Off set tri-zone sliding temperature door strategy

What is claimed is: 1. An air-handling system for a motor vehicle comprising: a conditioning section including an evaporator core and a heater core, the conditioning section separated into a primary zone and a secondary zone at a position disposed downstream of the evaporator core and upstream of the heater core with respect to a flow of air passing through the conditioning section, the heater core extending partially into each of the primary zone and the secondary zone; a first primary door assembly disposed within the conditioning section at a position upstream of the heater core with respect to the flow of air passing through the conditioning section, the first primary door assembly configured to control a distribution of the flow of air entering the heater core within the primary zone; and a secondary door assembly disposed within the secondary zone of the conditioning section at a position downstream of the first primary door assembly and upstream of the heater core with respect to the flow of air passing through the conditioning section, the secondary door assembly configured to control a distribution of the flow of air entering the heater core within the secondary zone, wherein the primary zone is divided into a first primary zone and a second primary zone with respect to a lateral direction of the conditioning section arranged perpendicular to a direction of the flow of air passing through the conditioning section, wherein the first primary door assembly includes a first door configured to control a distribution of the flow of air through the heater core with respect to the first primary zone, and wherein the first primary door assembly includes a second door configured to control a distribution of the flow of air through the heater core with respect to the second primary zone. 2. The air-handling system of claim 1 , wherein the first door of the first primary door assembly and the second door of the first primary door assembly are positionable independently of each other. 3. The air-handling system of claim 2 , wherein the secondary door assembly includes a door that is positionable independently of the first door of the first primary door assembly and the second door of the first primary door assembly. 4. The air-handling system of claim 1 , wherein the first primary door assembly always allows at least a portion of the flow of air to enter the secondary zone regardless of an instantaneous configuration of the first primary door assembly. 5. The air-handling system of claim 1 , wherein each of the first primary door assembly and the secondary door assembly include at least one door panel configured to slide in a direction transverse to a direction the flow of air passes through the conditioning section. 6. The air-handling system of claim 5 , wherein each of the door panels of the first primary door assembly and the secondary door assembly are operably engaged with a rotary shaft to cause a sliding of each of the door panels. 7. The air-handling system of claim 1 , wherein the primary zone is defined by a primary zone housing and the secondary zone is defined by a secondary zone housing surrounded on at least three sides by the primary zone housing. 8. The air-handling system of claim 1 , wherein the secondary zone includes a cool air path through which the flow of air bypasses the heater core and a warm air path through which the flow of air passes through the heater core. 9. An air-handling system for a motor vehicle comprising: a conditioning section including an evaporator core and a heater core, the conditioning section separated into a primary zone and a secondary zone at a position disposed downstream of the evaporator core and upstream of the heater core with respect to a flow of air passing through the conditioning section, the heater core extending partially into each of the primary zone and the secondary zone; a first primary door assembly disposed within the conditioning section at a position upstream of the heater core with respect to the flow of air passing through the conditioning section, the first primary door assembly configured to control a distribution of the flow of air entering the heater core within the primary zone; and a secondary door assembly disposed within the secondary zone of the conditioning section at a position downstream of the first primary door assembly and upstream of the heater core with respect to the flow of air passing through the conditioning section, the secondary door assembly configured to control a distribution of the flow of air entering the heater core within the secondary zone, wherein the primary zone is divided into a first primary zone and a second primary zone with respect to a lateral direction of the conditioning section arranged perpendicular to a direction of the flow of air passing through the conditioning section, wherein the first primary zone includes a cool air path through which the flow of air bypasses the heater core and a warm air path through which the flow of air passes through the heater core, and wherein the second primary zone includes a cool air path through which the flow of air bypasses the heater core and a warm air path through which the flow of air passes through the heater core. 10. The air-handling system of claim 9 , wherein the cool air path of the first primary zone is divided into a first cool air path portion disposed to a first side of the heater core with respect to a direction perpendicular to the lateral direction and a second cool air path portion disposed to an opposing second side of the heater core with respect to the direction perpendicular to the lateral direction, and wherein the cool air path of the second primary zone is divided into a first cool air path portion disposed to the first side of the heater core with respect to the direction perpendicular to the lateral direction and a second cool air path portion disposed to the opposing second side of the heater core with respect to the direction perpendicular to the lateral direction. 11. The air-handling system of claim 10 , wherein the secondary zone is disposed between the second cool air path portion of the first primary zone and the second cool air path portion of the second primary zone with respect to the lateral direction of the conditioning section. 12. The air-handling system of claim 10 , further comprising a second primary door assembly configured to control a distribution of the flow of air through each of the first cool air path portion of the first primary zone and the first cool air path portion of the second primary zone. 13. An air-handling system for a motor vehicle comprising: a conditioning section including an evaporator core and a heater core, the conditioning section separated into a primary zone and a secondary zone at a position disposed downstream of the evaporator core and upstream of the heater core with respect to a flow of air passing through the conditioning section, the heater core extending partially into each of the primary zone and the secondary zone; a first primary door assembly disposed within the conditioning section at a position upstream of the heater core with respect to the flow of air passing through the conditioning section, the first primary door assembly configured to control a distribution of the flow of air entering the heater core within the primary zone; and a secondary door assembly disposed within the secondary zone of the conditioning section at a position downstream of the first primary door assembly and upstream of the heater core with respect to the flow of air passing through the conditioning section, the secondary door assembly configured to control a distr