Vehicle and method for improving performance at low battery limits

What is claimed is: 1. A method for controlling a vehicle having an engine, a generator drivably coupled to the engine, a traction motor electrically coupled to the generator and to an electrical storage device comprising: while the engine is providing drive torque, increasing engine output to increase available traction motor torque at a rate that varies based on available power from the electrical energy storage device when driver demanded power exceeds a corresponding threshold, and wherein the rate of increase engine output varies based upon a difference between available power in the electrical energy storage device and a combination of desired motor power and desired generator power. 2. The method of claim 1 , further comprising filtering the difference with a filter, wherein a magnitude of filtering is adjustable. 3. The method of claim 2 , wherein the magnitude of filtering is adjusted based upon a discharge limit of the electrical storage device. 4. The method of claim 3 , further comprising reducing the magnitude of filtering based upon a charge level of the electrical energy storage device being below a threshold. 5. The method of claim 1 , further comprising inhibiting further increasing of the engine output based upon the available power in the electrical energy storage device exceeding a charge limit. 6. The method of claim 1 , wherein the rate of increasing engine output varies inversely with the available power from the electrical energy storage device. 7. A vehicle, comprising: an engine; a generator drivably connected to the engine; a battery electrically coupled to a motor and the generator; and a controller configured to increase engine output to increase rotational speed of the generator and available motor torque while the engine is running, wherein a magnitude of the increase of engine output is based upon a difference between available power in the battery and desired power in the motor and generator. 8. The hybrid electric vehicle of claim 7 , generator transmits additional electrical power to the motor based on the increase of the output of the engine, such that the motor has a power output that exceeds the available power in the electrical energy storage device. 9. The hybrid electric vehicle of claim 7 , wherein the generator and the motor are one integrated machine. 10. The hybrid electric vehicle of claim 7 , wherein the controller is further configured to filter the difference by an intensity that is based upon a discharge limit of the electrical energy storage device. 11. The hybrid electric vehicle of claim 7 , further comprising a transmission that includes a planetary gear set that drivably couples the engine to the generator such that the increase in output of the engine increases the rotational speed of the planetary gearset and generator to generate an increased amount of electrical power. 12. The hybrid electric vehicle of claim 7 , wherein the generator and the motor are one integrated machine, and wherein the engine, the machine, and the transmission are selectively coupled in series by clutches. 13. A computer system for controlling an engine in a hybrid electric vehicle comprising: a controller communicatively coupled to an engine and programmed to transmit power to wheels of the vehicle from both an engine and a traction motor; and while engine power is transmitting, increase engine power, to increase available traction motor torque, at a rate that varies based on available power from an electrical energy storage device when driver demands exceed a corresponding threshold. 14. The computer system of claim 13 , wherein the increase of the engine power increases an available power output of the motor, such that the motor has an available power output that exceeds the available power in the electrical energy storage device. 15. The computer system of claim 13 , wherein the engine is drivably coupled to a generator, and wherein the rate of increasing of the engine power varies based upon a difference between available power in the electrical energy storage device and a combination of desired motor power and desired generator power. 16. The computer system of claim 13 , wherein the rate of increasing the engine power varies inversely with the available power from the electrical energy storage device.