Compressor data module

What is claimed is: 1. A compressor comprising a shell, a compression mechanism, a motor, a data module, and a compressor controller, said data module including a data module processor and a data module memory, said compressor controller including a controller processor and a controller memory distinct from said data module processor and said data module memory, said data module being configured to receive sensed data, store said sensed data in said data module memory, determine a first diagnosis of the compressor based on said sensed data, and communicate said sensed data and said first diagnosis to said compressor controller, and said compressor controller being configured to determine a second diagnosis of the compressor based on said sensed data and verify said first diagnosis by comparing said first diagnosis to said second diagnosis. 2. The compressor of claim 1 , wherein at least one of said data module and said compressor controller is configured to communicate with a system controller. 3. The compressor of claim 2 , wherein said at least one of said data module and said compressor controller is configured to communicate at least one of said sensed data, said first diagnosis, and said second diagnosis to said system controller. 4. The compressor of claim 2 , wherein said data module and said compressor controller are respectively configured to communicate said first diagnosis and said second diagnosis to said system controller. 5. The compressor of claim 4 , wherein said at least one of said data module and said compressor controller is configured to communicate said sensed data to said system controller. 6. The compressor of claim 4 , wherein said data module and said compressor controller are each configured to communicate said sensed data to said system controller. 7. The compressor of claim 1 , wherein said data module is configured to determine at least one of an evaporator temperature, a condenser temperature, a subcooling temperature, a condenser temperature difference, a suction superheat, and a discharge superheat based on said sensed data. 8. The compressor of claim 7 , wherein said data module is configured to communicate said at least one of said evaporator temperature, said condenser temperature, said subcooling temperature, said condenser temperature difference, said suction superheat, and said discharge superheat to at least one of said compressor controller and a system controller. 9. The compressor of claim 7 , wherein said data module is configured to communicate said at least one non-measured operating parameter to said compressor controller, said compressor controller being configured to control a capacity of the compressor based on said sensed data and said at least one non-measured operating parameter. 10. A refrigeration system comprising: a compressor including a shell, a compression mechanism, and a motor; a data module including a data module processor and a data module memory, said data module being configured to receive sensed data, store said sensed data in said data module memory, and determine a first diagnosis of at least one of the refrigeration system and said compressor based on said sensed data; and a compressor controller including a controller processor and a controller memory distinct from said data module processor and said data module memory, said compressor controller being configured to determine a second diagnosis of at least one of the refrigeration system and said compressor based on said sensed data and verify said first diagnosis by comparing said first diagnosis to said second diagnosis. 11. The refrigeration system of claim 10 further comprising a system controller, wherein at least one of said data module and said compressor controller is configured to communicate with said system controller. 12. The refrigeration system of claim 11 , wherein said at least one of said data module and said compressor controller is configured to communicate at least one of said sensed data, said first diagnosis, and said second diagnosis to said system controller. 13. The refrigeration system of claim 11 , wherein said data module and said compressor controller are respectively configured to communicate said first diagnosis and said second diagnosis to said system controller. 14. The refrigeration system of claim 13 , wherein said at least one of said data module and said compressor controller is configured to communicate said sensed data to said system controller. 15. The refrigeration system of claim 13 , wherein said data module and said compressor controller are each configured to communicate said sensed data to said system controller. 16. The refrigeration system of claim 10 , wherein said data module is configured to determine at least one of an evaporator temperature, a condenser temperature, a subcooling temperature, a condenser temperature difference, a suction superheat, and a discharge superheat based on said sensed data. 17. The refrigeration system of claim 16 , wherein said data module is configured to communicate said at least one of said evaporator temperature, said condenser temperature, said subcooling temperature, said condenser temperature difference, said suction superheat, and said discharge superheat to at least one of said compressor controller and a system controller. 18. The refrigeration system of claim 16 , wherein said data module is configured to communicate said at least one non-measured operating parameter to said compressor controller, said compressor controller controlling a capacity of said compressor based on said sensed data and said non-measured operating parameters.