Systems and methods for active compressor control

What is claimed is: 1. A refrigeration system configured for controlling operation of a compressor, the refrigeration system comprising: an electronic expansion device operatively coupled with the compressor; and a controller operatively coupled with the electronic expansion device and the compressor, wherein the controller comprises one or more processors configured to execute instructions stored on a memory, the instructions when executed, cause the controller to: control a degree of opening of the electronic expansion device based on a superheat setpoint range, wherein the superheat setpoint range is determined by the controller and is based on operating parameters of the refrigeration system, wherein the operating parameters comprise a value of a suction pressure of a refrigerant entering the compressor and a value of a discharge pressure of the refrigerant exiting the compressor; determine, via one or more sensors, that an operating point of the compressor is within a threshold distance from a boundary of a plurality of boundaries of an operational envelope for the compressor; and adjust the superheat setpoint range based on a position of the operating point of the compressor in the operational envelope, in response to the determination that the operating point of the compressor is within the threshold distance, wherein the compressor is a fixed speed compressor. 2. The refrigeration system of claim 1 , wherein adjusting the superheat setpoint range includes adjusting an upper superheat setpoint of the superheat setpoint range. 3. The refrigeration system of claim 1 , wherein adjusting the superheat setpoint range includes adjusting a lower superheat setpoint of the superheat setpoint range. 4. The refrigeration system of claim 1 , wherein the controller is configured to: control the electronic expansion device based on a superheat setpoint threshold within the superheat setpoint range; and adjust the superheat setpoint threshold within the superheat setpoint range in response to the operating point of the compressor being within the threshold distance from the boundary of the operational envelope for the compressor. 5. The refrigeration system of claim 1 , wherein the operating parameters of the refrigeration system further comprise one or more of: suction temperature of the refrigerant entering the compressor; discharge temperature of the refrigerant exiting the compressor; temperature, pressure, humidity of the refrigerant entering an evaporator of the refrigeration system; temperature, pressure, humidity of the refrigerant exiting the evaporator of the refrigeration system; temperature, pressure, humidity of the refrigerant entering a condenser of the refrigeration system; and temperature, pressure, humidity of the refrigerant exiting the condenser of the refrigeration system. 6. The refrigeration system of claim 1 , wherein the one or more sensors are operatively coupled with the controller and configured to generate output signals indicating the operating parameters of the refrigeration system. 7. A method for actively controlling operation of a compressor of a refrigeration system with an electronic expansion device, the method comprising: controlling the electronic expansion device based on a superheat setpoint range, wherein the superheat setpoint range is based on operating parameters of the refrigeration system, wherein the operating parameters comprise a value of a suction pressure of a refrigerant entering the compressor and a value of a discharge pressure of the refrigerant exiting the compressor; determining that an operating point of the compressor is within a threshold distance from a boundary of a plurality of boundaries of an operational envelope for the compressor; and adjusting the superheat setpoint range based on a position of the operating point of the compressor in the operational envelope, in response to the determination that the operating point of the compressor is within the threshold distance, wherein the compressor is a fixed speed compressor. 8. The method of claim 7 , wherein adjusting the superheat setpoint range includes adjusting an upper superheat setpoint of the superheat setpoint range. 9. The method of claim 7 , wherein adjusting the superheat setpoint range includes adjusting a lower superheat setpoint of the superheat setpoint range. 10. The method of claim 7 , further comprising: controlling the electronic expansion device based on a superheat setpoint threshold within the superheat setpoint range; and adjusting the superheat setpoint threshold within the superheat setpoint range in response to the operating point of the compressor being within the threshold distance from the boundary of the operational envelope for the compressor. 11. The method of claim 7 , wherein the operating parameters of the refrigeration system further comprise one or more of: suction temperature of the refrigerant entering the compressor; discharge temperature of the refrigerant exiting the compressor; temperature, pressure, humidity of the refrigerant entering an evaporator of the refrigeration system; temperature, pressure, humidity of the refrigerant exiting the evaporator of the refrigeration system; temperature, pressure, humidity of the refrigerant entering a condenser of the refrigeration system; and temperature, pressure, humidity of the refrigerant exiting the condenser of the refrigeration system. 12. The method of claim 7 , further comprising: generating, with one or more sensors, output signals indicating the operating parameters of the refrigeration system. 13. A controller, comprising: at least one processor; and memory storing instructions executable by the at least one processor, the instructions when executed cause the controller to: control an electronic expansion device based on a superheat setpoint range, wherein the superheat setpoint range is determined by the controller and is based on operating parameters of a refrigeration system, wherein the operating parameters comprise a value of a suction pressure of a refrigerant entering a compressor and a value of a discharge pressure of the refrigerant exiting the compressor, wherein the compressor is a fixed speed compressor; determine, via one or more sensors, that an operating point of the fixed speed compressor is within a threshold distance from a boundary of a plurality of boundaries of an operational envelope for the fixed speed compressor; and adjust the superheat setpoint range based on a position of the operating point of the fixed speed compressor in the operational envelope, in response to the determination that the operating point of the fixed speed compressor is within the threshold distance.