Pump assembly and controlling method

What is claimed is: 1. A pump assembly comprising: a pump unit configured to provide a desired pressure head at zero flow rate; a brushless speed-controlled permanent-magnet AC drive motor for driving the pump unit; and a control unit for controlling the drive motor, the control unit comprising a frequency converter configured to receive an input voltage, wherein: the drive motor is operable in a field-weakening mode and non-field-weakening mode; and the drive motor is undersized for driving the pump unit at a design input voltage to provide a lower pressure head than the desired pressure head at zero flow rate in the non-field-weakening mode and for driving the pump unit to provide the desired pressure head at zero flow rate in the field-weakening mode. 2. The pump assembly according to claim 1 , wherein the frequency converter is configured to provide a pulse width modulated AC output voltage at a modulation index to the drive motor. 3. The pump assembly according to claim 2 , wherein the AC output voltage is limited by the input voltage at a maximum modulation index M max ≈1. 4. The pump assembly according to claim 1 , wherein the design input voltage is a lowest possible input voltage for providing the lower pressure head at zero flow rate in the non-field-weakening mode. 5. The pump assembly according to claim 1 , wherein: the control unit further comprises a voltage converter for providing the input voltage to the frequency converter; and the input voltage is adjustable within a voltage range between a minimum input voltage and a maximum input voltage. 6. The pump assembly according to claim 1 , wherein the drive motor comprises a stator with at least 10% more windings of a wire having at least a 10% smaller cross-section compared to a reference drive motor sized for driving the pump unit to provide the desired pressure head at zero flow rate in the non-field-weakening mode. 7. The pump assembly according to claim 1 , wherein the drive motor may demand an at least 10% higher output voltage from the frequency converter when operated in non-field-weakening mode compared to a reference drive motor sized for driving the pump unit to provide the desired pressure head at zero flow rate in the non-field-weakening mode. 8. The pump assembly according to claim 1 , wherein the frequency converter is configured to receive an input voltage below 60 V. 9. The pump assembly according to claim 5 , wherein: the voltage converter is configured to provide the input voltage within a voltage range between the minimum input voltage and a reference voltage in the field-weakening mode; the voltage converter is configured to provide the input voltage within a voltage range between the reference voltage and the maximum input voltage in the non-field-weakening mode; and the minimum input voltage is less than the reference voltage which is less than the maximum input voltage. 10. The pump assembly according to claim 9 , wherein the frequency converter is configured to operate at a maximum modulation index M max ≈1 when the input voltage approximately equals the reference voltage. 11. The pump assembly according to claim 5 , wherein the design input voltage is the maximum input voltage for providing the pressure head at zero flow rate in the non-field-weakening mode. 12. The pump assembly according to claim 5 , wherein: the control unit is configured to determine an actual power consumption of at least one of the drive motor and the frequency converter during operation of the pump unit; and the control unit is configured to tune the input voltage so that the determined actual power consumption is minimized. 13. The pump assembly according to claim 1 , wherein the pump unit comprises a wet rotor circulation pump for a heating or cooling system. 14. A method for controlling a brushless speed-controlled permanent-magnet AC drive motor via a frequency converter for driving a pump unit for providing a desired pressure head at zero flow rate, the method comprising: driving the pump unit at a design input voltage to provide a lower pressure head than the desired pressure head at zero flow rate in a non-field-weakening mode; driving the pump unit to provide the desired pressure head at zero flow rate in a field-weakening mode. 15. The method according to claim 14 , further comprising providing a pulse width modulated AC output voltage at a modulation index to the drive motor. 16. The method according to claim 14 , wherein the design input voltage is the lowest possible input voltage for providing the pressure head at zero flow rate in the non-field-weakening mode. 17. The method according to claim 14 , wherein driving the pump unit at a design input voltage to provide a lower pressure head than the desired pressure head at zero flow rate in a non-field-weakening mode comprises driving the pump unit with an at least 10% higher output voltage from the frequency converter to the drive motor compared to driving the pump unit with a reference drive motor sized for driving the pump unit to provide the desired pressure head at zero flow rate in the non-field-weakening mode. 18. The method according to claim 14 , further comprising providing an input voltage to the frequency converter, wherein the input voltage is adjustable within a voltage range between a minimum input voltage and a maximum input voltage. 19. The method according to claim 18 , wherein the design input voltage is the maximum input voltage for providing the pressure head at zero flow rate in the non-field-weakening mode. 20. The method according to claim 18 , wherein providing an input voltage comprises providing a DC input voltage below 60 V. 21. The method according to claim 18 , wherein: providing the input voltage comprises providing the input voltage within a voltage range between the minimum input voltage and a reference voltage in the field-weakening mode; providing the input voltage includes providing the input voltage within a voltage range between the reference voltage and the maximum input voltage in the non-field-weakening mode; and the minimum input voltage is less than the reference voltage which is less than the maximum input voltage. 22. The method according to claim 21 , further comprising operating the frequency converter at a maximum modulation index M max ≈1 when the input voltage approximately equals the reference voltage. 23. The method according to claim 14 , further comprising determining an actual power consumption of at least one of the drive motor and the frequency converter during operation of the pump unit, and wherein the control unit is configured to tune the input voltage so that the determined actual power consumption is minimized.