Multi-stage compressor with single electric direct drive motor

What is claimed is: 1 . A compressor system comprising: a single electric motor having a first end and a second end; a rotatable output shaft extending from each of the first and second ends of the electric motor; first, second, and third compressor stages fluidly coupled to one another in series and mechanically connected to the output shaft; the first compressor stage including two split impellers with each split impeller discharging approximately one half of the fluid flow at a desired pressure to the second compressor stage, wherein one of the split impellers of the first stage compressor is coupled to the output shaft at the first end of the electric motor and the other of the split impellers is coupled to the output shaft at the second end of the electric motor. 2 . The compressor system of claim 1 , further comprising at least one additional compressor stage coupled to the output shaft. 3 . The compressor system of claim 1 , wherein at least one of the compressor stages is connected to the output shaft extending from the first end of the electric motor and at least two of the compressor stages are connected to the output shaft extending from the second end of the motor. 4 . The compressor system of claim 1 , further comprising an aftercooler in downstream fluid communication with one of the compressor stages. 5 . The compressor system of claim 1 , further comprising an aftercooler in downstream fluid communication with each compressor stage. 6 . The compressor system of claim 1 , further comprising an active magnetic bearing operable to rotatably support the output shaft and measure rotor vibration and position. 7 . The compressor system of claim 6 , further wherein the active magnetic bearing comprises: first and second active magnetic bearings coupled to the output shaft between the motor and inner compressor impellers on either side of the of the motor; and third and fourth active magnetic bearings positioned between outer compressor impellers and the inner compressor impellers on either side of the motor, wherein the inner compressor impellers include a second stage compressor impeller and a third stage compressor impeller, and the outer compressor impellers include the two first compression stage split impellers. 8 . The compressor system of claim 6 , wherein the active magnetic bearing comprises: a single active magnetic bearing set with one magnetic bearing positioned between a first split impeller of the first stage compressor and a second stage impeller on one side of the motor and a second magnetic bearing positioned between a second split impeller of the first stage compressor and a third stage impeller. 9 . The compressor system of claim 1 , further comprising an electronic controller and a single frequency converter operably coupled to the electric motor. 10 . The compressor system of claim 1 , wherein the second compressor stage is coupled to the output shaft between the one of the split impellers of the first stage compressor and the first end of the electric motor, and wherein the third compressor stage is coupled to the output shaft between the other of the split impellers and the second end of the electric motor. 11 . A compressor system comprising: an electric motor; a rotatable output shaft extending from the electric motor from a first end and a second end; an active magnetic bearing coupled to the output shaft; a first compressor stage coupled to the output shaft; a first aftercooler positioned downstream of the first compressor stage; a second compressor stage coupled to the output shaft positioned downstream of the first aftercooler; a second aftercooler positioned downstream of the second compressor stage; a third compressor stage coupled to the output shaft positioned downstream of the second aftercooler; a third aftercooler positioned downstream of the third compressor stage; wherein the first compressor stage includes a pair of split impellers such that each of the split impellers compresses approximately one half of the fluid flow to a desired pressure in the first compressor stage, and wherein one of the split impellers is coupled to the output shaft at the first end of the electric motor and the other of the split impellers is coupled to the output shaft at the second end of the electric motor. 12 . The compressor system of claim 11 , further comprising at least one additional compressor stage coupled to the output shaft. 13 . The compressor system of claim 11 , wherein at least one of the compressor stages is connected to a first end of the output shaft and at least two of the compressor stages are connected to a second end of the output shaft. 14 . The compressor system of claim 11 , wherein the active magnetic bearing includes: first and second magnetic bearings coupled to the output shaft between the motor and a compressor impeller on either side of the motor; and third and fourth magnetic bearings positioned between compressor impellers on either side of the motor. 15 . The compressor system of claim 11 , wherein the active magnetic bearing includes: a single magnetic bearing set with one magnetic bearing positioned between a first split impeller of the first stage compressor and a second stage impeller on one side of the motor and a second magnetic bearing positioned between a second split impeller of the first stage compressor and a third stage compressor impeller. 16 . The compressor system of claim 11 , further comprising a controller operably coupled to the electric motor and the active magnetic bearings. 17 . The compressor system of claim 11 , further comprising a single frequency convertor operably coupled to the motor. 18 . The compressor system of claim 11 , wherein the active magnetic bearing measures vibration and position of the output shaft. 19 . The compressor system of claim 11 , wherein the motor operates above a first bending critical speed of a rotor. 20 . The compressor system of claim 11 , wherein the second compressor stage is coupled to the output shaft between the one of the split impellers of the first stage compressor and the first end of the electric motor, and wherein the third compressor stage is coupled to the output shaft between the other of the split impellers and the second end of the electric motor. 21 . A compressor system comprising: an electric motor; a rotatable output shaft extending from a first end and a second end of the electric motor; an active magnetic bearing coupled to the output shaft; a first compressor stage coupled to the output shaft; a first aftercooler positioned downstream of the first compressor stage; a second compressor stage coupled to the output shaft positioned downstream of the first aftercooler; a second aftercooler positioned downstream of the second compressor stage; a third compressor stage coupled to the output shaft positioned downstream of the second aftercooler; a third aftercooler positioned downstream of the third compressor stage, the first compressor stage including a pair of split impellers such that each of the split impellers compresses approximately one half of the fluid flow to a desired pressure in the first compressor stage, wherein one of the split impellers is coupled to the output shaft at the first end of the electric motor and the other of the split impellers is coupled to the output shaft at the second end of the electric motor, and wherein the second compressor stage is coupled to the o