Method and apparatus for controlled stopping of internal combustion engine

What is claimed is: 1. A method of controlled stopping an internal combustion engine equipped with an engine stop-start mode and a starter assembly having a pinion gear, comprising: detecting, via an electronic controller, when the engine stop-start mode is active; monitoring, via the electronic controller, a current rotational speed and a current rotational position of the internal combustion engine; determining, via the electronic controller, that the current rotational position of the internal combustion engine is within a predetermined range of a target stop rotational position; determining, via the electronic controller, that the current rotational speed of the internal combustion engine is less than a threshold rotational speed; detecting a fuel being supplied to the internal combustion engine and spinning the pinion gear at a predetermined speed prior to energizing the starter assembly; energizing the starter assembly to engage the internal combustion engine when the fuel is being supplied and when the current rotational position of the internal combustion engine is within the predetermined range of the target stop rotational position and the current rotational speed of the internal combustion engine is less than the threshold rotational speed; establishing, via the electronic controller, a time delay following energizing the starter assembly to confirm engagement of the starter assembly with the internal combustion engine; and applying a torque by the starter assembly following the time delay to stop the internal combustion engine at the target stop rotational position. 2. The method of claim 1 , further comprising: assessing, via the electronic controller, whether the target stop rotational position of the internal combustion engine is reached; and disengaging the starter assembly from the internal combustion engine when the target stop rotational position is reached. 3. The method of claim 2 , further comprising detecting, via a sensor, the target stop rotational position of the internal combustion engine having been reached, and communicating, to the electronic controller via the sensor, a signal indicative of the target stop rotational position of the internal combustion engine having been reached. 4. The method of claim 1 , wherein the starter assembly additionally includes a brushless electric motor and a solenoid, wherein the brushless electric motor is configured to spin the pinion gear and the solenoid is configured to shift the pinion gear, and wherein the time delay is 50 milliseconds. 5. The method of claim 4 , wherein the starter assembly is characterized by the absence of a one-way clutch arranged between the solenoid and the pinion gear, such that the pinion gear is operatively coupled to the brushless electric motor when the solenoid is activated. 6. The method of claim 4 , wherein the internal combustion engine includes a crankshaft connected to a ring gear, and wherein energizing the starter assembly to engage the internal combustion engine includes energizing the solenoid to shift the pinion gear for engagement with the ring gear. 7. The method of claim 6 , wherein the starter assembly additionally includes a housing and a spring arranged between the pinion gear and the housing, and wherein the spring is configured to release the pinion gear from the ring gear when the solenoid is de-energized. 8. The method of claim 7 , wherein each of the current rotational position of the internal combustion engine and the current rotational speed of the internal combustion engine is that of the crankshaft. 9. The method of claim 8 , wherein the target stop position of the internal combustion engine is a stop position of the crankshaft with respect to top dead center (TDC), and wherein the target stop position of the crankshaft is in a range of +/−30 degrees with respect to TDC. 10. The method of claim 1 , wherein applying the torque by the starter assembly to stop the internal combustion engine at the target stop rotational position includes determining, via the electronic controller, a difference between the current rotational position of the internal combustion engine and the target stop rotational position of the internal combustion engine, and determining the torque to stop the internal combustion engine at the target stop rotational position by the starter assembly according to the mathematical relationship T=Kp*θerr+ki∫θerr dt using the determined difference between the current rotational position of the internal combustion engine and the target stop rotational position of the internal combustion engine. 11. A vehicle powertrain comprising: an internal combustion engine equipped with an engine stop-start mode; a starter assembly having a pinion gear; and an electronic controller configured to: detect when the internal combustion engine stop-start mode is active; monitor a current rotational speed and a current rotational position of the internal combustion engine; determine that the current rotational position of the internal combustion engine is within a predetermined range of a target stop rotational position; determine that the current rotational speed of the internal combustion engine is less than a threshold rotational speed; detect a fuel being supplied to the internal combustion engine and spin the pinion gear at a predetermined speed prior to energizing the starter assembly; energize the starter assembly to engage the internal combustion engine when the fuel is being supplied and when the current rotational position of the internal combustion engine is within the predetermined range of the target stop rotational position and the current rotational speed is less than the threshold rotational speed; establish a time delay following energizing the starter assembly to confirm engagement of the starter assembly with the internal combustion engine; and apply a torque by the starter assembly following the time delay to stop the internal combustion engine at the target stop rotational position. 12. The vehicle powertrain of claim 11 , wherein the electronic controller is additionally configured to: assess whether the target stop rotational position of the internal combustion engine is reached; and disengage the starter assembly from the internal combustion engine when the target stop rotational position is reached. 13. The vehicle powertrain of claim 12 , further comprising a sensor configured to detect the target stop position having been reached, wherein the electronic controller is additionally configured to receive a signal from the sensor indicative of the target stop rotational position having been reached. 14. The vehicle powertrain of claim 11 , wherein the starter assembly additionally includes a brushless electric motor and a solenoid, wherein the brushless electric motor is configured to spin the pinion gear and the solenoid is configured to shift the pinion gear, and wherein the time delay is 50 milliseconds. 15. The vehicle powertrain of claim 14 , wherein the starter assembly is characterized by the absence of a one-way clutch arranged between the solenoid and the pinion gear, such that the pinion gear is operatively coupled to the brushless electric motor when the solenoid is activated. 16. The vehicle powertrain of claim 14 , wherein the internal combustion engine includes a crankshaft connected to a ring gear, and wherein the starter assembly is energized to engage the internal combustion engine via energizing the solenoid to shift the pinion gear for engagement with the ring gear. 17. The vehicle powertrain of claim 16