HVAC systems

The invention claimed is: 1. A system, comprising: a heat pump, wherein the heat pump is configured to match a heat transfer fluid temperature to a fluid temperature set-point; a fluid pump in fluid communication with the heat pump through heat transfer fluid, wherein the fluid pump is configured to match the heat transfer fluid pressure to a fluid pressure set-point; at least one heat exchanger in fluid communication with the fluid pump, wherein the at least one heat exchanger includes a proportional valve and a return air temperature gauge configured to monitor return air temperature associated therewith; a second heat exchanger in communication with the fluid pump, wherein the second heat exchanger includes a proportional valve and a return air temperature gauge configured to monitor return air temperature associated therewith; a supervisory controller in signal communication with the at least one heat exchanger, the fluid pump, and the heat pump, wherein the supervisory controller is configured to vary the fluid temperature set-point and vary the fluid pressure set-point based upon a position of the proportional valve and the return air temperature; and wherein the supervisory controller is configured to vary the fluid temperature set-point and vary the fluid pressure set-point based upon a weighted average value taken across all valve positions of each proportional valve of the heat exchangers and a weighted average value taken across all return air temperatures associated with the heat exchangers. 2. The system of claim 1 , wherein the fluid temperature set-point is varied by the supervisory controller. 3. The system of claim 1 , wherein the fluid pressure set-point is varied by the supervisory controller. 4. The system of claim 1 , wherein the at least one heat exchanger is a fan-coil unit. 5. The system of claim 1 , wherein the second heat exchanger is a fan-coil unit. 6. The system of claim 1 , wherein the supervisory controller is a programmable processing apparatus configured to perform a method of HVAC system control, the method comprising: monitoring valve positions of each proportional valve of the plurality of heat exchangers; monitoring return air temperatures associated with each heat exchanger; and calculating a weighted average value across the monitored positions and calculating a weighted average value across the monitored return air temperatures. 7. The system of claim 6 , wherein the method further comprises determining a weighted valve position value for each proportional valve of the heat exchangers and determining a weighted temperature value for each return air temperature associated with the heat exchangers, wherein the weighted average valve position value comprises an average of the weighted valve position values and the weighted average temperature value comprises an average of the weighted temperature values. 8. The system of claim 7 , wherein the method further comprises determining if the weighted average value is outside of a dead-band range associated with an average target valve position, and, if the weighted average value is outside of the dead-band range, determining a new fluid temperature set-point and a new fluid pressure set-point based upon the weighted average value. 9. A system, comprising: a heat pump, wherein the heat pump is configured to match a heat transfer fluid temperature to a fluid temperature set-point; a fluid pump in fluid communication with the heat pump through the heat transfer fluid, wherein the fluid pump is configured to match the heat transfer fluid mass flow to a fluid mass flow set-point; at least one heat exchanger arranged in a conditioned space and in fluid communication with the fluid pump, wherein the at least one heat exchanger includes a proportional valve and an air temperature gauge configured to monitor air temperature of the conditioned space; a second heat exchanger in communication with the fluid pump, wherein the second heat exchanger includes a proportional valve and a return air temperature gauge configured to monitor return air temperature associated therewith: a supervisory controller in signal communication with the at least one heat exchanger, the fluid pump, and the heat pump, wherein the supervisory controller is configured to vary the fluid temperature set-point and vary the fluid mass flow set-point based upon a position of the proportional valve and the air temperature; and wherein the supervisory controller is configured to vary the fluid temperature set-point and vary the fluid pressure set-point based upon a weighted average value taken across all valve positions of each proportional valve of the heat exchangers and a weighted average value taken across all return air temperatures associated with the heat exchangers.