Use of adjustable battery system within a vehicle with an HV battery or fuel cell system

What is claimed is: 1. A battery control system, comprising: first and second batteries each comprising: first and second terminals configured to output a first voltage; third and fourth terminals configured to output a second voltage different from the first voltage; a plurality of individually housed batteries; and a plurality of switches configured to connect any one of the individually housed batteries to and from any one of the first, second, third, and fourth terminals; a plurality of switching devices arranged between (i) the first, second, third, and fourth terminals and (ii) a first set of loads and a second set of loads; and a control module configured to control the plurality of switches and the plurality of switching devices to (i) selectively provide the first voltage from the connected ones of the individually housed batteries of either one of the first battery and the second battery to the first set of loads and (ii) selectively provide the second voltage from the connected ones of the individually housed batteries of either one of the first battery and the second battery to the second set of loads, wherein the plurality of switching devices includes a first switching device configured to receive and selectively output the first voltage from the first battery and a second switching device configured to receive and selectively output the first voltage from the second battery, wherein the plurality of switching devices includes a third switching device configured to receive and selectively output the second voltage from the first battery and a fourth switching device configured to receive and selectively output the second voltage from the second battery, and wherein the plurality of switching devices includes a fifth switching device configured to (i) receive the first voltage from either one of the first switching device and the second switching device and (ii) supply the first voltage to the first set of loads. 2. The battery control system of claim 1 , wherein the first voltage is one of 12 volts, 24 volts, 36 volts, and 48 volts. 3. The battery control system of claim 1 , wherein the plurality of switching devices includes a sixth switching device configured to (i) receive the second voltage from either one of the third switching device and the fourth switching device and (ii) supply the second voltage to the second set of loads. 4. A battery control system, comprising: a battery comprising: first and second terminals configured to output a first voltage; third and fourth terminals configured to output a second voltage; a plurality of individually housed batteries; and a plurality of switches configured to connect ones of the individually housed batteries to and from ones of the first, second, third, and fourth terminals; and an output control module configured to (i) detect either one of the first voltage and the second voltage and (ii) connect selected ones of the individually housed batteries to a corresponding one of the first and second terminals and the third and fourth terminals, wherein, to adjust the detected one of the first voltage and the second voltage, the output control module is configured to selectively disconnect one or more of the individually housed batteries to decrease the detected one of the first voltage and the second voltage based on a difference between a desired output voltage and the detected one of the first voltage and the second voltage. 5. The battery control system of claim 4 , wherein, to adjust the detected one of the first voltage and the second voltage, the output control module is further configured to selectively connect one or more of the individually housed batteries to increase the detected one of the first voltage and the second voltage based on a difference between a desired output voltage and the detected one of the first voltage and the second voltage. 6. The battery control system of claim 4 , wherein the output control module includes an output voltage detection module configured to detect the first voltage and the second voltage. 7. The battery control system of claim 4 , wherein, to adjust the detected one of the first voltage and the second voltage, the output control module is further configured to sequentially connect two more of the individually housed batteries to incrementally increase the detected one of the first voltage and the second voltage based on a difference between a desired output voltage and the detected one of the first voltage and the second voltage. 8. A battery control system, comprising: a battery comprising: first and second terminals configured to output a first voltage; third and fourth terminals configured to output a second voltage; a plurality of individually housed batteries; and a plurality of switches configured to connect ones of the individually housed batteries to and from ones of the first, second, third, and fourth terminals; a charging module configured to (i) detect a charging voltage provided from an external charger to the first and second terminals or the third and fourth terminals and (ii) connect selected ones of the individually housed batteries to a corresponding one of the first and second terminals and the third and fourth terminals in accordance with the detected charging voltage to charge the selected ones of the individually housed batteries. 9. The battery control system of claim 8 , wherein the charging module is configured to (i) connect one of the individually housed batteries to the corresponding one of the first and second terminals and the third and fourth terminals in response to detecting that the charging voltage corresponds to the first voltage and (ii) connect two or more of the individually housed batteries to the corresponding one of the first and second terminals and the third and fourth terminals in response to detecting that the charging voltage corresponds to the second voltage. 10. The battery control system of claim 8 , wherein the charging module is configured to sequentially connect ones of the individually housed batteries to the corresponding one of the first and second terminals and the third and fourth terminals. 11. The battery control system of claim 10 , wherein the charging module is configured to disconnect the connected one of the individually housed batteries from the corresponding one of the first and second terminals and the third and fourth terminals in response to a determination that charging of the connected one of the individually housed batteries is complete. 12. The battery control system of claim 8 , wherein the charging module is configured to sequentially connect sets of two or more of the individually housed batteries to the corresponding one of the first and second terminals and the third and fourth terminals. 13. The battery control system of claim 8 , wherein the charging module is configured to (i) connect one of the individually housed batteries to the corresponding one of the first and second terminals and the third and fourth terminals when the charging voltage corresponds to 12 volts and (i) connect two or more of the individually housed batteries to the corresponding one of the first and second terminals and the third and fourth terminals when the charging voltage corresponds to more than 12 volts. 14. The battery control system of claim 8 , further comprising a second battery, wherein the charging module is configured to selectively supply the charging voltage from the external charger to one of the battery and the second battery. 15. The battery control system of claim 14 , wherein the charging module is configured to select