Vehicle battery pre-charge feature

What is claimed is: 1. A system for pre-charging a hybrid vehicle comprising: a battery having a state of charge; a transmission; an engine having an on mode, coupled to the transmission and configured to output torque when in the on mode; a motor-generator having a drive mode and a regeneration mode, coupled to the battery and the transmission and configured to output torque to the transmission when in the drive mode and to convert torque from the transmission to electrical power for recharging the battery when in the regeneration mode; a button configured to receive a user input to activate a pre-charge logic to increase the state of charge of the battery or a user input to deactivate the pre-charge logic; and a hybrid controller coupled to the battery, the motor-generator, the button and the engine and configured to cause the state of charge of the battery to increase in response to the button receiving the user input to activate the pre-charge logic and the state of charge of the battery being less than or equal to an upper state of charge threshold by instructing the motor-generator to operate in the regeneration mode and instructing the engine to operate in the on mode until at least one of: the button receives the user input to deactivate the pre-charge logic, or the state of charge of the battery reaches or exceeds the upper state of charge threshold. 2. The system of claim 1 , wherein the hybrid controller is further configured to deactivate the pre-charge logic in response to the current state of charge of the battery reaching the upper state of charge threshold. 3. The system of claim 1 , wherein the hybrid controller is further configured to deactivate the pre-charge logic in response to the button being switched from the on state to the off state even when the current state of charge of the battery is below the upper state of charge threshold. 4. The system of claim 1 , wherein the upper state of charge threshold corresponds to an upper threshold of a state of charge window. 5. The system of claim 1 , wherein the upper state of charge threshold corresponds to a user-selected state of charge value that is above the upper threshold of the state of charge window. 6. The system of claim 1 , wherein the hybrid controller is further configured to determine the upper state of charge threshold and wherein the upper state of charge threshold is different from an upper threshold of a state of charge window. 7. The system of claim 1 , wherein the button includes at least one of a physical button, a physical switch or a touch-sensitive area on a display screen. 8. A hybrid vehicle comprising: a battery having a state of charge; a transmission; a sensor configured to detect data usable to determine a current location of the vehicle; a memory configured to store a stored location; an engine having an on mode, coupled to the transmission and configured to output torque when in the on mode; a motor-generator having a drive mode and a regeneration mode, coupled to the battery and the transmission and configured to output torque to the transmission when in the drive mode and to convert torque from the transmission to electrical power for recharging the battery when in the regeneration mode; and a processor coupled to the battery, the sensor, the memory, the engine and the motor-generator and configured to: compare the current location of the vehicle to the stored location, and activate a pre-charge logic in response to the current location of the vehicle being within a predetermined distance of the stored location, the pre-charge logic causing the state of charge of the battery to increase by instructing the motor-generator to operate in the regeneration mode and instructing the engine to operate in the on mode until at least one of: a user input to deactivate the pre-charge logic is received, or the state of charge of the battery reaches or exceeds an upper state of charge threshold. 9. The hybrid vehicle of claim 8 , wherein the upper state of charge threshold corresponds to an upper threshold of a state of charge window. 10. The hybrid vehicle of claim 8 , further comprising a button coupled to the processor and configured to receive user input and to toggle between an on state indicating a request for the processor to activate the pre-charge logic and an off state indicating a request for the processor to deactivate the pre-charge logic. 11. The hybrid vehicle of claim 8 , wherein the sensor is a GPS unit configured to detect location data. 12. The hybrid vehicle of claim 8 , wherein the stored location corresponds to a location at which the pre-charge logic was previously activated. 13. The hybrid vehicle of claim 8 , wherein the sensor includes at least one of a speed sensor configured to detect speed data, an accelerometer configured to detect acceleration data or a grade sensor configured to detect a grade of a road. 14. A method for pre-charging a hybrid vehicle comprising: receiving, at a hybrid controller coupled to an engine, a motor-generator and a battery, a first signal from a button indicating that the button has been switched from an off state, indicating that a pre-charge logic is not activated, to an on state, indicating that the pre-charge logic is activated, wherein the first signal is to increase the state of charge of the battery; activating, by the hybrid controller, the pre-charge logic in response to receiving the first signal, the pre-charge logic causing the engine to output torque to a transmission and the motor-generator to convert torque from the transmission to electrical power for recharging the battery; and deactivating, by the hybrid controller, the pre-charge logic in response to at least one of: receiving a second signal from the button indicating that the button has been switched from the on state, indicating that the pre-charge logic is activated, to the off state, indicating that the pre-charge logic is not activated, or determining a current state of charge of the battery reaches or exceeds an upper state of charge threshold. 15. The method of claim 14 , further comprising determining, by the hybrid controller, the upper state of charge threshold. 16. The method of claim 15 , wherein the upper state of charge threshold is determined based on user-defined requirements. 17. The method of claim 14 , further comprising determining, by the hybrid controller, that a current location of the hybrid vehicle is near a stored location that corresponds to a location at which the pre-charge logic was previously activated and activating, by the hybrid controller, the pre-charge logic in response to determining that the current location is near the stored location. 18. The method of claim 14 , further comprising determining, by the hybrid controller, to activate the pre-charge logic based on data detected by a sensor. 19. The method of claim 18 , wherein the sensor is a clock and the data corresponds to time data.