SF6 insultated circuit breaker system with heater

What is claimed is: 1. A sulfur hexafluoride (SF6) insulated circuit breaker system, comprising: a tank constructed to hold a quantity of SF6; a circuit breaker having contacts insulated by the SF6; a heater operative to supply heat to heat the SF6; at least two different sensors selected from the group including: an SF6 temperature sensor operative to sense a temperature of the SF6; an ambient temperature sensor operative to sense an ambient air temperature; a contact position sensor operative to indicate an open or a closed position of the contacts; and an SF6 density monitor operative to indicate a state associated with the density of the SF6 gas in the tank; and a controller coupled to the at least two different sensors and operative to control a heat output of the heater based on signals from the at least two different sensors. 2. The circuit breaker system of claim 1 , further comprising at least one additional different sensor selected from the group; wherein the controller is coupled to the at least two different sensors and the at least one additional different sensor and operative to control a heat output of the heater based on signals from the at least two different sensors and the at least one additional different sensor. 3. The circuit breaker system of claim 1 , wherein the at least two different sensors is the SF6 temperature sensor, the ambient temperature sensor, the contact position sensor, and the SF6 density monitor; and wherein the controller is coupled to the temperature sensor, the ambient temperature sensor, the contact position sensor, and the density monitor, and the controller is operative to control a heat output of the heater based on signals from the SF6 temperature sensor; the ambient temperature sensor; the contact position indicator; and the SF6 density monitor. 4. The circuit breaker system of claim 1 , wherein the controller is operative to modulate the heat output of the heater between 0% and 100% of maximum power. 5. The circuit breaker system of claim 4 , wherein the controller is operative to modulate the heat output of the heater by selecting a power output of 0%, 25%, 50%, 75% or 100% of maximum heater output. 6. The circuit breaker system of claim 1 , wherein the at least two different sensors includes the contact position indicator; and wherein the controller is operative to control the heater to provide a first heat output if the contact position sensor indicates that the contacts are closed and a second heat output if the contact position sensor indicates that the contacts are open, wherein the first heat output is less than the second heat output. 7. The circuit breaker system of claim 6 , wherein the controller is operative to direct the heater to increase the heat output if the contact position sensor indicates that the contacts changed from being closed to being open. 8. The circuit breaker system of claim 1 , wherein the at least two different sensor devices include the SF6 density monitor; and wherein the controller is operative to direct the heater to provide a higher heat output if the SF6 density monitor indicates an alarm state than if the SF6 density monitor indicates a nominal state. 9. The circuit breaker system of claim 1 , wherein the at least two different sensor devices include the SF6 density monitor; and wherein the controller is operative to direct the heater to provide a higher heat output if the SF6 density monitor indicates a lockout state than if the SF6 density monitor indicates a nominal state. 10. The circuit breaker system of claim 1 , wherein the at least two different sensor devices include the SF6 density monitor; and wherein the controller is operative to direct the heater to provide a higher heat output if the SF6 density monitor indicates a lockout state than if the SF6 density monitor indicates an alarm state. 11. A sulfur hexafluoride (SF6) insulated circuit breaker system, comprising: a tank constructed to hold a quantity of SF6; a circuit breaker having contacts insulated by the SF6; a heater operative to heat the SF6; a contact position sensor operative to indicate an open or a closed position of the contacts; and a controller coupled to the contact position sensor and operative to control the heater based on a signal from the contact position sensor. 12. The circuit breaker system of claim 11 , wherein the controller is operative to direct the heater to provide a greater heat output if the contacts are in an open position than if the contacts are in a closed position. 13. The circuit breaker system of claim 11 , wherein the controller is operative to direct the heater to supply heat or to increase the supply of heat to the SF6 if the contacts change from a closed position to an open position. 14. The circuit breaker system of claim 11 , wherein the controller is operative to direct the heater to decrease the supply of heat to the SF6 if the contacts change from an open position to a closed position. 15. The circuit breaker system of claim 11 , wherein the controller is operative to modulate the heat output of the heater. 16. A sulfur hexafluoride (SF6) insulated circuit breaker system, comprising: a tank constructed to hold a quantity of SF6; a circuit breaker having contacts insulated by the SF6; a heater operative to heat the SF6; an SF6 density monitor operative to monitor a density of the SF6; and a controller coupled to the SF6 density monitor and operative to control the heater based on a signal from the SF6 density monitor. 17. The circuit breaker system of claim 16 , wherein the controller is operative to control the heater to provide a lower heat output if the SF6 density monitor indicates a nominal state than if the SF6 density monitor indicates an alarm state. 18. The circuit breaker system of claim 16 , wherein the controller is operative to control the heater to provide a lower heat output if the SF6 density monitor indicates a nominal state than if the SF6 density monitor indicates a lockout state. 19. The circuit breaker system of claim 16 , wherein the controller is operative to control the heater to provide a lower heat output if the SF6 density monitor indicates an alarm state than if the SF6 density monitor indicates a lockout state. 20. The circuit breaker system of claim 16 , wherein the controller is operative to modulate the heat output of the heater.