Distributed battery management system and method for distributed battery management

What is claimed is: 1. A distributed battery management system, comprising: slave controllers comprising a bottom-level slave controller and a top-level slave controller, each of the slave controllers corresponding to one of a plurality of battery modules, and the slave controllers being connected in a daisy chain structure in which the slave controllers are connected from the bottom-level slave controller up to the top-level slave controller in series, wherein the slave controllers are configured to sequentially transfer control information received from a master controller from the top-level slave controller up to the bottom-level slave controller, sense sensing information on the corresponding battery modules in response to the transferred control information, sequentially transfer the sensed sensing information from the bottom-level slave controller up to the top-level slave controller, and transmit the sensing information transferred to the top-level slave controller to the master controller, wherein the master controller is configured to transmit the control information to the top-level slave controller, and manage the battery modules by using the sensing information received from the top-level slave controller. 2. The distributed battery management system of claim 1 , wherein the slave controllers are connected to each other in series so as to have the daisy chain structure and include sensing integrated circuits (ICs) for sensing information on the battery modules. 3. The distributed battery management system of claim 2 , wherein the top-level slave controller includes a microcontroller configured to receive the control information from the master controller, collect the sensing information, and transmit the collected sensing information to the master controller; and the sensing IC. 4. The distributed battery management system of claim 1 , wherein the top-level slave controller is configured to collect the sensing information and determine whether or not an error of the collected sensing information exists. 5. The distributed battery management system of claim 1 , wherein the master controller is configured to receive and store the sensing information transmitted from the top-level slave controller at a predetermined cycle. 6. The distributed battery management system of claim 1 , wherein the control information includes address and command information of the slave controllers. 7. The distributed battery management system of claim 1 , wherein the sensing information includes one or more of voltage, current, and temperature of the battery module. 8. A distributed battery management system, comprising: at least two slave controllers sequentially connected to each other in a daisy chain structure; battery modules connected with corresponding slave controllers among the at least two slave controllers; and a master controller connected with a top-level slave controller among the at least two slave controllers to manage the battery modules, wherein the top-level slave controller includes a differential signal interface integrated circuit (IC) configured to encode control information transferred from the master controller into an asynchronous differential signal, and decode sensing information which is transferred from each of the at least two slave controllers and corresponds to the encoded control information. 9. The distributed battery management system of claim 8 , wherein each of the at least two slave controllers includes a sensing IC configured to sense a corresponding battery module among the battery modules. 10. The distributed battery management system of claim 9 , wherein the top-level slave controller includes a microcontroller configured to receive the control information from the master controller to transfer the control information to the bottom-level slave controller, and receive the sensing information sensed in the sensing IC of each of the slave controllers to transfer the sensing information to the master controller. 11. The distributed battery management system of claim 8 , wherein the microcontroller is configured to determine whether or not an error of the transferred sensing information exists. 12. The distributed battery management system of claim 8 , wherein the control information includes address and command information of the at least two slave controllers. 13. A method for distributed battery management, which is implemented by a distributed battery management system including at least two slave controllers sequentially connected to each other in a daisy chain structure, battery modules connected with corresponding slave controllers among the at least two slave controllers, and a master controller connected with a top-level slave controller among the slave controllers to manage the battery module, the method comprising: encoding control information received from the master controller into an asynchronous differential signal in the top-level slave controller; sequentially transferring the encoded control information up to a bottom-level slave controller; generating sensing information by sensing information on the battery module in response to the transferred control information and transferring the sensing information to the top-level slave controller; and decoding the transferred sensing information in the top-level slave controller. 14. The method for distributed battery management of claim 13 , wherein the control information includes address and command information of the at least two slave controllers.