System and method for controlling a multi-zone dual deck air handling unit

What is claimed is: 1 . A system for controlling a multi-zone dual deck air handling unit comprising: an input component configured to receive an outside air temperature of the air handling unit and a plurality of zone demands associated with a plurality of zones, each zone demand corresponding to a particular zone of the plurality of zones; an output component configured to communicate with a plurality of zone dampers and at least one of a cooling deck or a heating deck of the air handling unit; and a processor coupled to the input and output components, the processor directing the output component to: engage at least one of the cooling deck or the heating deck in response to the outside air temperature and the plurality of zone demands; determine whether a request for heating or cooling marginally exists, perform a load shift test during a delay period, and determine whether a need for the request remains after the delay period; position the plurality of zone dampers associated with the plurality of zones based on the plurality of zone demands in response to engaging the cooling deck and the heating deck concurrently and determining that the need for the request remains after the delay period, each zone damper of the plurality of zone dampers being position at either a maximum cooling position or a maximum heating position; and modulate the plurality of zone dampers associated with the plurality of zones based on the plurality of zone demands in response to engaging the cooling deck or the heating deck distinctly. 2 . The system as described in claim 1 , wherein each zone demand including at least one of a zone cooling demand or a zone heating demand. 3 . The system as described in claim 1 , wherein the processor directs the output component to engage at least one of the cooling deck or the heating deck in response to the outside air temperature meeting or exceeding a threshold value. 4 . The system as described in claim 2 , wherein the processor directs the output component to engage the cooling deck in response to receiving the zone cooling demand or engage the heating deck in response to receiving the zone heating demand. 5 . The system as described in claim 1 , wherein the processor directs the output component to modulate the plurality of zone dampers in response to determining that a delay condition of the air handling unit does not exist. 6 . The system as described in claim 5 , wherein the processor directs the output component to modulate the plurality of zone dampers in response to determining that the request does not marginally exist. 7 . The system as described in claim 1 , wherein the processor directs the output component to modulate the plurality of zone dampers in response to receiving no more than one type of zone demand. 8 . The system as described in claim 1 , the processor directs the output component to reset a maximum cooling setpoint associated with either the maximum cooling position or the maximum heating position for at least one zone damper. 9 . A method for controlling a multi-zone dual deck air handling unit, the method comprising: receiving an outside air temperature of the air handling unit; receiving a plurality of zone demands associated with a plurality of zones, each zone demand corresponding to a particular zone of the plurality of zones; engaging at least one of a cooling deck or a heating deck of the air handling unit in response to the outside air temperature and the plurality of zone demands; determining whether a request for heating or cooling marginally exists, performing a load shift test during a delay period, and determining whether a need for the request remains after the delay period; positioning a plurality of zone dampers associated with the plurality of zones based on the plurality of zone demands in response to engaging the cooling deck and the heating deck concurrently and determining that the need for the request remains after the delay period, each zone damper of the plurality of zone dampers being position at either a maximum cooling position or a maximum heating position; and modulating the plurality of zone dampers associated with the plurality of zones based on the plurality of zone demands in response to engaging the cooling deck or the heating deck distinctly. 10 . The method as described in claim 9 , wherein each zone demand including at least one of a zone cooling demand or a zone heating demand. 11 . The method as described in claim 9 , wherein engaging at least one of the cooling deck or the heating deck includes engaging at least one of the cooling deck or the heating deck in response to the outside air temperature meeting or exceeding a threshold value. 12 . The method as described in claim 10 , wherein engaging at least one of the cooling deck or the heating deck includes at least one of: engaging the cooling deck in response to receiving the zone cooling demand; or engaging the heating deck in response to receiving the zone heating demand. 13 . The method as described in claim 9 , wherein modulating the plurality of zone dampers includes modulating the plurality of zone dampers in response to determining that a delay condition of the air handling unit does not exist. 14 . The method as described in claim 13 , wherein modulating the plurality of zone dampers includes modulating the plurality of zone dampers in response to determining that the request does not marginally exist. 15 . The method as described in claim 9 , wherein modulating the plurality of zone dampers includes modulating the plurality of zone dampers in response to receiving no more than one type of zone demand. 16 . The method as described in claim 9 , positioning a plurality of zone dampers includes resetting a maximum cooling setpoint associated with either the maximum cooling position or the maximum heating position for at least one zone damper.