Battery system

What is claimed is: 1. A battery system comprising: an assembled battery having a plurality of battery cells connected in series; and a plurality of monitoring units each including a plurality of input terminals to receive a cell voltage from both ends of each of the plurality of battery cells, wherein each of the plurality of monitoring units comprises a voltage classification unit configured to classify a terminal voltage between each pair of the plurality of input terminals as the cell voltage or as a zero voltage, the zero voltage being a terminal voltage of substantially zero, the plurality of input terminals in each of all or all but one of the plurality of monitoring units include at least one specific terminal pair for acquiring the zero voltage at a different position and/or include a different number of specific terminal pairs for acquiring the zero voltage, the each of the plurality of monitoring units further comprises an identifier generation unit configured to generate an identifier based on either the position of the at least one specific terminal pair or the number of specific terminal pairs. 2. The battery system according to claim 1 , wherein the assembled battery includes a plurality of battery modules each including two or more of the plurality of battery cells and connected in series via a connection member, the plurality of input terminals in the each of the plurality of monitoring units include the one specific terminal pair for acquiring the zero voltage, the specific terminal pair in the each of the plurality of monitoring units is connected to both ends of the connection member, whereby the plurality of monitoring units each acquire the terminal voltage across the connection member as the zero voltage. 3. The battery system according to claim 2 , wherein the each of the plurality of monitoring units is connected to one battery module of the plurality of battery modules on a high voltage side of the connection member and another battery module of the plurality of battery modules on a low voltage side of the connection member, and the each of the plurality of monitoring units acquires terminal voltages from a different number of battery cells in the one battery module on the high voltage side of the connection member and terminal voltages from a different number of battery cells in the another battery module on the low voltage side of the connection member, whereby each monitoring unit has the specific terminal pair at a different position. 4. The battery system according to claim 1 , wherein the plurality of input terminals in the each of the plurality of monitoring units include the one specific terminal pair for acquiring the zero voltage, and for the each of the plurality of monitoring units, the plurality of battery cells from which cell voltages are acquired include a different number of battery cells provided between a battery cell of the plurality of battery cells at a highest voltage end or at a lowest voltage end, and a connection point between a pair of battery cells to which input terminals of the specific terminal pair are commonly connected, whereby each monitoring unit has the specific terminal pair at a different position. 5. The battery system according to claim 1 , wherein the each of the plurality of monitoring units acquires an identical number of terminal voltages and is associated with a different number of the plurality of battery cells from which the terminal voltages are acquired, and in the each of the plurality of monitoring units, the zero voltage is input at every terminal pair configured to acquire no terminal voltage from the plurality of battery cells, whereby each monitoring unit has a different number of specific terminal pairs. 6. The battery system according to claim 1 , further comprising a controller configured to communicate with the each of the plurality of monitoring units, the controller comprising: a storage unit configured to store a map associating the plurality of monitoring units with identifiers; an identifier acquiring unit configured to acquire the identifier from the each of the plurality of monitoring units; and an identification unit configured to search the map for the identifier acquired by the identifier acquiring unit to identify the monitoring unit from which the identifier is acquired.