Charging in multiple voltage start/stop bas system

What is claimed is: 1. An alternator-starter system mechanically coupled with an engine, comprising: a stator having three coils; an inverter/rectifier having three nodes connected to respective ones of the stator coils, the inverter/rectifier having an upper rail and a lower rail defining a DC bus; a plurality of batteries, each battery having a positive (+) terminal and a negative (−) terminal; first and second switches for each battery, the first switch being operable to switchably connect the upper rail with the respective (+) terminal, the second switch being operable to switchably connect the lower rail with the respective (−) terminal; and a controller operable to monitor voltages of each battery and operably coupled with the first and second switches for each battery wherein the controller selectively operates the alternator-starter system in a generating mode wherein the plurality of batteries are charged or a motoring mode wherein the alternator-starter system generates a mechanical torque and wherein when the alternator-starter system supplies a torque to the engine to start the engine in the motoring mode, the plurality of batteries are connected in series; and wherein when the controller operates the alternator-starter system in the generating mode, the controller is adapted to selectively charge individual ones of the plurality of batteries. 2. The system of claim 1 , wherein when the monitored voltage of any one of the plurality of batteries is below a corresponding threshold voltage, the controller closes the one battery's first and second switches to charge such battery. 3. The system of claim 2 , wherein the controller is operable to close the first switch of a series-beginning battery of the plurality of batteries and the second switch of a series-end battery of the plurality of batteries to supply a summed voltage of such series of batteries across the DC bus. 4. The system of claim 3 , wherein the controller is operable to determine that the alternator-starter is operating in generating mode at a rotational speed higher than a certain rpm. 5. The system of claim 1 , wherein the batteries comprise a first battery (B 1 ) and a second battery (B 2 ), wherein when the monitored voltage of battery B 1 is below a first voltage, the controller closes the first B 1 switch (D) and the second B 1 switch (B) to charge battery B 1 , and wherein when the monitored voltage of battery B 2 is below a second voltage the controller closes the first B 2 switch (C) and the second B 2 switch (A) to charge battery B 2 . 6. The system of claim 5 , wherein the controller is operable to close switches A and D to supply a summed voltage of batteries B 1 and B 2 across the DC bus. 7. The system of claim 1 , wherein when the controller determines that a battery of the plurality of batteries is broken, the controller opens at least one of the first and second switches corresponding to such broken battery. 8. The system of claim 1 , wherein the controller is further operable to monitor battery temperature for each of the plurality of batteries. 9. A method of operating an alternator-starter for starting an engine and charging a plurality of batteries, the alternator-starter having an inverter/rectifier, the method comprising: providing two switches for each battery; monitoring voltages of each of the plurality of batteries; switching the switches to selectively charge individual ones of the plurality of batteries when the alternator-starter is operated in a generating mode; and connecting the plurality of batteries in series to supply electrical power to the alternator-starter when operating the alternator-starter in a motoring mode and supplying mechanical torque to the engine to start engine. 10. The method of claim 9 , wherein when the monitored voltage of any one of the plurality of batteries is below a corresponding threshold voltage, closing the one battery's switches to connect such battery to the inverter/rectifier and thereby charge the battery. 11. A method of operating an alternator-starter having a stator with at least three coils, an inverter/rectifier having at least three nodes being connected to respective ones of the stator coils, the inverter/rectifier having an upper rail and a lower rail defining a DC bus, the method comprising: mechanically coupling the alternator-starter with an engine; providing a plurality of batteries, each battery having a positive (+) terminal and a negative (−) terminal; providing first and second switches for each battery, the first switch being operable to switchably connect the upper rail with the respective (+) terminal, the second switch being operable to switchably connect the lower rail with the respective (−) terminal; monitoring voltages of each battery; periodically charging the plurality of batteries with the alternator-starter wherein the switches are operable to charge the batteries in different configurations and the switches are operated to charge the plurality of batteries in series only when a rotational speed of a rotor of the alternator-starter exceeds a predetermined speed; and operating the switches to connect the plurality of batteries in series to supply electrical power to the alternator-starter when using the alternator-starter to supply torque to the engine to start the engine. 12. The method of claim 11 , wherein when the monitored voltage of any one of the plurality of batteries is below a corresponding threshold voltage, closing the one battery's first and second switches to charge such battery. 13. The method of claim 11 , further comprising closing the first switch of a series-beginning battery of the plurality of batteries and closing the second switch of a series-end battery of the plurality of batteries to thereby provide a summed voltage of such series of batteries across the DC bus. 14. The method of claim 13 , further comprising determining when the rotational speed of the rotor of the alternator-starter exceeds the predetermined speed and, if so, providing the summed voltage across the DC bus, to thereby charge the series of batteries. 15. The method of claim 14 , further comprising determining which batteries of the plurality of batteries to include in the series of batteries based on the rotational speed. 16. The method of claim 11 , further comprising monitoring the temperatures of respective ones of the plurality of batteries. 17. The method of claim 16 , further comprising defining a series voltage charging target for the series-connected batteries based on the monitored battery temperatures. 18. The method of claim 13 , further comprising, in motoring mode of the alternator-starter, determining when rotational speed of a rotor of the alternator-starter exceeds a predetermined speed and, if so, reducing the summed voltage across the DC bus.