Opportunistic charging of hybrid vehicle battery

What is claimed is: 1. A method of operating a powertrain comprising: while a motor is driveably connected to an engine by a first clutch and driveably disconnected from a transmission gearbox by a second clutch, operating the motor to generate a first charging torque based on a state of charge of a battery; in response to a decrease in engine speed, controlling the engine to increase the engine speed toward a predetermined engine idle speed; and in response to the engine speed decreasing below a threshold, further operating the motor to adjust the first charging torque to decrease the load on the engine. 2. The method of claim 1 further comprising: engaging the second clutch to driveably connect the motor to the transmission gearbox; controlling the engine to produce an engine torque based on the engine speed and the state of charge; and further operating the motor to generate a second charging torque such that a sum of the second charging torque and the engine torque satisfies a driver demanded net torque, wherein the driver demanded net torque is based on the engine speed and an accelerator pedal position. 3. The method of claim 2 further comprising: further operating the motor to generate a minimum charging torque, wherein the minimum charging torque is a based on engine speed. 4. The method of claim 2 further comprising: further operating the motor to generate a positive torque to assist the engine in satisfying the driver demanded net torque. 5. A method of operating a traction motor in a vehicle, the motor having a rotor selectively connected for rotation with an engine at a positive rotor speed by a first clutch and selectively connected to a transmission gearbox by a second clutch, the method comprising: with the first clutch engaged and the second clutch disengaged, applying a negative torque to the engine while generating electrical power, wherein the torque varies in response to changes in a state of charge of a battery and is substantially independent of the rotor speed for rotor speeds above a threshold; and in response to the rotor speed decreasing below the threshold, increasing the torque to decrease load on the engine. 6. The method of claim 5 further comprising: engaging the second clutch; and applying a positive torque to the transmission gearbox to propel the vehicle. 7. A vehicle powertrain comprising: an engine; a motor electrically connected to a battery; a first clutch configured to selectively couple the engine to the motor; a second clutch configured to selectively couple the motor to a gearbox; and a controller configured to while the first clutch is engaged and the second clutch is disengaged, operate the motor to generate a first charging torque based on a state of charge of the battery, respond to a decrease in engine speed resulting from a load on the engine associated with the first charging torque by controlling the engine to increase the engine speed toward a predetermined engine idle speed, and respond to the engine speed decreasing below a threshold by adjusting the first charging torque to decrease the load on the engine. 8. The vehicle powertrain of claim 7 wherein the controller is further configured to engage the second clutch; control the engine to produce an engine torque based on the engine speed and the state of charge; and control the motor to generate a second charging torque such that a sum of the second charging torque and the engine torque satisfies a driver demanded net torque, wherein the driver demanded net torque is based on the engine speed and an accelerator pedal position. 9. The vehicle powertrain of claim 8 wherein the controller is further programmed to control the motor to generate a positive torque to assist the engine in satisfying the driver demanded net torque.