Economizer having source-specific damper blade assemblies and heating, ventilation and air conditioning unit employing the same

The invention claimed is: 1. A method of operating an economizer having source-specific damper blade assemblies, comprising: determining an enthalpy of first and second air sources; determining a blend of said first and second air sources having a desired enthalpy; determining damper settings needed to achieve said blend; moving a first plurality of damper blades in accordance with said damper settings; moving a second plurality of damper blades in accordance with said damper settings; wherein the first and the second plurality of damper blades are interconnected using a plurality of links; wherein a first link of the plurality of links is configured to couple a first damper blade of the first plurality of damper blades with a second damper blade of the first plurality of damper blades; wherein a second link of the plurality of links is configured to couple the second damper blade of the first plurality of damper blades with a first damper blade of the second plurality of damper blades; wherein a third link of the plurality of links is configured to couple the second damper blade of the first plurality of damper blades with a second damper blade of the second plurality of damper blades; wherein a fourth link of the plurality of links is configured to couple the second damper blade of the second plurality of damper blades with a third damper blade of the second plurality of damper blades; and wherein, during operation of the economizer, the first plurality of damper blades are operable to move in parallel with each other and the second plurality of damper blades are operable to move in opposition to each other in accordance with said damper settings. 2. The method as recited in claim 1 , wherein said first air source is return air and second air source is outdoor air. 3. The method as recited in claim 1 , wherein said first plurality of damper blades are associated with a first damper blade assembly that is in fluid communication with a first air inlet associated with said first air source and an air outlet and said second plurality of damper blades are associated with a second damper blade assembly that is in fluid communication with a second air inlet associated with said second air source and said air outlet. 4. The method as recited in claim 3 , wherein said first and second damper blade assemblies are mounted in a frame. 5. The method as recited in claim 4 , wherein said first plurality of damper blades are rotatably coupled to said frame, said moving said first plurality of damper blades comprising rotating said first plurality of damper blades along a major axis thereof and said second plurality of damper blades are rotatably coupled to said frame, said moving said second plurality of damper blades comprising rotating said second plurality of damper blades along a major axis thereof. 6. The method as recited in claim 5 , wherein the economizer comprises an elongated member configured to separate said first damper blade assembly from said second damper blade assembly in said frame. 7. The method as recited in claim 6 , wherein said first and second damper blade assemblies are mounted in alignment in said frame. 8. An economizer having a first air inlet, a second air inlet, an air outlet and source-specific damper blade assemblies, the economizer configured to implement a method of operation, the method comprising: determining an enthalpy of first and second air sources; determining a blend of said first and second air sources having a desired enthalpy; determining damper settings needed to achieve said blend; moving a first plurality of damper blades in accordance with said damper settings; moving a second plurality of damper blades in accordance with said damper settings; wherein the first and the second plurality of damper blades are interconnected using a plurality of links; wherein a first link of the plurality of links is configured to couple a first damper blade of the first plurality of damper blades with a second damper blade of the first plurality of damper blades; wherein a second link of the plurality of links is configured to couple the second damper blade of the first plurality of damper blades with a first damper blade of the second plurality of damper blades; wherein a third link of the plurality of links is configured to couple the second damper blade of the first plurality of damper blades with a second damper blade of the second plurality of damper blades; wherein a fourth link of the plurality of links is configured to couple the second damper blade of the second plurality of damper blades with a third damper blade of the second plurality of damper blades; and wherein, during operation of the economizer, the first plurality of damper blades are operable to move in parallel with each other and the second plurality of damper blades are operable to move in opposition to each other in accordance with said damper settings. 9. The economizer as recited in claim 8 , wherein said first air source is return air and second air source is outdoor air. 10. The economizer as recited in claim 8 , wherein said first plurality of blades is associated with a first damper blade assembly that is in fluid communication with said a first air inlet associated with said first air source and an air outlet and said second plurality of blades is associated with a second damper blade assembly that is in fluid communication with said a second air inlet associated with said second air source and said air outlet. 11. The economizer as recited in claim 10 , wherein said first and second damper blade assemblies are mounted in a frame. 12. The economizer as recited in claim 11 , wherein said first plurality of damper blades are rotatably coupled to said frame, said moving said first plurality of damper blades comprising rotating said first plurality of damper blades along a major axis thereof and said second plurality of damper blades are rotatably coupled to said frame, said moving said second plurality of damper blades comprising rotating said second plurality of damper blades along a major axis thereof. 13. The economizer as recited in claim 12 , wherein the economizer comprises an elongated member configured to separate said first damper blade assembly from said second damper blade assembly in said frame. 14. The economizer as recited in claim 13 , wherein said first and second damper blade assemblies are mounted in alignment in said frame.