Method and device for controlling the operation of an electric motor

The invention claimed is: 1. A method for controlling an operation of an electric motor, which comprises the steps of: generating and outputting electrical voltages applied to electrical phases of the electric motor in a controlled manner in a modulation on a basis of a rotor position of the electric motor, on a basis of a set point/actual comparison of a speed of the electric motor executed in a control loop by a speed controller, and on a basis of a set point/actual comparison of a total current measured on an electric power supply unit of the electric motor by a current regulator which is subordinate to the speed controller; forming a set point value at an input of the current regulator by multiplying a present duty factor for modulation by a first manipulated variable applied to an output of the speed controller, the first manipulated variable of the speed controller becomes an equivalent phase current root mean square value for the electric motor in the current regulator, by means of multiplication by the present duty factor; and limiting the first manipulated variable prior to multiplication with the present duty factor for modulation. 2. The method according to claim 1 , wherein the present duty factor is obtained by dividing a second manipulated variable at an output of the current regulator by a maximum available intermediate circuit voltage on the power supply unit. 3. The method according to claim 2 , which further comprises generating an equivalent voltage amplitude on the electric motor as the second manipulated variable by the current regulator. 4. The method according to claim 1 , which further comprises limiting the set point value. 5. The method according to claim 4 , which further comprises executing the limiting of the set point value, prior to the multiplication of the present duty factor for modulation with the first manipulated variable on the output of the speed controller, by a conversion of a total current limit into an equivalent current limit by division with the present duty factor. 6. The method according to claim 1 , which further comprises determining the electrical voltages with reference to a rotor position angle which is characteristic of a rotor position of the electric motor, in a space vector modulation. 7. A device for controlling an operation of an electric motor, the device comprising: at least one detection unit; a power supply unit for a controlled output of electric voltages on electrical phases of the electric motor, said power supply unit is coupled to said least one detection unit for detecting a rotor position of the electric motor; at least one speed controller, disposed in a control loop, for an execution of a set point/actual comparison of a speed of the electric motor; a current regulator being subordinate to said speed controller for the execution of the set point/actual comparison of a total current measured on said power supply unit; and a multiplier disposed on an output of said speed controller, by means of which a set point value on an input of said current regulator is obtained by multiplying a present duty factor for modulation with a first manipulated variable on said output of said speed controller, output such that the first manipulated variable of said speed controller, by means of multiplication with the present duty factor in said current regulator, becomes an equivalent phase current root mean square value of the electric motor, the first manipulated variable being limited prior to multiplication with the present duty factor for modulation. 8. The device according to claim 7 , further comprising a divider disposed on an output of said current regulator, by means of said divider the present duty factor is obtained by a division of a second manipulated variable present on said output of said current regulator by a maximum intermediate circuit voltage available on said power supply unit. 9. The device according to claim 8 , wherein the second manipulated variable is an equivalent voltage amplitude of the electric motor. 10. The device according to claim 7 , wherein said power supply unit has a bridge circuit. 11. The device according to claim 10 , wherein said bridge circuit is a B6 bridge circuit.