Refrigerant transfer control in multi mode air conditioner with hot water generator

What is claimed is: 1. A method for controlling an operating discharge pressure in a multi-purpose HVAC system including an outdoor unit assembly and an indoor unit assembly, the HVAC system including a plurality of control valves, a compressor and a controller operably coupled to a water heating module, the controller executing the method comprising: operating the multi-purpose HVAC system in a water heating mode; operating the controller to monitor at least an operating discharge pressure from the compressor; and operating the controller to produce a signal commanding at least one of the plurality of control valves to isolate the indoor unit assembly from a heat exchanger of the outdoor unit assembly and the water heating module and direct high pressure refrigerant to the indoor unit assembly when the operating discharge pressure is greater than or equal to a predetermined pressure value. 2. The method of claim 1 , further including operating the controller to remove the signal commanding at least one of the plurality of control valves to isolate the indoor unit assembly from the heat exchanger of the outdoor unit assembly and the water heating module when the operating discharge pressure is less than the predetermined pressure value. 3. The method of claim 1 , further including operating the controller to remove the signal commanding at least one of the plurality of control valves to isolate the indoor unit assembly from the heat exchanger of the outdoor unit assembly and the water heating module when the multi-purpose HVAC system stops operating in the water heating mode. 4. The method of claim 1 , wherein the at least one of the plurality of control valves comprises a four-way valve. 5. The method of claim 1 , wherein the at least one of the plurality of control valves comprises: a first valve coupled to an inlet of a heat exchanger configured to transfer heat to water; a second valve having a first side coupled to a heat exchanger of the outdoor unit, and a second side coupled to the indoor unit in fluid communication with an outlet of a heat exchanger of the indoor unit; a third valve having a first side coupled to an inlet to the heat exchanger of the indoor unit and a second side coupled to a fourth port of a four way valve; a fourth valve having an inlet coupled to a discharge port on the compressor and an outlet coupled to the inlet to the heat exchanger of the indoor unit; and wherein the operating the controller to produce a signal comprises opening the first and fourth valves and closing the second and third valves. 6. The method of claim 1 , wherein the at least one refrigerant circuit circulates a refrigerant from the outdoor unit assembly[H] through the water heating module and returns to the outdoor unit assembly. 7. The method of claim 1 , further including controlling a flow of refrigerant into the heat exchanger of the outdoor unit in a water heating only operating mode for the multi-mode HVAC system with a refrigerant flow control device, the refrigerant flow control device comprising an expansion valve. 8. The method of claim 7 , further including bypassing the refrigerant flow control device when not operating the multi-mode HVAC system in a water heating only mode. 9. The method of claim 1 , further including controlling a superheat value of the HVAC system with an electronic expansion valve, the electronic expansion valve in fluid communication with a heat exchanger of the indoor unit assembly. 10. The method of claim 1 , further including maintaining a desired refrigerant level in the HVAC system with a flow restriction in fluid communication with a suction port of the compressor and at least one of the plurality of control valves in fluid communication with an inlet to the heat exchanger of the indoor unit. 11. A multi-purpose HVAC system comprising: an outdoor unit assembly including a compressor, a four-way valve, an expansion valve and a heat exchanger; an indoor unit assembly; a water heating module including a heat exchanger; a controller operably connected to the outdoor unit assembly, indoor unit assembly and the water heating module; and a plurality of conduits operatively coupling the water heating module to the outdoor unit assembly and the indoor unit assembly; wherein the controller is configured to: operate the multi-purpose HVAC system in a water heating mode; monitor the operating discharge pressure from the compressor; and produce a signal commanding at least one control valve to isolate the indoor unit assembly from a heat exchanger of the outdoor unit assembly and the water heating module and direct high pressure refrigerant to the indoor unit assembly when the operating discharge pressure is greater than or equal to a predetermined pressure value. 12. The multi-purpose HVAC system of claim 11 , wherein the at least one control valve is configured in at least one refrigerant circuit to circulate a refrigerant from the outdoor unit assembly through the water heating module and return to the outdoor unit assembly. 13. The multi-purpose HVAC system of claim 11 , wherein the controller is further configured to remove the signal commanding the at least one control valve to isolate the indoor unit assembly from the heat exchanger of the outdoor unit assembly and water heating module and direct high pressure refrigerant to the indoor unit assembly when the operating discharge pressure is less than the predetermined pressure value. 14. The multi-purpose HVAC system of claim 11 , wherein the at least one control valve comprises: a first valve coupled to an inlet of the heat exchanger of the water heating module; a second valve having a first side coupled to a heat exchanger of the outdoor unit, and a second side coupled to the indoor unit in fluid communication with an outlet of a heat exchanger of the indoor unit; a third valve having a first side coupled to an inlet to the heat exchanger of the indoor unit and a second side coupled to a fourth port of the four way valve; a fourth valve having an inlet coupled to a discharge port on the compressor and an outlet coupled to the inlet to the heat exchanger of the indoor unit; and wherein the operating the controller to produce a signal comprises opening the first and fourth valves and closing the second and third valves. 15. The multi-purpose HVAC system of claim 11 , further including a refrigerant flow control device configure to control a flow of refrigerant into the heat exchanger of the outdoor unit in a water heating only operating mode for the multi-mode HVAC system, the refrigerant flow control device comprising an expansion valve. 16. The multi-purpose HVAC system of claim 15 , further including a flow control valve operably coupled to the refrigerant flow control device and configured to bypass the refrigerant flow control device when not operating the multi-mode HVAC system in a water heating only mode. 17. The multi-purpose HVAC system of claim 11 , further including an electronic expansion valve, the electronic expansion valve in fluid communication with a heat exchanger of the indoor unit assembly, the electronic expansion valve device in operable communication with the controller and configured to receive signals therefrom for controlling a superheat value of the HVAC system. 18. The multi-purpose HVAC system of claim 11 , further including a flow restriction in fluid communication with a suction port of the compressor and a flow control device in fluid communication with an inlet to the heat exchanger of the indoor unit, the flow control