Condensing unit having fluid injection

What is claimed is: 1. A climate control system comprising: a compressor; a first heat exchanger in fluid communication with said compressor; a second heat exchanger in fluid communication with said compressor and said first heat exchanger; a third heat exchanger disposed between said first heat exchanger and said second heat exchanger and including an inlet and an outlet; a conduit fluidly coupled to said third heat exchanger and said compressor and operable to selectively supply fluid to said compressor; a valve operable to control a volume of fluid supplied to said compressor via said conduit; and a controller operable to control said valve based on a temperature difference between said outlet of said third heat exchanger and said inlet of said third heat exchanger. 2. The climate control system of claim 1 , further comprising a discharge temperature sensor operable to sense a discharge temperature of said compressor, said controller operable to control said valve based on said temperature difference and said discharge temperature. 3. The climate control system of claim 1 , further comprising a first temperature sensor disposed proximate to said inlet of said third heat exchanger and a second temperature sensor disposed proximate to said outlet of said third heat exchanger, said controller operable to determine said temperature difference based on information from said first temperature sensor and said second temperature sensor. 4. The climate control system of claim 1 , wherein said third heat exchanger includes a liquid-side coil and a vapor-side coil. 5. The climate control system of claim 4 , wherein said inlet is an inlet of said vapor-side coil and said outlet is an outlet of said vapor-side coil. 6. The climate control system of claim 4 , wherein said temperature difference is measured across said vapor-side coil. 7. A climate control system comprising: a compressor; a first heat exchanger in fluid communication with said compressor; a second heat exchanger in fluid communication with said compressor and said first heat exchanger; a third heat exchanger disposed between said first heat exchanger and said second heat exchanger and including a first inlet, a first outlet, a second inlet, and a second outlet; a conduit fluidly coupled to said second outlet and said compressor and operable to selectively supply fluid to said compressor; a valve operable to control a volume of fluid supplied to said compressor via said conduit; and a controller operable to control said valve based on a temperature difference between said second outlet and said second inlet. 8. The climate control system of claim 7 , further comprising a discharge temperature sensor operable to sense a discharge temperature of said compressor, said controller operable to control said valve based on said temperature difference and said discharge temperature. 9. The climate control system of claim 7 , further comprising a first temperature sensor disposed proximate to said second inlet and a second temperature sensor disposed proximate to said second outlet, said controller operable to determine said temperature difference based on information from said first temperature sensor and said second temperature sensor. 10. The climate control system of claim 7 , wherein said third heat exchanger includes a liquid-side coil and a vapor-side coil. 11. The climate control system of claim 10 , wherein said second inlet is an inlet of said vapor-side coil and said second outlet is an outlet of said vapor-side coil. 12. The climate control system of claim 10 , wherein said temperature difference is measured across said vapor-side coil. 13. A system comprising: a compressor having a suction port, a fluid-injection port and a discharge port; a heat exchanger in fluid communication with said compressor; a conduit fluidly coupled to said heat exchanger and said compressor and operable to selectively supply fluid to said compressor via said fluid-injection port; a valve operable to control a volume of fluid supplied to said compressor via said conduit; and a controller operable to control said valve based on a discharge temperature of said compressor and a temperature difference across said heat exchanger. 14. The system of claim 13 , wherein said heat exchanger includes a first inlet, a first outlet, a second inlet, and a second outlet, said second outlet coupled to said conduit, and wherein said controller determines said temperature difference by subtracting a temperature at said second inlet from a temperature at said second outlet. 15. The system of claim 13 , wherein said heat exchanger includes a liquid-side coil and a vapor-side coil. 16. The system of claim 15 , wherein said second inlet is an inlet of said vapor-side coil and said second outlet is an outlet of said vapor-side coil. 17. The system of claim 13 , wherein said heat exchanger is a plate-heat exchanger.