Battery diagnosing apparatus and method

What is claimed is: 1. A battery diagnosing apparatus, comprising: a voltage sensor configured to measure a voltage of a battery; a temperature sensor configured to measure a temperature of the battery; a controller; and memory having programmed thereon instructions that, when executed by the controller, cause the controller to: calculate a capacity change rate by comparing the discharge capacity of the battery with a reference capacity; calculate a resistance change rate by comparing an ohmic resistance determined based on an impedance profile generated for the battery with a reference resistance; determine an internal gas generation level of the battery by comparing magnitudes of the calculated resistance change rate and a threshold resistance change rate; and determine an internal gas generation cause of the battery by comparing magnitudes of the calculated capacity change rate and a threshold capacity change rate. 2. The battery diagnosing apparatus according to claim 1 , wherein the ohmic resistance is determined based on the impedance profile generated for the battery in response to the temperature of the battery being equal to or greater than a threshold temperature of the battery for a predetermined duration of time. 3. The battery diagnosing apparatus according to claim 2 , further comprising a current sensor configured to measure a discharge current of the battery, wherein the battery is configured to be maintained at or above the threshold temperature for the predetermined duration of time, and then to be fully charged and then fully discharged, and wherein the instructions are configured to cause the controller to receive a discharge capacity measurement of the battery based on discharge measurements of the current sensor, wherein the discharge capacity measurement is indicative of a discharge capacity of the battery between being fully charged and being fully discharged. 4. The battery diagnosing apparatus according to claim 1 , wherein the instructions are configured to cause the controller to: determine that an internal gas of the battery equal to or greater than a threshold amount is generated in response to the calculated resistance change rate being equal to or greater than the threshold resistance change rate; and determine that an internal gas of the battery less than the threshold amount is generated in response to the calculated resistance change rate being less than the threshold resistance change rate. 5. The battery diagnosing apparatus according to claim 4 , wherein the instructions are configured to cause the controller to: determine that the internal gas generation cause is a side reaction of a negative electrode of the battery in response to the calculated capacity change rate being equal to or greater than the threshold capacity change rate; and determine that the internal gas generation cause is a cause other than the side reaction of the negative electrode in response to the calculated capacity change rate being less than the criterion capacity change rate. 6. The battery diagnosing apparatus according to claim 5 , wherein the instructions are configured to cause the controller to diagnose a state of the battery based on the internal gas generation level and the internal gas generation cause. 7. The battery diagnosing apparatus according to claim 6 , wherein the instructions are configured to cause the controller to diagnose that the state of the battery is a normal state in response to the internal gas generation level being less than the threshold amount. 8. The battery diagnosing apparatus according to claim 6 , wherein the instructions are configured to cause the controller to: diagnose that the state of the battery is a first warning state in response to the internal gas generation level being greater than or equal to the threshold amount; and reduce an upper limit temperature for the battery in response to the state of the battery being the first warning state. 9. The battery diagnosing apparatus according to claim 6 , wherein the instructions are configured to cause the controller to diagnose that the state of the battery is a second warning state in response to the internal gas generation level being equal to or greater than the threshold amount and being generated due to the side reaction of the negative electrode; and reduce at least one of an upper limit temperature and an upper limit C-rate for the battery in response to the state of the battery being the second warning state. 10. A battery diagnosing system, comprising: the battery diagnosing apparatus according to claim 1 ; and an electrochemical impedance spectroscopy (EIS) instrument configured to: output an AC current to the battery; generate the impedance profile of the battery according to an output result of the AC current as a corresponding relationship between a real part and an imaginary part; and output the generated impedance profile to the battery diagnosing apparatus. 11. The battery diagnosing system according to claim 10 , further comprising: a heater configured to raise the temperature of the battery to a raised temperature equal to or greater than a threshold temperature; and a charging and discharging unit configured to charge and discharge the battery. 12. A battery pack, comprising the battery diagnosing apparatus according to claim 1 . 13. A battery diagnosing method, comprising: measuring, by a temperature sensor, a temperature of a battery; measuring, by a current sensor, a discharge current of the battery; receiving, by a controller, a discharge capacity of the battery based on discharge current measurements of the current sensor; calculating, by a controller, a capacity change rate by comparing the received discharge capacity of the battery with a reference capacity; calculating, by the controller, a resistance change rate by comparing an ohmic resistance of the battery determined based on an impedance profile generated for the battery with a reference resistance; determining, by the controller, an internal gas generation level of the battery by comparing magnitudes of the calculated resistance change rate and a threshold resistance change rate; and determining, by the controller, an internal gas generation cause of the battery by comparing magnitudes of the calculated capacity change rate and a threshold capacity change rate.