Apparatus and method for diagnosing state of fuel cell stack

What is claimed is: 1. An apparatus comprising: a stack voltage monitor (SVM) configured to measure a voltage of each channel of a plurality of channels of a fuel cell stack, each channel of the plurality of channels including a predetermined number of unit cells, and calculate impedances of a subset of the plurality of channels having voltages affecting diagnosis of the fuel cell stack; and a controller configured to diagnose a state of the fuel cell stack based on the calculated impedances, wherein the SVM is configured to estimate a distribution of impedances of all the channels of the fuel cell stack based on a distribution of the calculated impedances of the subset of the plurality of channels. 2. The apparatus according to claim 1 , wherein the SVM is configured to calculate one or more of an impedance of a minimum voltage channel from amongst the plurality of channels, an impedance of a maximum voltage channel from amongst the plurality of channels, an impedance of an average voltage channel from amongst the plurality of channels, an impedance of a maximum voltage variation channel from amongst the plurality of channels, an impedance of a minimum voltage variation channel from amongst the plurality of channels, and a stack impedance. 3. The apparatus according to claim 1 , wherein the controller is configured to diagnose the state of the fuel cell stack based on an impedance of a minimum voltage channel from amongst the plurality of channels, an impedance of a maximum voltage channel from amongst the plurality of channels, an impedance of an average voltage channel from amongst the plurality of channels, an impedance of a maximum voltage variation channel from amongst the plurality of channels, an impedance of a minimum voltage variation channel from amongst the plurality of channels, a stack impedance, a distribution of the impedances of all the channels of the fuel cell stack, and a driving condition. 4. The apparatus according to claim 3 , wherein the controller is configured to diagnose that the state of the fuel cell stack is a state in which a humidity amount is insufficient, when the impedance of the minimum voltage channel and the stack impedance are a first threshold value or more, and when the driving condition is normal driving. 5. The apparatus according to claim 3 , wherein the controller is configured to diagnose that the state of the fuel cell stack is a state in which a humidity amount is excessive, when the impedance of the minimum voltage channel, the impedance of the maximum voltage variation channel, and the stack impedance are lower than that in a normal range, when the impedance of the maximum voltage channel is in the normal range or is lower than that in the normal range, when the impedance of the average voltage channel is in the normal range or is lower than that in the normal range, and when the driving condition is normal driving. 6. The apparatus according to claim 3 , wherein the controller is configured to diagnose that the state of the fuel cell stack is a mixed state, when the impedance of the maximum voltage variation channel is lower than that in a normal range, when the impedance of the minimum voltage variation channel is a first threshold value or more, when the stack impedance is in the normal range, when an impedance difference between the respective channels is a second threshold value or more, and when the driving condition is normal driving. 7. The apparatus according to claim 3 , wherein the controller is configured to diagnose that the state of the fuel cell stack is a state in which foreign materials are introduced, when the impedance of the minimum voltage channel is a third threshold value or more, when the impedance of the maximum voltage channel and the stack impedance are in a normal range, when an impedance of a channel of a start position of the fuel cell stack exceeds the normal range, and when the driving condition is normal driving. 8. The apparatus according to claim 3 , wherein the controller is configured to diagnose that the state of the fuel cell stack is a state in which a flow rate of coolant is insufficient, when the impedance of the minimum voltage channel is a first threshold value or more, when the impedance of the maximum voltage channel is in a normal range, when the stack impedance and an impedance of a channel of a central position of the fuel cell stack exceed the normal range, and when the driving condition is normal driving. 9. The apparatus according to claim 3 , wherein the controller is configured to diagnose that the state of the fuel cell stack is a stack frozen state, when the impedance of the minimum voltage channel, the impedance of the average voltage channel, the stack impedance, and impedances of channels disposed at both ends of the fuel cell stack are a third threshold value or more, and when the driving condition is low-temperature start-up. 10. A method for diagnosing a state of a fuel cell stack, the method comprising: measuring a voltage for each channel of a plurality of channels of a fuel cell stack, each channel of the plurality of channels including a predetermined number of unit cells; calculating impedances of a subset of the plurality of channels having voltages affecting diagnosis of the fuel cell stack; and at a controller, diagnosing the state of the fuel cell stack based on the calculated impedances, wherein calculating the impedances comprises: estimating a distribution of impedances of all the channels of the fuel cell stack based on a distribution of the calculated impedances of the subset of the plurality of channels. 11. The method according to claim 10 , wherein calculating the impedances comprises: calculating an impedance of a minimum voltage channel from amongst the plurality of channels, calculating an impedance of a maximum voltage channel from amongst the plurality of channels, calculating an impedance of an average voltage channel from amongst the plurality of channels, calculating an impedance of a maximum voltage variation channel from amongst the plurality of channels, calculating an impedance of a minimum voltage variation channel from amongst the plurality of channels, and calculating a stack impedance. 12. The method according to claim 11 , wherein the diagnosing comprises: diagnosing the state of the fuel cell stack based on the impedance of the minimum voltage channel, the impedance of the maximum voltage channel, the impedance of the average voltage channel, the impedance of the maximum voltage variation channel, the impedance of the minimum voltage variation channel, the stack impedance, the distribution of the impedances of all the channels of the fuel cell stack, and a driving condition. 13. The method according to claim 12 , wherein the diagnosing comprises: diagnosing that the state of the fuel cell stack is a state in which a humidity amount is insufficient, when the impedance of the minimum voltage channel and the stack impedance are a first threshold value or more, and when the driving condition is normal driving. 14. The method according to claim 12 , wherein the diagnosing comprises: diagnosing that the state of the fuel cell stack is a state in which a humidity amount is excessive, when the impedance of the minimum voltage channel, the impedance of the maximum voltage variation channel, and the stack impedance are lower than that in a normal range, when the impedance of the maximum voltage channel is in the normal range or is lower than that in the normal range, when the impedance of the average voltage cha