System and method for operating a packaged terminal air conditioner unit

What is claimed is: 1. A packaged terminal air conditioner unit comprising: a bulkhead defining an indoor portion and an outdoor portion; a vent aperture defined in the bulkhead; an auxiliary fan positioned proximate the vent aperture; and a controller configured to be operably coupled to an occupancy system, the auxiliary fan, and an exhaust fan, the controller being configured for: obtaining a room occupancy status from the occupancy system; determining a target make-up air flow rate based on the room occupancy status; operating the auxiliary fan; determining that the exhaust fan is operating to urge a flow of exhaust air through an exhaust duct at an exhaust flow rate; and reducing a speed of the auxiliary fan to urge a flow of auxiliary air at an auxiliary flow rate such that a sum of the exhaust flow rate and the auxiliary flow rate is equivalent to the target make-up air flow rate, wherein the auxiliary flow rate, the target make-up air flow rate, and the exhaust flow rate are all positive flow rates and the target make-up air flow rate is greater than or equal to the exhaust flow rate. 2. The packaged terminal air conditioner unit of claim 1 , wherein the controller is further configured for: determining that the target make-up air flow rate is greater than a maximum flow rate of the auxiliary fan; and operating the auxiliary fan to urge the flow of auxiliary air at the maximum flow rate. 3. The packaged terminal air conditioner unit of claim 1 , wherein the controller is further configured for: determining that the target make-up air flow rate is greater than a noise-limiting flow rate of the auxiliary fan where the noise generated by the auxiliary fan reaches a predetermined noise threshold; and operating the auxiliary fan to urge the flow of auxiliary air at the noise-limiting flow rate. 4. The packaged terminal air conditioner unit of claim 1 , further comprising: a vent door positioned proximate the vent aperture, the vent door being pivotable between an open position for allowing a flow of make-up air through the vent aperture and a closed position for blocking the flow of make-up air through the vent aperture. 5. The packaged terminal air conditioner unit of claim 4 , wherein the controller is further configured for: determining that the target make-up air flow rate is zero; and closing the vent door and turning off the auxiliary fan in response to determining that the target make-up air flow rate is zero. 6. The packaged terminal air conditioner unit of claim 1 , wherein the controller comprises a wireless communication module in wireless communication with the exhaust fan and the occupancy system. 7. A method of operating a packaged terminal air conditioner unit, the packaged terminal conditioner unit comprising an auxiliary fan positioned proximate a vent aperture defined in a bulkhead of the packaged terminal air conditioner unit, the method comprising: obtaining a room occupancy status; determining a target make-up air flow rate based on the room occupancy status; operating the auxiliary fan; determining that an exhaust fan is operating to urge a flow of exhaust air through an exhaust duct at an exhaust flow rate; and reducing a speed of the auxiliary fan to urge a flow of auxiliary air at an auxiliary flow rate such that a sum of the exhaust flow rate and the auxiliary flow rate is equivalent to the target make-up air flow rate, wherein the auxiliary flow rate, the target make-up air flow rate, and the exhaust flow rate are all positive flow rates. 8. The method of claim 7 , further comprising: determining that the target make-up air flow rate is greater than a maximum flow rate of the auxiliary fan; and operating the auxiliary fan to urge the flow of auxiliary air at the maximum flow rate. 9. The method of claim 7 , further comprising: determining that the target make-up air flow rate is greater than a noise-limiting flow rate of the auxiliary fan where the noise generated by the auxiliary fan reaches a predetermined noise threshold; and operating the auxiliary fan to urge the flow of auxiliary air at the noise-limiting flow rate. 10. The method of claim 7 , wherein the packaged terminal air conditioner unit further comprises a vent door positioned proximate the vent aperture, the vent door being pivotable between an open position for allowing a flow of make-up air through the vent aperture and a closed position for blocking the flow of make-up air through the vent aperture, the method further comprising: determining that the target make-up air flow rate is zero; and closing the vent door and turning off the auxiliary fan in response to determining that the target make-up air flow rate is zero. 11. The method of claim 7 , wherein the target make-up air flow rate is greater than or equal to the exhaust flow rate. 12. An air conditioning system for a room, the air conditioning system comprising: a packaged terminal conditioner unit comprising an auxiliary fan positioned adjacent a vent aperture defined in a bulkhead of the packaged terminal air conditioner unit; an exhaust fan positioned within the room and being in fluid communication with an exhaust duct; an occupancy system for determining a room occupancy status; and a controller configured for: obtaining the room occupancy status from the occupancy system; determining a target make-up air flow rate based on the room occupancy status; operating the auxiliary fan; determining that the exhaust fan is urging a flow of exhaust air through the exhaust duct at an exhaust flow rate; and reducing a speed of the auxiliary fan to urge a flow of auxiliary air at an auxiliary flow rate such that a sum of the exhaust flow rate and the auxiliary flow rate is equivalent to the target make-up air flow rate, wherein the auxiliary flow rate, the target make-up air flow rate, and the exhaust flow rate are all positive flow rates. 13. The air conditioning system of claim 12 , wherein the controller is further configured for: determining that the target make-up air flow rate is greater than a maximum flow rate of the auxiliary fan; operating the auxiliary fan to urge the flow of auxiliary air at the maximum flow rate; and operating the exhaust fan to urge the flow of exhaust air at the exhaust flow rate, the exhaust flow rate being equivalent to the target make-up air flow rate minus the maximum flow rate. 14. The air conditioning system of claim 12 , wherein the controller is further configured for: determining that the target make-up air flow rate is greater than a noise-limiting flow rate of the auxiliary fan where the noise generated by the auxiliary fan reaches a predetermined noise threshold; operating the auxiliary fan to urge the flow of auxiliary air at the noise-limiting flow rate; and operating the exhaust fan to urge the flow of exhaust air at the exhaust flow rate, the exhaust flow rate being equivalent to the target make-up air flow rate minus the noise-limiting flow rate. 15. The air conditioning system of claim 12 , wherein the controller is further configured for: determining that a maximum flow rate of the exhaust fan is greater than the target make-up air flow rate; and turning off the auxiliary fan and operating the exhaust fan at the target make-up air flow rate in response to determining that the maximum flow rate of the exhaust fan is greater than the target make-up air flow rate. 16. The air conditioning system of claim 12 , wherein the air conditioning system further comprises a vent door positioned proximate the vent aperture, the vent door being pi