Motorized treadmill with motor braking mechanism and methods of operating same

What is claimed: 1. A treadmill, comprising: a frame; a front shaft assembly coupled to the frame; a rear shaft assembly coupled to the frame and spaced apart from the front shaft assembly; a running belt disposed about the front and rear shaft assemblies; and a motor coupled to the running belt, the motor operable in a plurality of user controlled operating modes; wherein in response to receiving a selection of a first operating mode of the plurality of user controlled operating modes, the force of rotation of the running belt is provided by a user of the treadmill; and wherein in response to receiving a selection of a second operating mode of the plurality of user controlled operating modes: the motor applies a rotational speed to the running belt, and the motor generates a torque output applied to the running belt based on a force exerted on the running belt by a user of the treadmill. 2. The treadmill of claim 1 , wherein in response to receiving a selection of a third operating mode of the plurality of user controlled operating modes, rotation of the running belt in one of a first rotational direction and in a second rotational directional is resisted by a braking force selectively applied by the motor. 3. The treadmill of claim 1 , wherein the motor is coupled to one of the front shaft assembly and the rear shaft assembly. 4. The treadmill of claim 1 , wherein the running belt defines a substantially planar running surface. 5. The treadmill of claim 1 , wherein the running belt defines a non-planar running surface. 6. A treadmill, comprising: a running belt; and a motor coupled to the running belt, the motor operable in a plurality of user controlled operating modes; wherein in response to receiving a selection of a first operating mode of the plurality of user controlled operating modes, the force of rotation of the running belt is provided by a user of the treadmill; wherein in response to receiving a selection of a second operating mode of the plurality of user controlled operating modes, the motor applies a desired braking force for resisting the rotation of the running belt; and wherein in response to receiving a selection of a third operating mode of the plurality of user controlled operating modes: the motor applies a rotational speed to the running belt, and the motor applies a torque output to the running belt based on a force exerted on the running belt by a user of the treadmill. 7. The treadmill of claim 6 , wherein the braking force is a user definable setting, wherein increasing the braking force increases a force required by the user to rotate the running belt and decreasing the braking force decreases a force required by the user to rotate the running belt. 8. The treadmill of claim 6 , wherein the desired braking force is an adjustable setting, wherein increasing the desired braking force increases a force required by the user to rotate the running belt and decreasing the desired braking force decreases a force required by the user to rotate the running belt. 9. The treadmill of claim 6 , wherein in response to receiving a selection of a fourth operating mode of the plurality of user controlled operating modes, the motor applies a torque assist force to the running belt, the torque assist force configured to assist rotation of the running belt in addition to a force applied by the user to the running belt. 10. The treadmill of claim 6 , further comprising: a frame; a front shaft assembly coupled to the frame; and a rear shaft assembly coupled to the frame and spaced apart from the front shaft assembly; wherein the running belt is disposed about the front and rear shaft assemblies. 11. The treadmill of claim 10 , wherein the motor is coupled to the front shaft assembly so that the desired braking force provided by the motor is applied to the front shaft assembly in the second operating mode. 12. The treadmill of claim 10 , wherein the motor is coupled to the rear shaft assembly so that the desired braking force provided by the motor is applied to the rear shaft assembly in the second operating mode. 13. The treadmill of claim 6 , wherein the running belt defines a non-planar running surface. 14. The treadmill of claim 6 , wherein the running belt defines a substantially planar running surface. 15. A treadmill, comprising: a running belt; and a motor coupled to the running belt, the motor operable in a plurality of operating modes such that: in a first operating mode of the plurality of the operating modes, the motor applies a desired braking force for resisting rotation of the running belt; in a second operating mode of the plurality of operating modes, the motor drives rotation of the running belt; and in a third operating mode of the plurality of operating modes: the motor applies a rotational speed to the running belt, and the motor applies a torque output to the running belt based on a force exerted on the running belt by a user of the treadmill. 16. The treadmill of claim 15 , wherein in response to receiving a selection of a fourth operating mode of the plurality of operating modes, the motor applies a torque assist force to the running belt, the torque assist force configured to assist rotation of the running belt in addition to a force applied by the user to the running belt. 17. The treadmill of claim 15 , wherein in the second operating mode, the motor is adapted for selective rotation of the running belt in a first rotational direction and in a second rotational directional, the second rotational direction being opposite the first rotational direction. 18. The treadmill of claim 15 , wherein in the first operating mode, the motor applies the desired braking force at a predefined speed value, wherein the predefined speed value is approximately zero revolutions-per-minute. 19. The treadmill of claim 15 , wherein the desired braking force is a user controlled setting, wherein increasing the desired braking force increases a force required by the user to rotate the running belt and decreasing the desired braking force decreases a force required by the user to rotate the running belt.