unit operably coupled to the sensing unit, the battery management method comprising: determining, by the control unit, a first differential capacity curve based on a first voltage history and a first capacity history of the battery acquired for a first period during which the battery is charged with a first constant current; determining, by the control unit, a second differential capacity curve based on a second voltage history and a second capacity history of the battery acquired for a second period during which the battery is discharged with the first constant current; determining, by the control unit, a third differential capacity curve based on a third voltage history and a third capacity history of the battery acquired for a third period during which the battery is charged with a second constant current; determining, by the control unit, a fourth differential capacity curve based on a fourth voltage history and a fourth capacity history of the battery acquired for a fourth period during which the battery is discharged with the second constant current; detecting, by the control unit, a first charge feature point from the first differential capacity curve; de