Multi-motor operation

The invention claimed is: 1. A method for a closed-loop and open-loop control of two or more EC motors operated using one converter for setting the operating point of the EC motors comprising: providing a common open-loop or closed-loop control using at least one controller; providing a combination of at least one control option and one sub-option for the at least one control option; a controlled variable regulating a voltage setting at an output of the converter; and operating the two or more EC motors having at least one of (a) a stable operating point and (b) following an intended sequence of operating points in a stable manner. 2. The method according to claim 1 , according to the sub-option, selecting a suitable reference motor for controlling the operating points of the EC motors. 3. The method according to claim 2 , wherein the motor used as the reference motor in the motor reference system is one of the motor with the highest speed, the motor with the lowest speed, a motor with a speed that is not the highest speed or the lowest speed, a weighted combination of multiple EC motors, or a factitious reference motor. 4. The method according to claim 1 further comprising setting the voltage setting at the output of the converter by an angle and speed difference evaluation between the reference motor and at least one other EC motor. 5. The method according to claim 1 further comprising a using change in amplitude of the output voltage at the converter, a change in phase position of the output voltage at the converter, or a change in amplitude and phase position of the output voltage at the converter as the controlled variable for regulating a preferred operating point of the EC motors. 6. The method according to claim 5 , wherein another sub-option is combined with the control option and speed control, adjustment of the degree of level control, or mere current control are used as the another sub-option. 7. The method according to claim 1 , further comprising ensuring the stable operating point as an efficient operating point of the EC motors via current phase control, a mathematical function, or value allocation tables, as another sub-option. 8. The method according to claim 4 , wherein via a speed controller and by periodically or continuously comparing the actual and the target speeds that the EC motors follow any sequence of operating points via the control of the output voltage of the converter in a stable manner. 9. The method according to claim 4 , further comprising setting the desired operating point of the EC motors by specifying a fixed degree of level control or duty cycle by the converter. 10. The method according to claim 7 , wherein for ensuring the preferred operating point using current phase control, the resulting current to be controlled by current phase control contains the required d-current portion in a dq coordinate system, the current phase controller for this purpose sets the phase angle Δγ at its output, which in the steady state of the motor corresponds exactly to the phase shift φ resulting from the motor load. 11. A method for a closed-loop and open-loop control of two or more EC motors operated using one converter for setting the operating point of the EC motors comprising: providing a common open-loop or closed-loop control using at least one controller; providing a combination of at least one control option and one sub-option; a controlled variable regulating a voltage setting at an output of the converter; operating the two or more EC motors having at least one of (a) a stable operating point and (b) following an intended sequence of operating points in a stable manner; and setting the voltage setting at the output of the converter by an angle and speed difference evaluation between a reference motor and at least one other EC motor.