Reconfigurable hybrid energy storage system for electrified vehicles

The invention claimed is: 1. A method for reconfiguring a reconfigurable energy storage system, the method comprising: determining a first power level corresponding to a state of charge of a first energy storage system for storing electrical energy; determining a second power level corresponding to a state of charge of a second energy storage system for storing electrical energy; determining a load coupled to the first energy storage system and the second energy storage system; providing a power converter coupled to the load, the first energy storage system and the second energy storage system, the power converter comprising at least two bidirectional switches, including a first bidirectional switch and a second bidirectional switch, wherein the first bidirectional switch is coupled to a positive terminal of the first or the second energy storage system, and the second bidirectional switch is coupled to a negative terminal of the same energy storage system, the first bidirectional switch and the second bidirectional switch having a common connection, and neither the first bidirectional switch nor the second bidirectional switch being configured to couple the first energy storage system to the second energy storage system; and manipulating the power transfer between the first energy storage system and the second energy storage system such that one of the first and the second energy storage systems is configured to transfer power to the other of the first and the second energy storage systems by operating the power converter to configure the first energy storage system to be in one of a series and parallel connection with the second energy storage system based on at least one of the first power level relative to a first threshold, the second power level relative to a second threshold and an electrical requirement of the load, wherein the second energy storage system is different than the first energy storage system. 2. The method of claim 1 , wherein if the second power level is less than the second threshold, the first power level is equal to or higher than the first threshold and the load is zero, the method comprises manipulating the first energy storage system to charge the second energy storage system. 3. The method of claim 1 , wherein if the first power level is lower than the first threshold, the second power level is equal to or higher than the second threshold and the load is zero, the method comprises manipulating the second energy storage system to charge the first energy storage system. 4. The method of claim 1 , wherein if the load requires a high current, the method comprises manipulating the power transfer between the first energy storage system and the second energy storage system by configuring the first energy storage system in parallel with the second energy storage system. 5. The method of claim 1 , wherein if the load requires a voltage higher than each of the first energy storage system and the second energy storage system, the method comprises manipulating the power transfer between the first energy storage system and the second energy storage system by configuring the first energy storage system in series with the second energy storage system. 6. The method of claim 1 , wherein if the load supplies a voltage higher than each of the first energy storage system and the second energy storage system, the method comprises manipulating the power transfer between the first energy storage system and the second energy storage system by configuring the first energy storage system in series with the second energy storage system. 7. The method of claim 1 , wherein if the load supplies a voltage within an allowable voltage range of the each of the first energy storage system and the second energy storage system, the method comprises manipulating the power transfer between the first energy storage system and the second energy storage system by configuring the first energy storage system in parallel with the second energy storage system. 8. The method of claim 1 , wherein the reconfigurable energy storage system further comprises a third energy storage system for providing electrical energy, the method further comprising: determining a third power level corresponding to the third energy storage system; and manipulating the power transfer between the first energy storage system, the second energy storage system and the third energy storage system based on the third power level. 9. The method of claim 8 , wherein the third power level corresponds to a state of charge of the third energy storage system. 10. The method of claim 8 , wherein the third energy storage system generates electrical energy and wherein the third power level corresponds to an amount of electrical energy generated by the third energy storage element. 11. The method of claim 8 , wherein manipulating the power transfer between the first energy storage system, the second energy storage system and the third energy storage system comprises charging at least one of the first energy storage system and the second energy storage system by the third energy storage system. 12. The method of claim 1 , wherein manipulating the power transfer between the first energy storage system and the second energy storage system comprises manipulating the at least one bidirectional switch to connect or disconnect at least one of the first energy storage system and the second energy storage system. 13. A reconfigurable energy storage system comprising: a first energy storage system for storing electrical energy; a second energy storage system for storing electrical energy, wherein the second energy storage system is different than the first energy storage system; and a power converter coupled to the first energy storage system, the second energy storage system, the power converter comprising at least two bidirectional switches, including a first bidirectional switch and a second bidirectional switch, wherein the first bidirectional switch is coupled to a positive terminal of the first or the second energy storage system, and the second bidirectional switch is coupled to a negative terminal of the same energy storage system, the first bidirectional switch and the second bidirectional switch having a common connection, and neither the first bidirectional switch nor the second bidirectional switch being configured to couple the first energy storage system to the second energy storage system, and wherein the power converter is configured to determine a first power level corresponding to a state of charge of the first energy storage system, a second power level corresponding to a state of charge of the second energy storage system, and a load coupled to the power converter, and further configured to manipulate power transfer between the first energy storage system and the second energy storage system such that one of the first and the second energy storage systems is configured to transfer power to the other of the first and the second energy storage systems by configuring the first energy storage system to be in one of a series and parallel connection with the second energy storage system based on at least one of the first power level relative to a first threshold, the second power level relative to a second threshold and an electrical requirement of the load. 14. The system of claim 13 , wherein the first energy storage system has an energy density that is higher than a corresponding energy density of the second energy storage system. 15. The system of claim 13 , wherein the second energy storage system has a power density that is higher than a corresponding power density