Finned heat exchanger U-bends, manifolds, and distributor tubes

The invention claimed is: 1. A heat exchanger, comprising: a frame; and a plurality of coil passes disposed within the frame, wherein the plurality of coil passes is configured to direct a flow of a refrigerant therethrough to transfer heat with an air flow passing over the heat exchanger, wherein the plurality of coil passes comprises a U-bend disposed between first and second linear portions of the plurality of coil passes to direct the refrigerant from a first longitudinal end of the heat exchanger to a second longitudinal end of the heat exchanger, wherein a plurality of slit-type fins is disposed on an outer surface of the U-bend, and wherein each slit-type fin of the plurality of slit-type fins is a discrete fin. 2. The heat exchanger of claim 1 , wherein the plurality of slit-type fins is disposed within an air flow path of the heat exchanger. 3. The heat exchanger of claim 1 , wherein a width between the first and the second linear portions of the plurality of coil passes is at least twice as wide as a height of the plurality of slit-type fins. 4. The heat exchanger of claim 1 , wherein a longitudinal axis of each slit-type fin of the plurality of slit-type fins extends approximately through a central intersection point. 5. The heat exchanger of claim 1 , comprising a distributor fluidly coupled to the plurality of coil passes, wherein the distributor is configured to provide the flow of the refrigerant to the plurality of coil passes, and wherein a plurality of additional fins is disposed on an outer surface of the distributor. 6. The heat exchanger of claim 1 , comprising a header manifold fluidly coupled to the plurality of coil passes, wherein the header manifold is configured to receive the flow of the refrigerant from the plurality of coil passes, and wherein a plurality of additional fins is disposed on an outer surface of the header manifold. 7. The heat exchanger of claim 1 , wherein the plurality of slit-type fins is welded, injection molded, or integrally formed with the U-bend. 8. The heat exchanger of claim 1 , wherein a first longitudinal axis of the first linear portion and a second longitudinal axis of the second linear portion are parallel. 9. The heat exchanger of claim 1 , wherein each slit-type fin of the plurality of slit-type fins extends around a full circumference of the outer surface of the U-bend. 10. A heat exchanger, comprising: a frame; a plurality of coil passes disposed within the frame, wherein the plurality of coil passes is configured to direct a flow of a refrigerant therethrough to transfer heat with an air flow passing over the heat exchanger; a distributor fluidly coupled to the plurality of coil passes and configured to supply the flow of the refrigerant to the plurality of coil passes, wherein a plurality of fins is disposed on an outer surface of the distributor; and a U-bend disposed between first and second linear portions of the plurality of coil passes to redirect the refrigerant from a first longitudinal end of the heat exchanger to a second longitudinal end of the heat exchanger, wherein a plurality of slit-type fins is disposed on an outer surface the U-bend, and wherein each slit-type fin of the plurality of slit-type fins is a discrete fin. 11. The heat exchanger of claim 10 , wherein the plurality of fins and the plurality of slit-type fins are each disposed within an air flow path of the heat exchanger. 12. The heat exchanger of claim 10 , wherein the distributor comprises a main distributor tube configured to supply a respective portion of the refrigerant to each distributor tube of a plurality of distributor tubes, and wherein each distributor tube is fluidly coupled to a respective parallel circuit of the plurality of coil passes. 13. The heat exchanger of claim 12 , wherein the main distributor tube and each distributor tube comprise a respective portion of the plurality of fins. 14. The heat exchanger of claim 12 , wherein the plurality of fins is a first plurality of fins, wherein the main distributor tube comprises the first plurality of fins and each distributor tube of the plurality of distributor tubes comprises a respective portion of a second plurality of fins, and wherein the first plurality of fins has a first height different than a second height of the second plurality of fins. 15. The heat exchanger of claim 14 , wherein the first height of the first plurality of fins is greater than the second height of the second plurality of fins. 16. The heat exchanger of claim 10 , wherein the plurality of fins is a first plurality of fins, wherein the heat exchanger includes a header manifold fluidly coupled to the plurality of coil passes, wherein the header manifold is configured to receive the flow of the refrigerant from the plurality of coil passes, and wherein a second plurality of fins is disposed on an outer surface of the header manifold. 17. The heat exchanger of claim 10 , wherein each slit-type fin of the plurality of slit-type fins extends around a full circumference of the outer surface of the U-bend. 18. A heat exchanger, comprising: a frame; and a plurality of coil passes disposed within the frame, wherein the plurality of coil passes is configured to direct a flow of a refrigerant therethrough to transfer heat with an air flow passing over the heat exchanger; a header manifold configured to receive the flow of the refrigerant from the plurality of coil passes, wherein a plurality of fins is disposed on an outer surface of the header manifold; and a U-bend disposed between first and second linear portions of the plurality of coil passes to redirect the refrigerant from a first longitudinal end of the heat exchanger to a second longitudinal end of the heat exchanger, wherein a plurality of slit-type fins is disposed on an outer surface the U-bend, and wherein each slit-type fin of the plurality of slit-type fins is a discrete fin. 19. The heat exchanger of claim 18 , wherein the plurality of fins and the plurality of slit-type fins are each disposed within an air flow path of the heat exchanger. 20. The heat exchanger of claim 18 , wherein the header manifold comprises a plurality of header manifold tubes, wherein each header manifold tube of the plurality of header manifold tubes is configured to receive a respective portion of the refrigerant from a respective parallel circuit of the plurality of coil passes, and wherein each header manifold tube of the plurality of header manifold tubes is configured to supply the respective portion of the refrigerant to a main header manifold tube. 21. The heat exchanger of claim 20 , wherein each header manifold tube of the plurality of header manifold tubes and the main header manifold tube comprise a respective portion of the plurality of fins. 22. The heat exchanger of claim 20 , wherein the plurality of fins is a first plurality of fins, wherein each header manifold tube of the plurality of header manifold tubes comprises a respective portion of the first plurality of fins and the main header manifold tube comprises a second plurality of fins, and wherein the first plurality of fins has a first height different than a second height of the second plurality of fins. 23. The heat exchanger of claim 18 , wherein the plurality of fins is a first plurality of fins, wherein the heat exchanger includes a distributor fluidly coupled to the plurality of coil passes, wherein the distributor is configured to provide the flow of the refrigerant to the