Method for reducing the inrush current of an asynchronous electrical motor and a compressor system for implementing this method

What is claimed is: 1. A method for controlling electrical motors of a compressor system, this method comprising: connecting a capacitor bank of the compressor system in parallel with a first electrical motor of the compressor system, this connection comprising connecting capacitors of the capacitor bank to windings of the stator of the first electrical motor, by operating a switch unit of the capacitor bank connected to an internal power bus; starting the first electrical motor, by providing an input electrical current to the windings of the first electrical motor from the internal power bus; disconnecting the capacitor bank from said first electrical motor once said first electrical motor has started, this disconnection comprising disconnecting said capacitors from the windings of the motor; after disconnecting the capacitor bank from said first electrical motor, connecting the capacitor bank in parallel with a second electrical motor of the compressor system, this connection comprising connecting capacitors of the capacitor bank to windings of the stator of the second electrical motor by operating a switch unit of the capacitor bank connected to the internal power bus; starting the second electrical motor, by providing an input electrical current to the windings of the stator of the second electrical motor from the internal power bus; disconnecting the capacitor bank from said second electrical motor once said second electrical motor has started, this disconnection comprising disconnecting said capacitors from the windings of the second electrical motor. 2. The method of claim 1 , wherein the connection of the capacitor bank is done simultaneously with starting the first electrical motor. 3. The method of claim 1 , wherein the connection of the capacitor bank is done before starting the first electrical motor. 4. The method of claim 3 , wherein the time delay between connecting the capacitor bank and starting the first electrical motor is lower than or equal to 500 ms. 5. The method according to claim 1 , wherein starting the first electrical motor comprises switching the connection pattern of windings of the stator of the first electrical motor into a star pattern using a starter circuit connected to the first electrical motor. 6. The method of claim 5 , wherein the connection of the capacitor bank comprises controlling the switch unit simultaneously with the starter circuit of the first electrical motor. 7. The method according to claim 1 , wherein the disconnection of the capacitor bank is done automatically after the expiration of a predefined time delay following the starting of the first electrical motor. 8. The method according to claim 1 , wherein the second electrical motor is similar or identical to the first electrical motor and wherein connecting the capacitor bank in parallel with the second electrical motor comprises connecting capacitors of the same capacitor bank (5-0) as for the first electrical motor. 9. The method of claim 1 , wherein the capacitor bank includes a first capacitor bank having a first capacitance and a second capacitor bank having a second capacitance, the second capacitance different than the first capacitance; wherein starting the first electrical motor includes connecting the first capacitor bank to the first electrical motor; wherein starting the second electrical motor includes connecting the second capacitor bank to the second electrical motor. 10. A compressor system comprising at least one electrical motor and a capacitor bank, wherein the compressor system is adapted to: connect a capacitor bank of the compressor system in parallel with a first electrical motor of the compressor system, this connection comprising connecting capacitors of the capacitor bank to windings of the stator of the first electrical motor, by operating a switch unit of the capacitor bank connected to an internal power bus; start the first electrical motor, by providing an input electrical current to the windings of the first electrical motor from the internal power bus; disconnect the capacitor bank from said first electrical motor once said first electrical motor has started, this disconnection comprising disconnecting said capacitors from the windings of the motor; wherein the compressor further comprises a second electrical motor, the compressor system configured to: connect the capacitor bank in parallel with the second electrical motor of the compressor system, this connection comprising connecting capacitors of the capacitor bank to windings of the stator of the second electrical motor by operating a switch unit of the capacitor bank connected to the internal power bus; starting the second electrical motor, by providing an input electrical current to the windings of the stator of the second electrical motor from the internal power bus; disconnecting the capacitor bank from said second electrical motor once said second electrical motor has started, this disconnection comprising disconnecting said capacitors from the windings of the second electrical motor.