초록 ▼

A hierarchical battery-management system mainly comprises a monitoring and equalizing module, an intermediary module, and a decision and communication module. The monitoring and equalizing module electrically couples with the battery cells, the intermediary modules electrically couple with the monit

A hierarchical battery-management system mainly comprises a monitoring and equalizing module, an intermediary module, and a decision and communication module. The monitoring and equalizing module electrically couples with the battery cells, the intermediary modules electrically couple with the monitoring and equalizing module and the decision and communication module. The decision and communication module electrically couples with a power system or an electronic/electrical apparatus, and a hierarchical management structure constructed by the intermediary module to screen data and to transmit meaningful cell data to meet real time managing requirements of the large battery set.

대표청구항 ▼

1. A hierarchical battery-management system, comprising: a decision and communication module;an intermediary module, wherein the intermediary module in a group records all cell voltages and cell temperatures in the group, screens cell information to get a maximum, minimum, and average of the cell vo

1. A hierarchical battery-management system, comprising: a decision and communication module;an intermediary module, wherein the intermediary module in a group records all cell voltages and cell temperatures in the group, screens cell information to get a maximum, minimum, and average of the cell voltages and temperature as a group status, and feeds the group status to the decision and communication module;a monitoring and equalizing module, wherein the monitoring and equalizing module gets cell voltages and cell temperatures of a plurality of battery cells, feeds the cell information to the intermediary module in the group, and receives balancing control information through the intermediary module;wherein the hierarchical battery-management system comprises more than two groups, each group has one intermediary module and more than two monitoring and equalizing modules, and the decision and communication module only electrically couples with the intermediary module which is set in each group, and the intermediary module only electrically couples with the monitoring and equalizing modules which is set in each group; andwherein the decision and communication module feeds the balancing control information to each intermediary module after getting all groups' statuses or deciding a balancing command, and makes decisions of low-voltage and over-voltage protection for the hierarchical battery-management system without sequentially polling each cell-level module, to increase communication and enhance a response speed of the management system. 2. The hierarchical battery-management system of claim 1, wherein the intermediary module is based on a micro-controller unit, the intermediary module simultaneously gets all cell voltages and cell temperatures through the monitoring and equalizing modules in the group or other low intermediary module, wherein the intermediary module screens cell information to get the maximum, minimum, and average of the cell voltages and temperatures as a group status, and feeds the group status to the decision and communication module or other upper intermediary module, and the upper intermediary module is able to treat the low intermediary module in the group as quasi monitoring and equalizing modules, and to treat the group statuses of the low intermediary modules as quasi cell information. 3. The hierarchical battery-management system of claim 2, wherein the intermediary module further comprises an isolated up-link digital interface and an isolated down-link digital interface, the intermediary module gets the group status through the monitoring and equalizing modules to feed the design and communication module or other upper intermediary module by the isolated up-link digital interface, and receives the balancing control information of the design and communication module or upper intermediary module appropriately to feed the monitoring and equalizing modules or other low intermediary module by the isolated down-link digital interface. 4. The hierarchical battery-management system of claim 1, wherein the monitoring and equalizing module further comprises an analog to digital reading element, an equalizing element, and an isolated digital interface and a control unit, wherein the analog to digital reading element is responsible for getting the cell information for corresponding battery cells, the equalizing element accomplishes a corresponding processing according to the balancing command of the intermediary module, the isolated digital interface is responsible for sending the cell information to the intermediary module, and the control unit is responsible for converting the cell information to a data format for the intermediary module. 5. The hierarchical battery-management system of claim 1, wherein the decision and communication module is based on a micro-controller unit which further comprises an isolated up-link digital interface and an isolated down-link digital interface, the decision and communication module communicates between a power-system control module and the intermediary modules and receives the group statuses from the intermediary modules of all groups to decide the protection functions of the hierarchical battery-management system, and decides the balancing control information according to a balancing command to feed transmit to the intermediary modules. 6. The hierarchical battery-management system of claim 5, wherein the wherein the power-system control module electrically couples with the decision and communication module, and the power-system control module is a vehicle control unit or a center control unit. 7. A hierarchical battery-management device comprising: a decision and communication module, wherein the decision and communication module receives a plurality of group status feeds and controls the status of a plurality intermediary control modules;an intermediary control module, wherein the intermediary control module records all cell voltages and cell temperatures in the group, consolidates cell information from a plurality of monitoring and equalizing modules into a group status, and feeds the group status to the decision and communication module;a monitoring and equalizing module, wherein the monitoring and equalizing module gets cell voltages and cell temperatures, feeds the cell information to the intermediary module in the group, receives balancing control information through the intermediary module, and controls operating voltages at a plurality of battery cells;wherein the decision and communication module feeds the balancing control information to each intermediary module after deciding a balancing command based on the group status information, and makes decisions of low-voltage and over-voltage protection for the hierarchical battery-management system. 8. The hierarchical battery-management device of claim 7, wherein the decision and communication module is based on a micro-controller unit which further comprises an isolated up-link digital interface and an isolated down-link digital interface, the decision and communication module communicates between a power-system control module and the intermediary modules and receives the group statuses from the intermediary modules of all groups to decide the protection functions of the hierarchical battery-management device, and decides the balancing control information to transmit to the intermediary modules.