Cell controller and battery-monitoring device

The invention claimed is: 1. A battery-monitoring device that monitors an assembled battery having a single cell group or a plurality of cell groups, each made up with a plurality of battery cells connected in series, comprising: a cell controller; a control unit that applies a startup voltage to the cell controller and is electrically connected to a battery via a first switch; a first timer unit that includes a passive element capable of accumulating/discharging electric energy; and a second timer unit communicatively coupled to the control unit and electrically coupled to the battery, wherein the second timer unit continuously receives power from the battery; wherein the cell controller: in response to receiving the startup voltage, adjusts charge levels of the plurality of battery cells during a time period through which the startup voltage remains equal to or greater than a predetermined voltage, receives an input signal input from a higher-order system, and in response to receiving the input signal, enters a low power consumption mode; wherein, in response to entering the low power consumption mode, the control unit: activates the first timer, issues a reset command for the second timer, does not apply the startup voltage equal to or greater than the predetermined voltage to the cell controller, and disconnects the control unit from the battery by opening the switch; wherein the first timer unit in response to the control unit entering the low power consumption mode: applies the startup voltage equal to or greater than the predetermined voltage to the cell controller for a predetermined length of time. 2. The battery-monitoring device according to claim 1 , wherein: the passive element included in the first timer unit is a capacitor; and the electric energy accumulated in the capacitor is discharged to the cell controller at a time constant determined based upon a capacitance of the capacitor. 3. The battery-monitoring device according to claim 1 , wherein: the first timer unit is built into the cell controller. 4. The battery-monitoring device according to claim 1 , wherein: the predetermined length of time is changed in correspondence to a voltage value of the startup voltage applied by the control unit to the cell controller. 5. The battery-monitoring device according to claim 4 , wherein: the control unit further sets a voltage value for the startup voltage to be applied to the cell controller. 6. The battery-monitoring device according to claim 4 , wherein the second timer unit counts a length of time elapsing after the control unit enters into the low power consumption mode and starts up the control unit from the low power consumption mode when the length of elapsing time becomes equal to a specific time length. 7. The battery-monitoring device according to claim 6 , wherein: the cell controller further: measures voltages of the plurality of battery cells during the time period through which the startup voltage remains equal to or greater than the predetermined voltage, and selectively performs cell balancing based upon voltage measurement results after the control unit is started up from the low power consumption mode by the second timer unit. 8. The battery-monitoring device according to claim 7 , wherein: the cell controller further closes a transmission path used to discharge the electric energy accumulated in the passive element, in response to cell balancing not being performed.