Battery system

What is claimed is: 1. A battery system comprising a plurality of battery modules, each of the battery modules comprising: an assembled battery that includes a plurality of battery cells connected in series; a monitoring unit configured to monitor the assembled battery; and a plurality of temperature sensors electrically connected to the monitoring unit by a plurality of wirings, the monitoring unit of each of the battery modules comprising: a connector that includes a plurality of terminals that are connected to the plurality of electric wirings extending from the plurality of temperature sensors, a number of the plurality of terminals of the connector being greater than a number of the plurality of temperature sensors so that at least one of the plurality of terminals is not connected to a wiring and is thus an unused terminal, the plurality of temperature sensors being configured to output voltage signals indicative of temperatures of the assembled battery to the respective terminals of the connector; a generation unit configured to generate, based on the voltage signals input to the respective terminals from the plurality of temperature sensors, an identification information item on the corresponding one of the battery modules; and an input processing unit configured to: perform input processing on the voltage signals outputted from the plurality of temperature sensors with a predetermined voltage range; and cause a voltage at the unused terminal to be outside the predetermined voltage range, a position of the unused terminal relative to the other terminals of the plurality of terminals of the connector being different for each of the plurality of battery modules, and the identification information items of the respective battery modules being different from one another. 2. The battery system according to claim 1 , further comprising: a control unit comprising a processor and associated memory and that is communicable with the monitoring unit of each of the battery modules, the control unit comprising: a storage unit configured to store a map in which each of the battery modules is associated with a corresponding one of the identification information items; an identification information acquisition unit configured to acquire, from the monitoring unit of each of the battery modules, a corresponding one of the identification information items; and an identification unit configured to identify each of the battery modules based on the map and the acquired identification information item on the corresponding one of the battery modules. 3. The battery system according to claim 1 , wherein the monitoring unit of each of the battery modules is standardized. 4. A battery system comprising a plurality of battery modules, each of the battery modules comprising: an assembled battery that includes a plurality of battery cells connected in series; a monitoring unit configured to monitor the assembled battery; and a temperature sensor configured to be electrically connected to the monitoring unit and output a voltage signal corresponding to a temperature of the assembled battery, wherein: the monitoring unit of each of the battery modules comprises a generation unit configured to generate, based on the voltage signal input from the temperature sensor, an identification information item on the corresponding one of the battery modules, the identification information items of the respective battery modules being different from one another; the battery system further comprises a control unit configured to communicate with the monitoring unit of each of the battery modules; and the control unit is configured to calculate a state of charge of each assembled battery using cell voltage data received from the monitoring units. 5. The battery system according to claim 4 , wherein the control unit comprises a processor and associated memory and is communicable with the monitoring unit of each of the battery modules, and the control unit comprises: a storage unit configured to store a map in which each of the battery modules is associated with a corresponding one of the identification information items; an identification information acquisition unit configured to acquire, from the monitoring unit of each of the battery modules, a corresponding one of the identification information items; and an identification unit configured to identify each of the battery modules based on the map and the acquired identification information item on the corresponding one of the battery modules. 6. The battery system according to claim 4 , wherein the monitoring unit of each of the battery modules is standardized. 7. A battery system comprising: a plurality of battery cells connected in series; a monitoring unit configured to monitor the plurality of battery cells; and a plurality of temperature sensors electrically connected to the monitoring unit by a plurality of wirings, wherein the monitoring unit comprises: a connector that includes a plurality of terminals that are connected to the plurality of electric wirings extending from the plurality of temperature sensors, a number of the plurality of terminals of the connector being greater than a number of the plurality of temperature sensors so that at least one of the plurality of terminals is not connected to a wiring and is thus an unused terminal, the plurality of temperature sensors being configured to output voltage signals indicative of temperatures of the plurality of battery cells to the respective terminals of the connector; a generation unit configured to generate, based on the voltage signals input to the respective terminals from the plurality of temperature sensors, an identification information item; and an input processing unit configured to: perform input processing on the voltage signals outputted from the plurality of temperature sensors with a predetermined voltage range; and cause a voltage at the unused terminal to be outside the predetermined voltage range. 8. The battery system according to claim 7 , wherein the monitoring unit of each of the battery modules is standardized.