Systems and methods for controlling gas powered appliances

What is claimed is: 1. A control system for controlling a gas powered water heater to produce hot water in a storage tank by burning gas at a main burner, the control system comprising: a power system to provide electrical power to the control system, wherein the power system comprises: a thermoelectric generator configured for thermal communication with a pilot burner to produce a first voltage output; and a self-oscillating power converter coupled to receive the first voltage output from the thermoelectric generator and generate a second voltage output; a valve control system configured to be coupled to a main gas valve and to selectively hold the main gas valve in an open position to provide gas to a main burner, wherein the valve control system is further configured to selectively hold a pilot gas valve in an open position to permit gas to flow through the pilot gas valve to the pilot burner, wherein the first voltage output is coupled to the valve control system, and wherein the valve control system is configured to selectively use the first voltage output to hold the main gas valve in the open position; a valve pick system configured to be coupled to the main gas valve in parallel with the valve control system and to selectively pick the main gas valve from a closed position to the open position; a safety system configured to prevent the valve control system from holding the main gas valve in the open position, wherein the safety system includes a safety switch connected between an output terminal of the thermoelectric generator and ground and is configured to prevent the thermoelectric generator from providing the first voltage output to the valve control system without interrupting a connection between the thermoelectric generator and the valve control system by coupling the output terminal of the thermoelectric generator to ground through the safety switch causing the thermoelectric generator to provide a third voltage output less than the first voltage output, wherein the safety system is configured to cause the thermoelectric generator to provide the third voltage output by coupling the output terminal of the thermoelectric generator either directly to around through the safety switch or to ground through the safety switch and a resistance; and a controller electrically powered by the power system and communicatively coupled to the valve control system, the valve pick system, and the safety system, the controller configured to control operation of the main burner and the main gas valve using the valve control system, the valve pick system, and the safety system to provide water heated to a setpoint temperature, wherein the controller receives and is electrically powered by the second voltage output from the self-oscillating power converter, the controller is configured to couple the received second voltage output to the valve pick system to provide a pick voltage, and wherein the valve pick system is configured to selectively use the pick voltage to pick the main gas valve from a closed position that prevents gas from flowing to the main burner to the open position. 2. The control system of claim 1 , wherein the resistance is connected in series with the safety switch and wherein the safety system is configured to cause the thermoelectric generator to provide the third voltage output by closing the safety switch to electrically connect the resistance to the output terminal of the thermoelectric generator in parallel with the valve control system. 3. A water heater comprising: a storage tank; a main burner configured to burn gas to heat water in the storage tank; a main gas valve coupled to the main burner and having an open position permitting gas flow through the main gas valve and a closed position preventing gas flow through the main gas valve; a pilot configured to ignite gas burned by the main burner, the pilot comprising: a pilot burner configured to burn gas to provide an ignition source for the main burner; and a pilot gas valve coupled to the pilot burner and having an open position permitting gas flow through the pilot gas valve and a closed position preventing gas flow through the pilot gas valve; and a control system configured to control operation of the main burner and the pilot to provide water in the storage tank substantially at a setpoint temperature, the control system comprising: a power system to provide electrical power to at least part of the control system, the power system comprising: a thermoelectric generator positioned for thermal communication with the pilot to produce a first voltage output; and a self-oscillating power converter coupled to receive the first voltage output from the thermoelectric generator and generate a second voltage output; a valve control system coupled to the main gas valve and configured to selectively hold the main gas valve in the open position, the valve control system further configured to selectively hold the pilot gas valve in the open position, wherein the valve control system is coupled to the thermoelectric generator to receive the first voltage output to hold the main gas valve in the open position; a valve pick system coupled to the main gas valve in parallel with the valve control system and configured to selectively pick the main gas valve from the closed position to the open position; a safety system configured to prevent the valve control system from holding the main gas valve in the open position, and to prevent, in response to a command from the controller, the thermoelectric generator from providing the first voltage output, wherein the safety system includes a safety switch connected between an output terminal of the thermoelectric generator and ground and is configured to prevent the thermoelectric generator from providing the first voltage output by coupling the output terminal of the thermoelectric generator to ground through the safety switch causing the thermoelectric generator to provide a third voltage output less than the first voltage output; and a controller electrically powered by the second voltage output from the self-oscillating power converter and communicatively coupled to the valve control system, the valve pick system, and the safety system, the controller configured to: control operation of the main burner, the main gas valve, and the pilot using the valve control system, the valve pick system, and the safety system to provide water in the storage tank heated to substantially the setpoint temperature. 4. The water heater of claim 3 , wherein the controller is configured to provide a pick voltage to the valve pick system, and wherein the valve pick system is configured to selectively use the pick voltage to pick the main gas valve from the closed position to the open position. 5. The water heater of claim 3 , wherein the pick voltage is equal to the second voltage output. 6. The water heater of claim 3 , wherein the self-oscillating power converter is the only direct current (DC) to DC power converter. 7. The water heater of claim 3 , wherein the valve control system is coupled to the thermoelectric generator to receive the first voltage output to hold the main gas valve in the open position. 8. The water heater of claim 7 , wherein the valve control system is configured to selectively couple the first voltage output to the main gas valve in response to a signal from the controller. 9. The water heater of claim 8 , wherein the valve control system is configured to decouple the first voltage output from the main gas valve if the valve control system does not receive an expected signal from the controller within a predetermined time. 10. The water heater of claim 9 , wherein the controller is configured