Multiple compressor configuration with oil-balancing system

What is claimed is: 1 . An oil balancing system for a multiple compressor system, the oil balancing system comprising: a first compressor; a second compressor; an oil equalization line disposed between the first compressor and the second compressor; a first valve in the oil equalization line; an oil level detection system for generating a first signal corresponding to a first oil level in the first compressor and a second signal corresponding to a second oil level in the second compressor; and an oil balancing module that uses the first signal and the second signal to diagnose an oil imbalance between the first compressor and the second compressor, and applies corrective action, whereby the corrective action comprises sending control signals to change the operating speed of one of the first compressor and the second compressor, and operating the first valve in a way that eliminates or reduces the oil imbalance. 2 . The oil balancing system of claim 1 , wherein the oil balancing module further uses the first signal and the second signal to verify that the corrective action has eliminated or reduced the oil imbalance. 3 . The oil balancing system of claim 2 , wherein after the oil imbalance is eliminated, the affected compressor returns to a predetermined command speed. 4 . The oil balancing system of claim 1 , wherein the oil level detecting system uses the first signal to determine whether the first compressor operates in an acceptable mode or an unacceptable mode based on a first predetermined unacceptable value for the first signal, and uses the second signal to determine whether the second compressor operates in the acceptable mode or the unacceptable mode based on a second predetermined unacceptable value for the second signal. 5 . The oil balancing system of claim 4 , wherein the oil level detecting system uses the first signal to determine whether the first compressor operates in a warning mode based on a first predetermined warning value for the first signal, and uses the second signal to determine whether the second compressor operates in the warning mode based on a second predetermined warning value for the second signal. 6 . The oil balancing system of claim 5 , wherein in the warning mode, the oil balancing module opens the first valve and changes the speed of one of the first or second compressor for a predetermined amount of time. 7 . The oil balancing system of claim 5 , further comprising a self-learning module configured to create a record of time spent in an acceptable mode, warning mode, and unacceptable mode for each of the first compressor and the second compressor, wherein the self-learning module alters the corrective action of the oil balancing module based on the record. 8 . The oil balancing system of claim 4 , wherein a first fault signal is generated when the first compressor operates in the unacceptable mode for a first predetermined amount of time and a second fault signal is generated when the second compressor operates in the unacceptable mode for the first predetermined amount of time. 9 . The oil balancing system of claim 8 , wherein after a predetermined number of first fault signals are generated, the oil balancing module initiates operation of the second compressor. 10 . The oil balancing system of claim 8 , wherein the oil balancing system further comprises: a fault count module configured to increment a first fault count when a first fault signal is detected and to increment a second fault count when a second fault signal is detected; and a quarantine module configured to close the first valve when the first fault count or the second fault count exceeds a predetermined quarantine set point. 11 . The oil balancing system of claim 10 , wherein the quarantine module is further configured to shut down the first compressor when the first fault count exceeds the quarantine set point and to shut down the second compressor when the second fault count exceeds the quarantine set point. 12 . The oil balancing system of claim 8 , wherein the oil balancing system further comprises: a fault count module configured to increment a first fault count when a first fault signal is detected and to increment a second fault count when a second fault signal is detected; and wherein after a second predetermined amount of time and a predetermined fault count, the oil balancing module notifies the user that there is a possible leak. 13 . The oil balancing system of claim 1 , further comprising a leak detection module, wherein the leak detection module uses the first signal and the second signal to determine whether an oil leak is present. 14 . The oil balancing system of claim 13 , wherein the leak detection module uses a first discharge temperature of the first compressor and a second discharge temperature of a second compressor to determine if there is a refrigerant leak. 15 . The leak detection module of claim 14 , wherein the first discharge temperature and second discharge temperature are compared to a first theoretical discharge temperature and a second theoretical discharge temperature, respectively, found on a look-up table. 16 . The leak detection module of claim 15 , wherein the leak detection module notifies the user of potential locations of the leak. 17 . The oil balancing system of claim 1 further comprising: a third compressor, wherein the oil equalization line further extends to the third compressor and whereby the first valve is disposed at a location such that it is capable of isolating the first compressor from the second compressor and the third compressor; a second valve on the oil equalization line at a location such that it is capable of isolating the second compressor from the first compressor and the third compressor; a third valve on the oil equalization line at a location such that it is capable of isolating the third compressor from the first compressor and the second compressor; and the oil level detection system generating a third signal corresponding to a third oil level in the third compressor, wherein the oil balancing module further uses the third signal to diagnose an oil imbalance, and applies corrective action, whereby the corrective action may further comprise sending control signals to operate at least one of the third compressor, the second valve, or the solenoid valve. 18 . The oil balancing system of claim 1 , wherein a priority of algorithms in the oil balancing module is as follows: (1) oil sensing; (2) compressor quarantine; (3) control logic for running a multiple compressor system; then all other control algorithms. 19 . A method of balancing oil in a multiple compressor system, the method comprising: using a first oil level signal from a first compressor and a second oil level signal from a second compressor to diagnose an oil imbalance between the first compressor and the second compressor; and applying a corrective action, the corrective action comprising sending control signals to operate at least one of a valve on an oil equalization line between the first compressor and the second compressor, the first compressor, or the second compressor. 20 . An oil balancing system for a multiple compressor system, the oil balancing system comprising: a first compressor; a second compressor; an oil equalization line disposed between the first compressor and the second compressor; a first valve on the oil equalization line; an oil level detection system associated with said first and/or second compressors for ge