Methods and systems for control of parallel connected motor drives

What is claimed is: 1. A method of controlling a plurality of permanent magnet synchronous motors using a single inverter, wherein the method comprises: obtaining an estimate of rotor position and speed individually for a plurality of permanent magnet synchronous motors; calculating the average rotor position from the obtained estimate of the rotor position for each permanent magnet synchronous motor of the plurality of permanent magnet synchronous motors; reconstructing a rotor permanent-magnet flux for each permanent magnet synchronous motor of the plurality of permanent magnet synchronous motors; transforming the reconstructed rotor permanent-magnet flux for each permanent magnet synchronous motor of the plurality of permanent magnet synchronous motors to average fluxes and average differential fluxes on an average d-q reference frame; obtaining the average current reference and an inverter voltage reference in the average d-q reference frame for the plurality of permanent magnet synchronous motors; and generating voltage to drive the plurality of permanent magnet synchronous motors. 2. The method of claim 1 , wherein obtaining the estimate of the rotor position individually for a plurality of permanent magnet synchronous motors comprises: using a plurality of position sensors. 3. The method of claim 1 , wherein obtaining the estimate of the rotor position individually for a plurality of permanent magnet synchronous motors comprises: using a plurality of position observers. 4. A system for controlling permanent magnet synchronous motors, wherein the system comprises: a single voltage inverter; permanent magnet synchronous motors in communication with the single voltage inverter; a current reference calculation module configured to calculate an average current and differential current for the permanent magnet synchronous motors; a first rotor position observer configured to estimate the rotor position and speed for one of the permanent magnet synchronous motors; a second rotor position observer configured to estimate the rotor position and speed for the other permanent magnet synchronous motor; and a rotor flux reconstruction module in communication with the first rotor position observer and the second rotor position observer, wherein the rotor flux reconstruction module is configured to calculate the average rotor position, reconstruct rotor permanent-magnet fluxes and transform the rotor permanent-magnet fluxes to average and average differential fluxes in an average d-q reference. 5. The system of claim 4 , further comprising speed controllers configured to acknowledge the individual torque applied to the permanent magnet synchronous motors. 6. A method of controlling a downhole transport assembly, wherein the method comprises: conveying a downhole toolstring into a wellbore with a downhole transport assembly, wherein the downhole transport assembly is driven by a plurality of permanent magnet synchronous motors; obtaining an estimate of rotor position and speed individually for the plurality of permanent magnet synchronous motors; calculating the average rotor position from the obtained estimate of the rotor position for each permanent magnet synchronous motor of the plurality of permanent magnet synchronous motors; reconstructing a rotor permanent-magnet flux for each permanent magnet synchronous motor of the plurality of permanent magnet synchronous motors; transforming the reconstructed rotor permanent-magnet flux for each permanent magnet synchronous motor of the plurality of permanent magnet synchronous motors to average and average fluxes and differential fluxes on an average d-q reference frame; obtaining the average current reference and an inverter voltage reference in the average d-q reference frame for the plurality of permanent magnet synchronous motors; and generating voltage to drive the plurality of permanent magnet synchronous motors.