Battery configuration for an electric vehicle

The invention claimed is: 1. A power delivery system for a vehicle, the system comprising: a drive train load having an electric motor configured to drive a wheel of the vehicle; a main battery configured to supply power, at a first discharge rate, to the drive train load; a boost battery configured to supply power, at a second discharge rate higher than the first discharge rate, to the drive train load; and a charging circuit coupled to the main battery and the boost battery, wherein the charging circuit is configured to charge the boost battery from the main battery at least partially based on a timing schedule, wherein the main battery includes a first chemistry, wherein the boost battery includes a second chemistry different from the first chemistry, and wherein the main battery and the boost battery are balanced based on the first chemistry and the second chemistry. 2. The power delivery system of claim 1 , wherein the timing schedule includes a first time interval, a second time interval, and a third time interval, and wherein the charging circuit is configured to charge the boost battery from the main battery during the first time interval. 3. The power delivery system of claim 2 , wherein the main battery is configured to supply power to the drive train load during the first time interval and the second time interval, and wherein the charging circuit is configured to stop charging the boost battery from the main battery during the second time interval. 4. The power delivery system of claim 2 , wherein the main battery is configured to supply power to the drive train load during the third time interval and wherein the boost battery is configured to supply power to the drive train load during the third time interval. 5. The power delivery system of claim 1 , wherein the drive train load includes an electric motor and a controller, and wherein the controller is coupled to the electric motor, and wherein the controller is configured to instruct the boost battery to provide power to the electric motor. 6. The power delivery system of claim 1 , further comprising a main battery management system (main BMS) coupled to the main battery, wherein the main BMS is configured to monitor a charging or discharging status of the main battery. 7. The power delivery system of claim 1 , further comprising a boost BMS coupled to the boost battery, wherein the boost BMS is configured to monitor a charging or discharging status of the boost battery. 8. The power delivery system of claim 1 , wherein the timing schedule includes enabling the main battery to intermittently or continuously charge the boost battery. 9. The power delivery system of claim 1 , further comprising a boost switch configured to operably isolate the boost battery from the drive train load, wherein the boost switch includes one or more of a diode switch, a directional switch. 10. The power delivery system of claim 1 , wherein, when the timing schedule is determined valid, the charging circuit is configured to charge the boost battery from the main battery based on the timing schedule, and wherein the timing schedule is valid when the vehicle is traveling. 11. The power delivery system of claim 1 , wherein the charging circuit is configured to charge the boost battery from the main battery in response to a determination that the vehicle is at rest. 12. The power delivery system of claim 1 , wherein the charging circuit is configured to charge the boost battery from the main battery in response to a load resistance of the drive train load. 13. A power delivery system for a vehicle, the system comprising: an electric motor configured to drive a wheel of the vehicle; a main battery configured to supply power, at a first discharge rate, to the electric motor; a boost battery configured to supply power, at a second discharge rate higher than the first discharge rate, to the electric motor; and a charging circuit coupled to the main battery and the boost battery, wherein the charging circuit is configured to charge the boost battery from the main battery at least partially based on a load resistance of the electric motor, wherein the main battery includes a first chemistry, wherein the boost battery includes a second chemistry different from the first chemistry, and wherein the main battery and the boost battery are balanced based on the first chemistry and the second chemistry. 14. The power delivery system of claim 13 , wherein the load resistance of the electric motor is indicative of an event that the vehicle is at rest. 15. The power delivery system of claim 13 , wherein the load resistance of the electric motor is indicative of an event that the vehicle is operating in a normal mode. 16. The power delivery system of claim 13 , wherein the charging circuit is configured to stop charging the boost battery from the main battery in response to an increase of the load resistance of the electric motor. 17. The power delivery system of claim 13 , wherein the charging circuit is configured to charge the boost battery from the main battery at least partially based on a timing schedule. 18. The power delivery system of claim 17 , wherein the timing schedule includes a first time interval and a second time interval, and wherein the charging circuit is configured to charge the boost battery from the main battery during the first time interval. 19. The power delivery system of claim 18 , wherein the charging circuit is configured to stop charging the boost battery from the main battery during the second time interval. 20. The power delivery system of claim 13 , further comprising a main BMS coupled to the main battery, wherein the main BMS is configured to monitor a charging or discharging status of the main battery. 21. The power delivery system of claim 13 , further comprising a boost BMS coupled to the boost battery, wherein the boost BMS is configured to monitor a charging or discharging status of the boost battery. 22. The power delivery system of claim 13 , further comprising a boost switch configured to operably isolate the boost battery from the drive train load. 23. A power delivery system for a vehicle, the system comprising: an electric motor configured to drive a wheel of the vehicle; a main battery configured to supply power, at a first discharge rate, to the electric motor; a boost battery configured to supply power, at a second discharge rate higher than the first discharge rate, to the electric motor; and a charging circuit coupled to the main battery and the boost battery, wherein the charging circuit is configured to charge the boost battery from the main battery based on a load resistance of the electric motor or a timing schedule, wherein the main battery includes a first chemistry, wherein the boost battery includes a second chemistry different from the first chemistry, and wherein the main battery and the boost battery are balanced based on the first chemistry and the second chemistry.