Lithium ion battery heater systems and methods

What is claimed is: 1. An automated battery heating system capable of operating in cold weather environments, comprising: a heating element thermally coupled to a battery for heating the battery, wherein the battery is electrically coupled to the heating element for supplying electrical current to the heating element; an electronic controller programmed to operate the automated battery heating system, the electronic controller being communicatively coupled to the heating element for delivering electrical current from the battery to the heating element; a voltage meter electrically coupled to the battery and communicatively coupled to the electronic controller for monitoring a battery voltage, wherein the electronic controller delivers electrical current from the battery to the heating element based on information received from the voltage meter; a temperature transducer thermally coupled to the battery and communicatively coupled to the electronic controller for monitoring a battery temperature, wherein the electronic controller delivers electrical current from the battery to the heating element based on information received from the temperature transducer; and the heating element is powered cyclically to gradually heat the battery while avoiding a decline in the battery voltage below a predetermined discharge cut-off voltage greater than zero. 2. The automated battery heating system of claim 1 , further comprising a switch for enabling a user to engage the automated battery heating system. 3. The automated battery heating system of claim 1 , further comprising a timer for limiting the amount of time that the automated battery heating system remains in operation for preventing unintended draining of a charge of the battery. 4. The automated battery heating system of claim 1 , further comprising a status indicator for indicating that the automated battery heating system is in operation. 5. The automated battery heating system of claim 1 , wherein the electronic controller delivers electrical current from the battery to the heating element repeatedly based on a first duration of time on and a second duration of time off. 6. The automated battery heating system of claim 4 , wherein the second duration of time off is based on an amount of time for the battery to recover to its open circuit voltage when the battery is at a cold-soaked temperature. 7. The automated battery heating system of claim 1 , wherein the electronic controller delivers electrical current from the battery to the heating element repeatedly based on a voltage drop to a discharge cut-off voltage, the voltage drop being measured via the voltage meter. 8. The automated battery heating system of claim 1 , wherein the electronic controller provides electrical current from the battery to the heating element repeatedly based on a percentage of a duty cycle. 9. The automated battery heating system of claim 1 , wherein the electronic controller provides electrical current from the battery to the heating element repeatedly based on a percentage of a duty cycle, the percentage being based on a temperature measured via the temperature transducer. 10. The automated battery heating system of claim 9 , wherein the electronic controller provides electrical current from the battery to the heating element repeatedly based on a first percentage of a duty cycle for a first temperature and a second percentage of a duty cycle for a second temperature. 11. The automated battery heating system of claim 10 , wherein the first temperature is below a melting temperature of an electrolyte of the battery, and the second temperature is at or above the melting temperature of the electrolyte of the battery. 12. The automated battery heating system of claim 9 , wherein the duty cycle duration is decreased incrementally when the battery temperature reaches a target temperature. 13. An automated battery heater system for heating a cold-soaked battery having electrochemical cells, the battery heater system comprising: an electronic controller, a temperature transducer attached to the electronic controller for measuring a temperature of the battery, a voltage meter attached to the electronic controller for measuring a voltage of the battery, a heating element controlled by the electronic controller for heating the battery, an indicator operated by the electronic controller for indicating whether the heating element is operational, a switch for activating the electronic controller, and a timer circuit for deactivating the electronic controller; wherein the electronic controller is programmed with an algorithm to operate the heating element cyclically using power from the electrochemical cells to heat the battery gradually while avoiding a decline in the voltage below a predetermined discharge cut-off voltage greater than zero. 14. The automated battery heater system of claim 13 , wherein the battery is for an aircraft operated in a cold weather environment. 15. The automated battery heater system of claim 13 , wherein the battery is for a vehicle operated in a cold weather environment. 16. The automated battery heater system of claim 13 , wherein the battery is used in a mobile device. 17. The automated battery heater system of claim 16 , wherein the battery is used in a mobile phone. 18. The automated battery heater system of claim 17 , wherein the mobile device is a mobile computer.