Active refrigerant charge compensation for refrigeration and air conditioning systems

What is claimed is: 1. A variable refrigerant charge refrigeration/air conditioner system comprising: a main refrigerant loop holding a volume of refrigerant corresponding to a first level of refrigerant charge; a compressor in the main refrigerant loop; a condenser in the main refrigerant loop, the condenser operable to remove heat from the refrigerant; an evaporator in the main refrigerant loop, the evaporator receiving refrigerant from the condenser and operable to cause the refrigerant to absorb heat; a branch refrigerant loop in fluid communication with the main refrigerant loop; a control valve in the branch refrigerant loop; a receiver in the branch refrigerant loop, the receiver operable to hold a volume of refrigerant drawn from the main refrigerant loop when the control valve is open; and a return path from the receiver to the main refrigerant loop; wherein the first level of refrigerant charge is reduced to a second level of refrigerant charge by storing the volume of refrigerant in the receiver when the control valve is open. 2. The system of claim 1 wherein the return path from the receiver to the main refrigerant loop is a capillary tube through which refrigerant in the receiver flows back into the main refrigerant loop. 3. The system of claim 1 wherein the branch loop is connected to a high pressure side of the main refrigerant loop. 4. The system of claim 1 wherein the return path connects to a low pressure side of the main refrigerant loop. 5. The system of claim 1 wherein the control valve is operated based on an operating mode of the system. 6. The system of claim 1 wherein the control valve is operated based on environmental conditions for the system. 7. The system of claim 1 further comprising a thermal expansion valve in the main refrigerant loop between the condenser and the evaporator. 8. The system of claim 1 further comprising a reheater, wherein the system operates at the first level of refrigerant charge when the reheater is off and at the second level of refrigerant change with the reheater is on. 9. A variable refrigerant charge refrigeration/air conditioner system comprising: a main refrigerant loop holding a volume of refrigerant corresponding to a maximum level of refrigerant charge; a compressor in the main refrigerant loop; a condenser in the main refrigerant loop, the condenser operable to remove heat from the refrigerant; an evaporator in the main refrigerant loop, the evaporator receiving refrigerant and operable to cause the refrigerant to absorb heat; a branch refrigerant loop in fluid communication with the main refrigerant loop; a control valve in the branch refrigerant loop; a receiver in the branch refrigerant loop, the receiver operable to hold a volume of refrigerant when the control valve is open, wherein the maximum level of refrigerant charge minus the volume of the receiver corresponds to a minimum level of refrigerant charge; a return path from the receiver to the main refrigerant loop; a level sensor in the receiver producing a signal indicative of a level of refrigerant in the receiver; and a controller receiving the signal indicative of the level of refrigerant in the receiver and operable to open and close the control valve to maintain a desired level of refrigerant in the receiver. 10. The system of claim 9 wherein the return path from the receiver to the main refrigerant loop is a capillary tube through which refrigerant in the receiver flows back into the main refrigerant loop. 11. The system of claim 9 wherein the branch loop is connected to a high pressure side of the main refrigerant loop. 12. The system of claim 9 wherein the return path connects to a low pressure side of the main refrigerant loop. 13. The system of claim 9 wherein the desired level of refrigerant in the receiver is determined based on an operating mode for the system. 14. The system of claim 9 wherein the desired level of refrigerant in the receiver is determined based on environmental conditions for the system.