AC cut cycles for vehicle air conditioning control based on high vehicle pitch conditions

What is claimed is: 1. A method of operating a heating, ventilating, and air conditioning system in a vehicle, the heating, ventilating, and air conditioning system including a compressor operable between an ON state and in an OFF state, the method comprising: determining if an engine water temperature is greater than or equal to a forced heating, ventilating, and air conditioning recirculation intake threshold; responsive to determining that the engine water temperature is greater than or equal to the forced heating, ventilating, and air conditioning recirculation intake threshold, determining if the engine water temperature is greater than or equal to a high water temperature threshold; responsive to determining that the engine water temperature is greater than or equal to the high water temperature threshold, determining if a vehicle pitch meets a vehicle pitch threshold; and responsive to determining that the engine water temperature is greater than or equal to the high water temperature threshold and that the vehicle pitch does not meet the vehicle pitch threshold, operating the compressor based on an air conditioning cut cycle, the air conditioning cut cycle including a predetermined time period in which the compressor is switched to the OFF state. 2. The method of claim 1 , wherein the air conditioning cut cycle is a first air conditioning cut cycle and the predetermined time period is a first predetermined time period, the method further including the step of: responsive to determining that the vehicle pitch does meet the vehicle pitch threshold, operating the compressor based on a second air conditioning cut cycle, the second air conditioning cut cycle including a second predetermined time period in which the compressor is switched to the OFF state, the second predetermined time period being longer than the first predetermined time period. 3. The method of claim 2 , wherein the vehicle pitch threshold is a first vehicle pitch threshold, the method further including the steps of: determining if the vehicle pitch meets a second vehicle pitch threshold; and responsive to determining that the vehicle pitch meets the second vehicle pitch threshold, operating the compressor based on a third air conditioning cut cycle, the third air conditioning cut cycle including a third predetermined time period in which the compressor is switched to the OFF state, the third predetermined time period being greater than the second predetermined time period. 4. The method of claim 3 , wherein each of the first, second, and third air conditioning cut cycles include a compressor state as a function of time. 5. The method of claim 4 , wherein the first air conditioning cut cycle includes alternating time periods in which the compressor is switched between the ON and OFF states, the alternating time periods in which the compressor is in the OFF state are each equal to the first predetermined time period. 6. The method of claim 5 , wherein the second air conditioning cut cycle includes second alternating time periods in which the compressor is switched between the ON and OFF states, the second alternating time periods in which the compressor is in the OFF state are each equal to the second predetermined time period. 7. The method of claim 6 , wherein the third air conditioning cut cycle includes switching the compressor to the OFF state for an entire duration of the third air conditioning cut cycle. 8. The method of claim 1 , wherein the forced heating, ventilating, and air conditioning recirculation intake threshold is a fixed temperature value, the high water temperature threshold is a fixed temperature value, and the forced heating, ventilating, and air conditioning recirculation intake threshold is less than the high water temperature threshold. 9. A method of operating a heating, ventilating, and air conditioning system in a vehicle, the heating, ventilating, and air conditioning system including a compressor operable between an ON state and in an OFF state, the method comprising: determining whether an engine water temperature is greater than or equal to a forced heating, ventilating, and air conditioning recirculation intake threshold; responsive to determining that the engine water temperature is greater than or equal to the forced heating, ventilating, and air conditioning recirculation intake threshold, determining if the engine water temperature is greater than or equal to a high water temperature threshold; responsive to determining that the engine water temperature is greater than or equal to the high water temperature threshold: determining if a vehicle pitch meets a first vehicle pitch threshold; and determining the vehicle if pitch meets a second vehicle pitch threshold; responsive to determining that the vehicle pitch does not meet the first vehicle pitch threshold, operating the compressor based on a first air conditioning cut cycle, the first air conditioning cut cycle including a first predetermined time period in which the compressor is switched to the OFF state; responsive to determining that the vehicle pitch meets the first vehicle pitch threshold but not the second vehicle pitch threshold, operating the compressor based on a second air conditioning cut cycle, the second air conditioning cut cycle including a second predetermined time period in which the compressor is switched to the OFF state, the second predetermined time period being greater than the first predetermined time period; and responsive to determining that the vehicle pitch meets the first and second vehicle pitch thresholds, operating the compressor based on a third air conditioning cut cycle, the third air conditioning cut cycle including a third predetermined time period in which the compressor is switched to the OFF state, the third predetermined time period being greater than the second predetermined time period. 10. The method of claim 9 , wherein the first air conditioning cut cycle includes alternating time periods in which the compressor is switched between the ON and OFF states, the alternating time periods in which the compressor is in the OFF state are each equal to the first predetermined time period. 11. The method of claim 10 , wherein the second air conditioning cut cycle includes second alternating time periods in which the compressor is switched between the ON and OFF states, the second alternating time periods in which the compressor is in the OFF state are each equal to the second predetermined time period. 12. The method of claim 11 , wherein the third air conditioning cut cycle includes switching the compressor to the OFF state for an entire duration of the third air conditioning cut cycle.