Electronically controlled vent damper

What is claimed is: 1. A gas oven, comprising: an oven cavity including an exhaust vent; a carbon dioxide sensor positioned in the exhaust vent and having an output representative of carbon dioxide concentration in the exhaust vent; a carbon monoxide sensor positioned in the exhaust vent and having an output representative of carbon monoxide concentration in the exhaust vent; a broil gas burner disposed proximate at top of the oven cavity; a bake gas burner disposed proximate a bottom of the oven cavity; a movable damper in fluid communication with the exhaust vent, the damper capable of being moved to restrict or enhance air flow through the exhaust vent; an actuator operatively secured to the movable damper for providing motion thereto; and a controller having a processor and concomitant data memory, the controller having a plurality of inputs and outputs for receiving and providing electrical signals to a plurality of electrical components of the gas oven, wherein the controller provides an output to the actuator representative of a desired damper position for a desired oven operating characteristic, and wherein the controller is further configured to, during a cycle using one of the broil gas burner and the bake gas burner, actuate the damper responsive to at least one of the output of the carbon dioxide sensor and the output of the carbon monoxide sensor. 2. The gas oven of claim 1 , wherein the cycle is a first cycle, and wherein the controller is further configured to, during a second cycle using one of the broil gas burner and the bake gas burner: control the output to the actuator to place the damper in a first predetermined open position to aid in starting the one of the broil gas burner and the bake gas burner; after starting the one of the broil gas burner and the bake gas burner, control the output to the actuator to place the damper in a second predetermined open position that is more restricted to air flow than the first predetermined open position; and after turning off the one of the broil gas burner and the bake gas burner during the second cycle, control the output to the actuator to place the damper in a third predetermined open position that is more restricted to air flow than the second predetermined open position to reduce heat loss through the exhaust vent. 3. The gas oven of claim 2 , wherein the damper comprises at least one rotatable plate that is capable of rotation around a central axis. 4. The gas oven of claim 2 , wherein the damper comprises a plurality of louvers that are capable of rotation around a central axis. 5. The gas oven of claim 2 , wherein the damper comprises an articulating damper that is capable of extension and retraction into and out of the exhaust vent. 6. The gas oven of claim 2 , wherein the controller is configured to control the output to the actuator to place the damper in the second predetermined open position based upon a desired temperature set point. 7. The gas oven of claim 2 , wherein the first predetermined open position is a maximum open position. 8. The gas oven of claim 2 , wherein the third predetermined open position is a minimum open position. 9. The gas oven of claim 2 , wherein the second cycle is a convection cycle. 10. The gas oven of claim 2 , wherein the second cycle is a self-clean cycle. 11. The gas oven of claim 2 , wherein the one of the broil gas burner and the bake gas burner used in the second cycle is controlled by a variable valve, and the controller is further configured to determine a position of the variable valve within a range of positions and generate an output to the actuator based at least in part on the determined position of the variable valve, and wherein the controller is configured to generate the output to the actuator based at least in part on the determined position of the variable valve to optimize oven efficiency when the variable valve is in the determined position. 12. The gas oven of claim 1 , wherein the controller is provided with instructions to monitor carbon dioxide and monoxide concentrations and determine an air free carbon monoxide concentration, and wherein the controller is configured to actuate the damper responsive to at least one of the output of the carbon dioxide sensor and the output of the carbon monoxide sensor by actuating the damper responsive to the determined air free carbon monoxide concentration. 13. The gas oven of claim 1 , wherein the controller is configured to actuate the damper responsive to at least one of the output of the carbon dioxide sensor and the output of the carbon monoxide sensor by actuating the damper responsive to a carbon monoxide concentration. 14. The gas oven of claim 1 , wherein the controller is configured to actuate the damper responsive to at least one of the output of the carbon dioxide sensor and the output of the carbon monoxide sensor by actuating the damper responsive to carbon monoxide and carbon dioxide concentrations. 15. The gas oven of claim 1 , wherein the controller is configured to actuate the damper responsive to at least one of the output of the carbon dioxide sensor and the output of the carbon monoxide sensor by actuating the damper responsive to predetermined air free carbon monoxide set points. 16. The gas oven of claim 1 , wherein the one of the broil gas burner and the bake gas burner is controlled by a variable valve.