Volume ratio control system for a compressor

1 . A volume ratio control system for a compressor, comprising: a chamber formed within a housing of the compressor, wherein the chamber is in fluid communication with a high pressure side of the compressor; a piston disposed within the chamber, wherein the piston comprises a cavity in fluid communication with a low pressure side of the compressor; and a biasing device disposed within the chamber and configured to enable movement of the piston in response to a pressure differential between the low pressure side of the compressor and the high pressure side of the compressor falling below a threshold value. 2 . The volume ratio control system of claim 1 , wherein the low pressure side is a suction side of the compressor, and the high pressure side is a discharge side of the compressor. 3 . The volume ratio control system of claim 1 , wherein the biasing device is disposed within the cavity. 4 . The volume ratio control system of claim 3 , comprising a rod extending into the chamber and extending into the cavity, wherein the rod is configured form a seal between the chamber and the cavity of the piston. 5 . The volume ratio control system of claim 4 , wherein a position of the rod within the chamber is fixed. 6 . The volume ratio control system of claim 5 , wherein the rod extends through an opening between a first portion of the chamber fluidly coupled to the high pressure side of the compressor and a second portion of the chamber fluidly coupled to the low pressure side of the compressor. 7 . The volume ratio control system of claim 4 , wherein the rod comprises a passage fluidly coupling the low pressure side of the compressor and the cavity of the piston. 8 . The volume ratio control system of claim 4 , wherein the biasing device is disposed within the cavity radially between the rod and an interior surface of the piston. 9 . The volume ratio control system of claim 1 , wherein the piston is an annular piston. 10 . The volume ratio control system of claim 1 , wherein the piston comprises a first segment having a first radial thickness and a second segment having a second radial thickness, wherein the first segment is positioned proximate to a compressor discharge line formed within the housing, and wherein the first radial thickness is greater than the second radial thickness. 11 . The volume ratio control system of claim 1 , wherein the biasing device comprises a spring. 12 . The volume ratio control system of claim 1 , wherein the piston is configured to move in a first direction along an axis defining a length of the chamber in response to the pressure differential between the low pressure side of the compressor and the high pressure side of the compressor exceeding the threshold value, and wherein the biasing device is configured to enable movement of the piston in a second direction, opposite the first direction, in response to the pressure differential falling below the threshold value. 13 . The volume ratio control system of claim 12 , wherein the threshold value is a variable threshold value that varies based on a position of the piston along the axis defining the length of the chamber, a parameter of the biasing device, or both. 14 . A heating, ventilation, air conditioning, and/or refrigeration (HVAC&R) system, comprising: a compressor configured to circulate a refrigerant through a refrigerant circuit; and a volume ratio control system configured to adjust a volume ratio of the compressor, wherein the volume ratio control system comprises: a chamber formed in a housing of the compressor and in fluid communication with a high pressure side of the compressor; a piston disposed within the chamber, wherein the piston comprises a cavity in fluid communication with a low pressure side of the compressor; and a biasing device disposed within the cavity, wherein the biasing device is configured to enable movement of the piston in response to a pressure differential between the low pressure side of the compressor and the high pressure side of the compressor falling below a threshold value. 15 . The HVAC&R system of claim 14 , wherein the volume ratio control system is configured to passively adjust the volume ratio of the compressor based on the pressure differential between the low pressure side of the compressor and the high pressure side of the compressor and based on the biasing device. 16 . The HVAC&R system of claim 14 , wherein the housing comprises one or more openings fluidly coupling the chamber to a compression chamber of the compressor. 17 . The HVAC&R system of claim 16 , wherein the biasing device is configured to direct movement of the piston in a first direction to expose at least an opening of the one or more openings in response to the pressure differential between the low pressure side of the compressor and the high pressure side of the compressor falling below the threshold value. 18 . The HVAC&R system of claim 17 , wherein piston is configured to move in a second direction, opposite the first direction in response to the pressure differential between the low pressure side of the compressor and the high pressure side of the compressor exceeding the threshold value. 19 . A volume ratio control system for a compressor, comprising: a chamber formed within a housing of the compressor, wherein the chamber comprises a first portion in fluid communication with a high pressure side of the compressor and a second portion in fluid communication with a low pressure side of the compressor; a rod extending through an opening of the housing separating the first portion and the second portion of the chamber, wherein the rod is fixed within the chamber with respect to an axis defining a length of the chamber; a piston disposed within the first portion of the chamber, wherein the piston comprises a cavity in fluid communication with the second portion of the chamber, and wherein the rod is at least partially disposed within the cavity of the piston; and a biasing device disposed within the cavity between the rod and an interior surface of the piston, wherein the biasing device is configured to enable movement of the piston within the chamber in response to a pressure differential between the low pressure side of the compressor and the high pressure side of the compressor falling below a threshold value. 20 . The volume ratio control system of claim 19 , wherein the rod is configured to form a seal between the first portion and the second portion of the chamber.