Power source with rechargeable energy storage device

What is claimed is: 1. A welding-type power source having an output for providing a desired welding-type power comprising: a housing; an internal combustion engine disposed in the housing; a generator operatively connected to the internal combustion engine and configured to deliver generator power; a detection circuit configured to detect the generator power delivered by the generator; and an energy storage device rechargeably connected to the generator and configured to deliver stored energy when the detection circuit detects that the generator power is less than the desired welding-type power. 2. The welding-type power source of claim 1 , wherein the generator is configured to deliver an auxiliary power. 3. The welding-type power source of claim 1 , comprising a controller configured to switch an electrical configuration of the welding-type power source to deliver power from one or both of the generator and the energy storage device to provide the desired welding-type power. 4. The welding-type power source of claim 3 , wherein the desired welding-type power is maintained such that a welding-type process is uninterrupted during switching of the source of the desired welding-type power between the energy storage device and the generator. 5. A welding-type device comprising: a power supply having a weld power circuit that receives input power on a power input and provides a desired weld power output; an engine connected to a generator having an output connected to the power input; a battery connected to the power supply and configured to provide a battery power signal to the power input; and a controller connected to the power supply and configured to selectively connect and disconnect the battery power signal from the power input based on an operating condition of the engine. 6. The welding-type device of claim 5 , wherein the generator is connected to recharge the battery during non-generation of the desired weld power output. 7. A welding-type power source comprising: an engine-driven generator connected to provide generated power on a generator output, wherein when an engine of the engine-driven generator is operating at a first speed, a generator of the engine-driven generator provides sufficient power to perform a welding-type process, and when the engine is operating at less than the first speed, the generator does not provide sufficient power to perform a welding-type process; an energy storage device connected to provide stored energy on a stored energy output; an energy selection circuit connected to the generator output, the stored energy output, and a power input, wherein the energy selection circuit selectively connects one, none, or both of the generator output and the stored energy output to the power input; a detection circuit configured to detect the generated power provided by the engine-driven generator; and a controller connected to control the energy selection circuit, wherein the energy selection circuit connects the generator output to the power input when the detection circuit detects that the generator provides sufficient power to perform a welding-type process, and wherein the energy selection circuit connects the stored energy output to the power input when the detection circuit detects that the generator does not provide sufficient power to perform a welding-type process. 8. The welding-type power source of claim 7 , wherein the energy selection circuit connects the generator output to the power input when the engine is at the first speed, and wherein the energy selection circuit connects the stored energy output to the power input when the engine is at less than the first speed. 9. The welding-type power source of claim 8 , wherein the energy selection circuit connects the generator output to the power input when the engine is at a full speed, and wherein the energy selection circuit connects the stored energy output to the power input when the engine is at an idle speed. 10. The welding-type power source of claim 8 , comprising an electrical parameter circuit feedback circuit connected to the generator output. 11. The welding-type power source of claim 7 , wherein the energy selection circuit selectively connects both of the generator output and the stored energy output to the power input. 12. A method of providing welding-type power comprising: providing generated power using an engine-driven generator; providing stored energy in an energy storage device; detecting via a detection circuit the generated power provided by the engine-driven generator; deriving welding-type power from the generated power when the detection circuit detects that the engine-driven generator provides sufficient power to perform a welding-type process; and deriving welding-type power from the stored energy when the detection circuit detects that the engine-driven generator does not provide sufficient power to perform a welding-type process. 13. The method of claim 12 , wherein deriving welding-type power from the generated power occurs when an engine of the engine-driven generator is at a first speed, and wherein deriving welding-type power from the stored energy occurs when the engine is at less than the first speed. 14. The method of claim 13 , wherein deriving welding-type power from the generated power occurs when the engine is at a full speed, and wherein deriving welding-type power from the stored energy occurs when the engine is at an idle speed. 15. The method of claim 12 , comprising monitoring an engine generator parameter and changing from deriving welding-type power from the generated power to deriving welding-type power from the stored energy in response to the monitoring. 16. The method of claim 15 , wherein monitoring includes monitoring an electrical engine generator parameter. 17. The method of claim 12 , comprising simultaneously deriving welding-type power from the generated power and deriving welding-type power from the stored energy. 18. The method of claim 17 , comprising ceasing deriving welding-type power from the stored energy when the engine-driven generator provides sufficient power to perform the welding-type process. 19. The method of claim 18 , comprising starting deriving welding-type power from the stored energy when the engine-driven generator does not provide sufficient power to perform the welding-type process, and the welding-type process is being performed. 20. The method of claim 17 , comprising starting deriving welding-type power from the stored energy when the engine-driven generator does not provide sufficient power to perform the welding-type process, and the welding-type process is being initiated.