Battery Management Apparatus and Method

1 . A battery management apparatus, comprising: a voltage sensor configured to measure a charge voltage and a discharge voltage during charging and discharging a battery according to a preset charge current rate (C-rate) and a preset discharge C-rate; a current sensor configured to measure a charge current, and a discharge current during the charging and discharging of the battery; and a controller configured to: calculate a charge resistance for each measured charge voltage of the battery based on the charge voltage and the charge current measured during charging the battery, calculate a discharge resistance for each measured discharge voltage of the battery based on the discharge voltage and the discharge current measured during discharging the battery, for each voltage level of the battery at which charge voltage and discharge voltage are measured, calculate a resistance ratio between the charge resistance at the voltage level and the discharge resistance at the voltage level, and set an updated discharge C-rate for the battery based on the calculated resistance ratios. 2 . The battery management apparatus according to claim 1 , wherein the resistance ratio is a ratio of the charge resistance to the discharge resistance. 3 . The battery management apparatus according to claim 1 , wherein the controller is configured to: select a maximum resistance ratio from among the calculated resistance ratios; and adjust the discharge C-rate based on the selected maximum resistance ratio. 4 . The battery management apparatus according to claim 3 , wherein the controller is configured to: maintain the discharge C-rate at the preset discharge C-rate in response to the maximum resistance ratio being less than a reference value; and change the discharge C-rate to the updated discharge C-rate in response to the maximum resistance ratio being equal to or greater than the reference value. 5 . The battery management apparatus according to claim 4 , wherein the updated discharge C-rate is greater than the preset charge C-rate. 6 . The battery management apparatus according to claim 3 , wherein the updated discharge C-rate corresponds to the maximum resistance ratio. 7 . The battery management apparatus according to claim 6 , wherein the updated discharge C-rate is based on the maximum resistance ratio and a battery characteristic factor of the battery. 8 . The battery management apparatus according to claim 1 , wherein the battery includes a composite negative electrode active material in which graphite and silicon are mixed. 9 . The battery management apparatus according to claim 1 , wherein the voltage sensor is configured to measure the charge voltage and the current sensor is configured to measure the charge current during charging the battery at the preset charge C-rate with a first constant current, and wherein the voltage sensor is configured to measure the discharge voltage and the current sensor is configured to measure the discharge current during discharging the battery at the preset discharge C-rate with a second constant current. 10 . A battery pack, comprising the battery management apparatus according to claim 1 . 11 . A battery management method, comprising: measuring, by a voltage sensor, a charge voltage and a discharge voltage during charging and discharging of a battery according to a preset charge C-rate and a preset discharge C-rate, respectively; measuring, by a current sensor, a charge current and a discharge current during the charging and discharging of the battery; calculating, by a controller, a charge resistance for each measured charge voltage of the battery based on the charge voltage and the charge current measured during charging the battery; calculating, by the controller, a discharge resistance for each voltage of the battery based on the discharge voltage and the discharge current; for each voltage level of the battery at which charge voltage and discharge voltage are measured, calculating, by the controller, a resistance ratio between the charge resistance at the voltage level and the discharge resistance at the voltage level; and setting, by the controller, a discharge C-rate for the battery based on the calculated resistance ratios.