Thermal management system for a vehicle

The invention claimed is: 1. A thermal management system for a vehicle having an engine, the thermal management system comprising: a refrigerant circuit configured to circulate a refrigerant and further configured to operate in one of a first mode or a second mode; a first coolant circuit in heat exchange relation with the refrigerant circuit and configured to circulate a first coolant, the first coolant circuit including: a first coolant pump; a first coolant circuit heat exchanger configured to exchange heat between the refrigerant circulating in the refrigerant circuit and the first coolant; a Coolant Heater Control Module (CHCM) including a high voltage heating element; a mixing valve configured to occupy one of a first position, a second position, and a third position, wherein the mixing valve modulates flow of the first coolant between the Coolant Heater Control Module and the first coolant circuit heat exchanger; a bypass valve configured to occupy one of a bypass position and a linked position, wherein the bypass valve is configured to direct flow of the first coolant exclusively to the first coolant pump when occupying the bypass position and further configured to direct flow of the first coolant exclusively to the engine when occupying the linked position; a controller, having a processor and tangible, non-transitory memory on which is recorded instructions, wherein executing the recorded instructions causes the processor to actuate the mixing valve and the bypass valve to predetermined positions to effectuate a selected mode of operation for the thermal management system, wherein the selected mode of operation is one of a high efficiency mode, a heat pump assist mode, a maximum performance mode, or propulsion system energy improvement mode; wherein when the selected mode of operation is the high efficiency mode, the controller actuates the bypass valve to occupy the bypass position and direct flow of the first coolant exclusively to the first coolant pump, and wherein the controller actuates the mixing valve to occupy the first position and direct flow of the first coolant exclusively to the first coolant circuit heat exchanger; wherein when the selected mode of operation is the heat pump assist mode, the controller actuates the bypass valve to occupy the bypass position and direct flow of the first coolant exclusively to the first coolant pump, and wherein the controller actuates the mixing valve to occupy the second position and direct flow of the first coolant to each of the first coolant circuit heat exchanger and the Coolant Heater Control Module; wherein when the selected mode of operation is the maximum performance mode, the controller actuates the bypass valve to occupy one of the bypass position and the linked position, and wherein the controller actuates the mixing valve to occupy the third position and direct flow of the first coolant exclusively to the Coolant Heater Control Module; wherein when the selected mode of operation is the propulsion system energy improvement mode, the controller actuates the bypass valve to occupy the linked position and direct flow of the first coolant exclusively to the engine, and wherein the controller actuates the mixing valve to occupy the first position and direct flow of the first coolant exclusively to the first coolant circuit heat exchanger. 2. The thermal management system of claim 1 wherein the refrigerant circuit includes: a compressor; the first coolant circuit heat exchanger configured to exchange heat between the refrigerant and the first coolant flowing therethrough; an AC condenser configured to exchange heat between the refrigerant and an ambient environment; at least one mode selection valve configured to occupy one of a first position and a second position; wherein the refrigerant circuit operates in the first mode, when the at least one mode selection valve occupies the first position, wherein the refrigerant expelled from the compressor is directed exclusively to the first coolant circuit heat exchanger; and wherein the refrigerant circuit operates in the second mode, when the at least one mode selection valve occupies the second position, wherein the refrigerant expelled from the compressor is directed exclusively to the AC condenser; wherein the refrigerant circuit operates in the first mode when the thermal management system operates in each of the high efficiency mode, the heat-pump assist mode, and the maximum performance mode; and wherein the refrigerant circuit operates in each of the first mode and the second mode when the selected mode of operation is the propulsion system energy improvement mode. 3. The thermal management system of claim 2 wherein the selected mode of operation is the maximum performance mode, and wherein the controller actuates the bypass valve to occupy the bypass position to direct flow of the first coolant exclusively to the first coolant pump, when the temperature of the first coolant circulating through the engine, sensed by an engine coolant temperature sensor, is below a predetermined threshold temperature. 4. The thermal management system of claim 3 wherein the controller actuates the bypass valve to occupy the linked position to direct flow of the first coolant exclusively to the engine, when the first coolant circulating through the engine reaches the predetermined threshold temperature. 5. The thermal management system of claim 2 wherein when the selected mode of operation is the propulsion system energy improvement mode, the refrigerant circuit operates in the first mode until the engine reaches a predetermined threshold temperature, thereby utilizing the engine as a heat sink; and wherein the refrigerant circuit operates in the second mode when the engine exceeds the predetermined threshold temperature. 6. The thermal management system of claim 2 wherein the refrigerant circuit further includes a first expansion device and a second expansion device, wherein each of the first expansion device and second expansion device are each configured to receive the refrigerant from the first coolant circuit heat exchanger when the refrigerant circuit operates in the first mode; and wherein the first expansion device and the second expansion device are further configured to receive the refrigerant exclusively from the AC condenser when the refrigerant circuit operates in the second mode. 7. A method of controlling a thermal management system for a vehicle, the method comprising: providing the thermal management system including a first coolant circuit configured to circulate a first coolant and a refrigerant circuit configured to circulate a refrigerant, wherein the first coolant circuit includes a first coolant pump, a first coolant circuit heat exchanger, and a Coolant Heater Control Module (CHCM); selecting, via a controller, a mode of operation for the thermal management system, wherein the mode of operation is one of a high efficiency mode, a heat pump assist mode, a maximum performance mode, and propulsion system energy improvement mode; signaling, via the controller, the thermal management system to operate in the selected mode of operation; actuating, via the controller, a bypass valve to occupy one of a bypass position and a linked position, wherein: when the selected mode of operation is the high efficiency mode, the controller actuates the bypass valve to occupy the bypass position and direct flow of the first coolant exclusively to the first coolant pump; when the selected mode of operation is the heat pump assist mode, the controller actuates the bypass valve to occupy the bypass position and direct flow of the first coolant exclusively to the first coolant pump; when the selected mode of operation is the maximum performance mode: the con