Vapor injection heat pump and control method

What is claimed: 1. A vapor injection heat pump operating in at least a first and a second mode of operation, comprising: a compressor for compressing a refrigerant; a first heat exchanger receiving a refrigerant output by the compressor; a first expansion valve receiving the refrigerant output by the first heat exchanger and (1) directing the refrigerant to a first separator valve when the vapor injection heat pump is in the first mode of operation or (2) expanding the refrigerant into a first liquid and vapor refrigerant mix output to the first separator valve when the vapor injection heat pump is in the second mode of operation, the first separator valve receiving the refrigerant or the first liquid and vapor refrigerant mix output by the first expansion valve and (1) directing the refrigerant to a second heat exchanger when the vapor injection heat pump is in one of the first or second mode of operation or (2) separating a vapor component of the first liquid and vapor refrigerant mix and injecting the separated vapor component into a second port of the compressor and directing a liquid component of the first liquid and vapor refrigerant mix to an orifice of the first separator valve and expanding the liquid component into a second liquid and vapor refrigerant mix and directing the second liquid and vapor refrigerant mix to the second heat exchanger when the vapor injection heat pump is in the other one of the first or second mode of operation; a valve positioned between the second heat exchanger and a first port of the compressor, said valve allowing refrigerant output by the second heat exchanger to flow to the first port of the compressor when the vapor injection heat pump is in one of the first or second mode of operation or flow to a second expansion valve when the vapor injection heat pump is in the other one of the first or second mode of operation, the second expansion valve receiving the refrigerant output by the second heat exchanger and (1) directing the refrigerant to a second separator valve when the vapor injection heat pump is in one of the first or second mode of operation or (2) expanding the refrigerant into a third liquid and vapor refrigerant mix output to the second separator valve when the vapor injection heat pump is in the other one of the first or second mode of operation, the second separator valve receiving the refrigerant or the third liquid and vapor refrigerant mix output by the second expansion valve and (1) directing the refrigerant to a third heat exchanger when the vapor injection heat pump is in one of the first or second mode of operation or (2) separating a vapor component of the third liquid and vapor refrigerant mix and injecting the separated vapor component into the second port of the compressor and directing a liquid component of the third liquid and vapor refrigerant mix to an orifice of the second separator valve which expands the liquid component into a fourth liquid and vapor refrigerant mix and directing the fourth liquid and vapor refrigerant mix to the third heat exchanger when the vapor injection heat pump is in the other one of the first or second mode of operation; and a control module controlling at least the valve, the first and second expansion valves, and the first and second separator valves when the vapor injection heat pump is in the first or the second mode of operation. 2. The vapor injection heat pump of claim 1 , further comprising an accumulator receiving refrigerant output by the second heat exchanger when the vapor injection heat pump is in one of the first or second mode of operation or the third heat exchanger when the vapor injection heat pump is in the other one of the first or second mode of operation and directing a vapor component of the refrigerant output by the second heat exchanger or the third heat exchanger to the first port of the compressor. 3. The vapor injection heat pump of claim 2 , further comprising a check valve between the second separator valve and the second port of the compressor to prevent backflow into the second separator valve. 4. The vapor injection heat pump of claim 3 , wherein the first heat exchanger is a refrigerant-to-coolant heat exchanger and the second and third heat exchangers are air-to-refrigerant heat exchangers. 5. The vapor injection heat pump of claim 3 , wherein the first heat exchanger is a refrigerant-to-air heat exchanger positioned within a heating, ventilation, and air conditioning (HVAC) case of a vehicle. 6. The vapor injection heat pump of claim 4 , further comprising a coolant loop including the first heat exchanger and a fourth heat exchanger through which a coolant is pumped when the vapor injection heat pump is in the first or the second mode of operation. 7. The vapor injection heat pump of claim 1 , wherein the at least a first and a second mode of operation include a first and a second cooling mode of operation, and wherein the refrigerant output by the compressor flows through the first heat exchanger, the first expansion valve, and the first separator valve in the first and the second cooling mode of operation. 8. The vapor injection heat pump of claim 7 , wherein the second expansion valve expands the refrigerant output by the second heat exchanger into the third liquid and vapor refrigerant mix and the second separator valve separates the vapor component of the third liquid and vapor refrigerant mix and injects the separated vapor component into the second port of the compressor and directs the liquid component of the third liquid and vapor refrigerant mix to the orifice of the second separator valve which expands the liquid component into the fourth liquid and vapor refrigerant mix and directs the fourth liquid and vapor refrigerant mix to the third heat exchanger in the first cooling mode of operation. 9. The vapor injection heat pump of claim 7 , wherein the second expansion valve expands the refrigerant output by the second heat exchanger and the second separator valve directs an entire expanded refrigerant output by the second heat exchanger to the third heat exchanger in the second cooling mode of operation. 10. The vapor injection heat pump of claim 1 , further comprising a coolant loop including the first heat exchanger and a fourth heat exchanger through which a coolant is pumped when the vapor injection heat pump is in the first or the second mode of operation. 11. The vapor injection heat pump of claim 1 , wherein the at least a first and a second mode of operation include a first and a second heating mode of operation, and wherein the refrigerant output by the second heat exchanger flows through the valve to the accumulator in the first and the second heating mode of operation. 12. The vapor injection heat pump of claim 11 , wherein the first expansion valve expands the refrigerant output by the first heat exchanger into the first liquid and vapor refrigerant mix and the first separator valve separates the vapor component of the first liquid and vapor refrigerant mix output by the first expansion valve and injects the separated vapor component into the second port of the compressor and directs the liquid component of the first separator valve and expands the liquid component into the second liquid and vapor refrigerant mix and directs the second liquid and vapor refrigerant mix to the second heat exchanger in the first heating mode of operation. 13. The vapor injection heat pump of claim 11 , wherein the first expansion valve expands the refrigerant output by the first heat exchanger and the first separator valve directs an entire expanded refrigerant output by the first heat exchanger to the second heat exchanger in the second heat