Starter assembly and methods for starting a combustion engine

What is claimed is: 1. A turbine air starter assembly, comprising: a housing defining an interior with an air inlet and an air outlet defining a flow path through the housing; a rotatable turbine located within the flow path within the interior; a controllable pressure valve located upstream from the rotatable turbine; a rotatable pinion gear rotatably coupled with the rotatable turbine, wherein the rotatable pinion gear extends exteriorly of the housing and is operably coupled to a combustion engine; a torque sensor providing a torque output indicative of a torque experienced by the rotatable pinion gear; and a controller module configured to: during a start sequence of the combustion engine, monitor a speed parameter indicative of a rotational speed of the turbine air starter assembly and a torque parameter based on at least the torque output indicative of the torque experienced by the rotatable pinion gear; determine whether the monitored speed parameter exceeds a start sequence speed profile and whether the monitored torque parameter exceeds a predetermined torque threshold indicative of causing damage to the rotatable pinion gear of the turbine air starter assembly; in response to determining the monitored speed parameter does not exceed the start sequence speed profile and the monitored torque parameter does not exceed the predetermined torque threshold, controlling the pressure valve to increase a pressure of inlet air provided to the inlet to increase the rotational speed of the turbine air starter assembly; and in response to determining the monitored torque parameter exceeds the predetermined torque threshold, at least one of: controllably decreasing or maintaining the pressure of the inlet air by controlling the pressure valve. 2. The turbine air starter assembly of claim 1 , wherein the controller module is configured to cease the increasing of the rotational speed of the turbine air starter assembly when the combustion engine attains a self-sustaining operating rotational speed. 3. The turbine air starter assembly of claim 1 , further comprising a speed sensor providing the speed parameter, wherein the speed parameter is indicative of a rotational speed of the rotatable pinion gear of the air turbine starter assembly. 4. The turbine air starter assembly of claim 1 , further comprising a speed sensor providing the speed parameter, wherein the speed parameter is indicative of the rotational speed of a gear train of the air turbine starter assembly. 5. The turbine air starter assembly of claim 1 , further comprising a speed sensor providing the speed parameter, wherein the speed parameter is indicative of a rotational speed of the rotatable turbine of the air turbine starter assembly. 6. The turbine air starter assembly of claim 1 , wherein the controller module is mounted to the housing. 7. The turbine air starter assembly of claim 1 , wherein the controller module is separate from the housing. 8. A turbine air starter assembly, comprising: a housing defining an interior with an air inlet and an air outlet defining a flow path through the housing; a rotatable turbine located within the flow path within the interior; a controllable pressure valve located upstream from the rotatable turbine, wherein the controllable pressure valve includes a controllable relay valve that regulates air pressure supplied by a pressure source; a rotatable pinion gear rotatably coupled with the rotatable turbine, wherein the rotatable pinion gear extends exteriorly of the housing and is operably coupled to a combustion engine; a pressure sensor located at the air inlet for providing a pressure output indicative of the air pressure at the air inlet; a torque sensor located in the housing for providing a torque parameter indicative of a torque experienced by the rotatable pinion gear; a speed sensor located in the housing for providing a speed parameter indicative of a rotational speed of a portion of the turbine air starter assembly; a controller module in communication with the controllable relay valve, the pressure sensor, the torque sensor, and the speed sensor, for determining a starting sequence based on the speed parameter and the torque parameter, wherein the controller module is configured to receive the torque parameter from the torque sensor, compare the torque parameter and a predetermined torque threshold indicative of causing damage to the rotatable pinion gear, determine if the torque parameter satisfies the predetermined torque threshold, and control a rate of acceleration of the rotatable pinion gear in response to the determination of whether the torque parameter satisfies the predetermined torque threshold; and a light indicator, an audible indicator, or a relay in communication with the controller module; wherein when the controller module determines the torque parameter satisfies the predetermined torque threshold, a condition of the starting sequence is determined by the controller module to be indicative of probable damage to the rotatable pinion gear, and the light indicator, the audible indicator, or the relay provides an indicator via a light, a sound, or transmission of an electronic message respectively. 9. The turbine air starter assembly of claim 8 , further comprising, wherein the controller module receives the speed parameter and the torque parameter, and in response to determining, at the controller module, that the speed parameter is less than a start sequence speed profile and the torque parameter is less than the predetermined torque threshold, the controller module controllably increases the rotational speed of the turbine air starter assembly. 10. The turbine air starter assembly of claim 9 , wherein the controller module increases the rotational speed of the turbine air starter assembly via the controllable pressure valve. 11. The turbine air starter assembly of claim 10 , wherein the controller module increases the rotational speed of the turbine air starter assembly further based on the pressure output provided by the pressure sensor. 12. The turbine air starter assembly of claim 9 , wherein the controller module is configured to cease the increasing of the rotational speed of the turbine air starter assembly when the combustion engine attains a self-sustaining operating rotational speed. 13. The turbine air starter assembly of claim 8 , wherein the light indicator and the relay in communication with the controller module provide at least an alarm light via the light indicator and electronic information indicative of the condition of the starting sequence via the relay. 14. The turbine air starter assembly of claim 8 , wherein the light indicator, the audible indicator, and the relay in communication with the controller module provide an alarm light via the light indicator, an audible sound via the audible indicator, and electronic information indicative of the condition of the starting sequence via the relay. 15. A method of starting the combustion engine with the turbine air starter assembly of claim 8 , the method comprising: during the starting sequence of the combustion engine, controlling the rate of acceleration of the rotatable pinion gear rotatably coupled with the combustion engine, by the controller module, receiving, at the controller module, a torque output from the torque sensor, wherein the torque output is indicative of the torque experienced by the rotatable pinion gear during the controlling of the rate of acceleration; determining, at the controller module, the torque parameter based on at least the torque output; comparing, at the controller module, the