Battery management system, and method of managing the same

What is claimed is: 1. A battery management system, comprising: a plurality of slave controllers, each slave controller of the plurality of slave controllers being coupled to a respective battery module, each of the slave controllers having a slave controller identifier, the respective slave controller identifiers being allocated by a slave controller identifier allocation operation performed by the plurality of slave controllers; and a master controller, the master controller being coupled to each of the slave controllers, the master controller receiving the slave controller identifiers from the slave controllers, wherein: the plurality of slave controllers includes a serial interconnection such that each slave controller of the plurality of slave controllers is wired together in sequence by the serial interconnection, each slave controller of the plurality of slave controllers sequentially receives a control signal on the serial interconnection and outputs the control signal after a delay to a subsequent slave controller, and each respective slave controller determines a relative position along the serial interconnection according to a delay of the control signal received by the respective slave controller. 2. The battery management system as claimed in claim 1 , wherein the plurality of slave controllers allocates the slave controller identifiers according to a connection order of the slave controllers. 3. The battery management system as claimed in claim 1 , wherein the control signal is progressively delayed by each slave controller such that a final slave controller of the plurality of slave controllers wired together in sequence receives a most-delayed control signal among the plurality of slave controllers. 4. The battery management system as claimed in claim 1 , wherein each slave controller includes a driving time counter, the driving time counter starting counting when the control signal is received by the slave controller. 5. The battery management system as claimed in claim 4 , wherein the driving time counter is controlled by a microprocessor in the slave controller, the microprocessor initiating the driving time counter when the slave controller receives the control signal. 6. The battery management system as claimed in claim 1 , wherein each slave controller includes a delay circuit for delaying the control signal, the delay circuit including a circuit selected from the group of a resistor-capacitor (RC) delay circuit, a resistor-inductor (RL) delay circuit, and a buffer circuit. 7. The battery management system as claimed in claim 1 , wherein each slave controller of the plurality of slave controllers sets its own slave controller identifier and supplies the set slave controller identifier to the master controller. 8. An energy storage system coupled between a power generation system, a load, and a grid system, the energy storage system comprising the battery management system as claimed in claim 1 . 9. A vehicle comprising the battery management system as claimed in claim 1 . 10. A battery management system, comprising: a plurality of slave controllers, each slave controller of the plurality of slave controllers being coupled to a respective battery module, each of the slave controllers having a slave controller identifier, the respective slave controller identifiers being allocated by a slave controller identifier allocation operation performed by the plurality of slave controllers; and a master controller, the master controller being coupled to each of the slave controllers, the master controller receiving the slave controller identifiers from the slave controllers, wherein: the plurality of slave controllers includes a first slave controller and at least one subsequent slave controller, the subsequent slave controller receiving a control signal after a delay from an immediately-preceding slave controller, each slave controller includes a driving time counter activated according to the received control signal, and each slave controller of the plurality of slave controllers receives a driving time counter value from at least one other slave controller of the plurality of slave controllers and compares the received driving time counter value with a driving time counter value from its driving time counter. 11. The battery management system as claimed in claim 10 , wherein, when the comparing indicates that the received driving time counter value is a larger value, the slave controller increments its slave controller identifier such that the first slave controller has a lowest slave controller identifier and successive slave controllers have successively larger slave controller identifiers. 12. A method of managing a battery system that includes a plurality of slave controllers that are sequentially connected and a master controller, the method comprising: in the master controller, transmitting a control signal to a first slave controller of the plurality of slave controllers; in each slave controller of the plurality of slave controllers, receiving the control signal, activating a respective driving time counter in response to the control signal, and outputting the control signal after a delay to a subsequent slave controller among the plurality of slave controllers, the control signal sequentially arriving at each slave controller of the plurality of slave controllers; in the master controller, transmitting a slave controller identifier allocation command to each slave controller of the plurality of slave controllers at the same time; in each slave controller of the plurality of slave controllers, storing a driving time counter value of the respective driving time counter in response to the slave controller identifier allocation command; in each slave controller of the plurality of slave controllers, comparing the stored driving time counter value to at least one other driving time counter value received from another among the plurality of slave controllers; and in each slave controller of the plurality of slave controllers, setting a slave controller identifier based on the compared driving time counter values. 13. The method as claimed in claim 12 , further comprising: in the master controller, after transmitting the slave controller identifier allocation command, receiving the set slave controller identifiers from each slave controller of the plurality of slave controllers. 14. The method as claimed in claim 12 , wherein, when the comparing indicates that a received driving time counter value is a larger value, the slave controller increments its slave controller identifier. 15. The method as claimed in claim 14 , wherein a first slave controller among the sequentially connected slave controllers sets a lowest slave controller identifier and successive slave controllers set successively larger slave controller identifiers. 16. The method as claimed in claim 12 , wherein each slave controller of the plurality of slave controllers transmits its stored driving time counter value to all other slave controllers of the plurality of slave controllers. 17. A method of managing a battery system that includes a master controller and a plurality of slave controllers that are sequentially connected to the master controller, the method comprising: in the master controller, sequentially providing a driving power to the plurality of slave controllers; in each slave controller of the plurality of slave controllers, sequentially initiating an operation by receiving the driving power, and sequentially activating a respective driving time counter; in the master c