Systems and methods for managing battery state of charge

What is claimed is: 1. A state of charge (SOC) control system of a vehicle comprising: an inverter power module that: when being switched, selectively applies power from a battery to a permanent magnet (PM) electric motor; and when not being switched, selectively provides power output by the PM electric motor for the battery; a switch (i) that is connected between the inverter power module and the battery, (ii) that, when open, prevents power flow the inverter power module from the battery, and (iii) that, when closed, enables power flow between the inverter power module and the battery; an adjustment module that determines an SOC adjustment based on at least one of (i) a vehicle speed and (ii) a temperature of the battery; a maximum module that receives a first maximum SOC of the battery that is less than 100 percent and that determines a second maximum SOC of the battery based on the first maximum SOC and the SOC adjustment; and a clutch control module that disengages a clutch, thereby decoupling the PM electric motor from a transmission, when the switch is stuck closed and an SOC of the battery is greater than the second maximum SOC. 2. The SOC control system of claim 1 further comprising a SOC module that determines the SOC of the battery based on at least one of a voltage of the battery and current through the switch. 3. The SOC control system of claim 1 wherein: the adjustment module sets the SOC adjustment to a predetermined value when the vehicle speed is less than a predetermined speed; and the maximum module sets the second maximum SOC equal to the first maximum SOC when the SOC adjustment is set to the predetermined value. 4. The SOC control system of claim 3 wherein, when the vehicle speed is greater than the predetermined speed, the maximum module sets the second maximum SOC to less than the first maximum SOC based on the SOC adjustment. 5. The SOC control system of claim 1 wherein the adjustment module determines the SOC adjustment based on both (i) the vehicle speed and (ii) the temperature of the battery. 6. The SOC control system of claim 5 wherein the adjustment module determines the SOC adjustment using a lookup table that relates vehicle speeds and battery temperatures to SOC adjustments. 7. The SOC control system of claim 5 wherein: the adjustment module sets the SOC adjustment to a first value when the vehicle speed is a first speed and the temperature of the battery is a first temperature; the adjustment module sets the SOC adjustment to a second value when the vehicle speed is the first speed and the temperature of the battery is a second temperature; the second temperature is less than the first temperature; the maximum module sets the second maximum SOC to a third value based on the first maximum SOC when the SOC adjustment is set to the first value; the maximum module sets the second maximum SOC to a fourth value based on the first maximum SOC when the SOC adjustment is set to the second value; and the fourth value is less than the third value. 8. The SOC control system of claim 1 wherein the clutch control module also disengages the clutch when the vehicle speed is greater than a predetermined speed. 9. The SOC control system of claim 8 wherein the predetermined speed is greater than 80 miles per hour. 10. The SOC control system of claim 1 wherein zero other switches are connected between inverter power module and the battery to, independently of whether the switch is open or closed, enable power flow between the inverter power module and the battery. 11. A state of charge (SOC) control method for a vehicle comprising: by an inverter power module, when being switched, selectively applying power from a battery to a permanent magnet (PM) electric motor; by the inverter power module, when not being switched, selectively providing power output by the PM electric motor for the battery; selectively opening and closing a switch is connected between the inverter power module and the battery, wherein, when open, the switch prevents power flow the inverter power module from the battery, and wherein, when closed, the switch enables power flow between the inverter power module and the battery; determining an SOC adjustment based on at least one of (i) a vehicle speed and (ii) a temperature of the battery; receiving a first maximum SOC of the battery that is less than 100 percent; determining a second maximum SOC of the battery based on the first maximum SOC and the SOC adjustment; and disengaging a clutch, thereby decoupling the PM electric motor from a transmission, when the switch is stuck closed and an SOC of the battery is greater than the second maximum SOC. 12. The SOC control method of claim 11 further comprising determining the SOC of the battery based on at least one of a voltage of the battery and current through the switch. 13. The SOC control method of claim 11 further comprising: setting the SOC adjustment to a predetermined value when the vehicle speed is less than a predetermined speed; and setting the second maximum SOC equal to the first maximum SOC when the SOC adjustment is set to the predetermined value. 14. The SOC control method of claim 13 further comprising, when the vehicle speed is greater than the predetermined speed, setting the second maximum SOC to less than the first maximum SOC based on the SOC adjustment. 15. The SOC control method of claim 11 further comprising determining the SOC adjustment based on both (i) the vehicle speed and (ii) the temperature of the battery. 16. The SOC control method of claim 15 further comprising determining the SOC adjustment using a lookup table that relates vehicle speeds and battery temperatures to SOC adjustments. 17. The SOC control method of claim 15 further comprising: setting the SOC adjustment to a first value when the vehicle speed is a first speed and the temperature of the battery is a first temperature; setting the SOC adjustment to a second value when the vehicle speed is the first speed and the temperature of the battery is a second temperature, wherein the second temperature is less than the first temperature; setting the second maximum SOC to a third value based on the first maximum SOC when the SOC adjustment is set to the first value; and setting the second maximum SOC to a fourth value based on the first maximum SOC when the SOC adjustment is set to the second value, wherein the fourth value is less than the third value. 18. The SOC control method of claim 11 further comprising disengaging the clutch when the vehicle speed is greater than a predetermined speed. 19. The SOC control method of claim 18 wherein the predetermined speed is greater than 80 miles per hour. 20. The SOC control method of claim 11 wherein zero other switches are connected between inverter power module and the battery to, independently of whether the switch is open or closed, enable power flow between the inverter power module and the battery.