HVAC actuator

The invention claimed is: 1. An HVAC actuator, comprising an electric motor, wherein the HVAC actuator further comprises: an energy buffer configured to store electrical energy from a power supply, and to provide the electrical energy to the electric motor; and a power limiting circuit configured to limit input power from the power supply to the energy buffer to a threshold lower than motor power drawn by the electric motor from the energy buffer, wherein the HVAC actuator further comprises a motor controller configured to monitor an operating condition of the energy buffer, to store a safety position, and to drive the electric motor to the safety position depending on the operating condition of the energy buffer, using electrical energy stored in the energy buffer. 2. The HVAC actuator according to claim 1 , wherein the energy buffer is configured to accumulate and to store electrical energy during an idle time of the electric motor and to provide electrical energy to the electric motor during an active time of the electric motor. 3. The HVAC actuator according to claim 2 , wherein the power limiting circuit is configured to set the threshold such that the electrical energy stored in the energy buffer during the idle time is sufficient to drive the electric motor during the active time. 4. The HVAC actuator according to claim 1 , wherein the power limiting circuit is configured to set the threshold such that the electrical energy stored in the energy buffer is sufficient to feed the motor controller. 5. The HVAC actuator according to claim 1 , further comprising a regulator configured to convert input voltage of the HVAC actuator to a voltage lying in a voltage range of the energy buffer. 6. The HVAC actuator according to claim 5 , wherein the regulator is a switching regulator. 7. The HVAC actuator according to claim 5 , wherein the power limiting circuit is configured to adjust the threshold depending on a conversion efficiency of the regulator. 8. The HVAC actuator according to claim 1 , wherein the energy buffer is a Lithium-ion capacitor. 9. A system comprising a plurality of HVAC actuators according to claim 1 , connected to a common power supply line, wherein the common power supply line provides input power to the HVAC actuators, the input power in each case being limited by the power limiting circuits of the HVAC actuators. 10. The system according to claim 9 , wherein the power limiting circuits of the HVAC actuators are configured to adjust the thresholds depending on the number of HVAC actuators connected to the common power supply line. 11. The system according to claim 9 , wherein the power limiting circuits of the HVAC actuators are configured to adjust the thresholds depending on the power of the common power supply line. 12. The system according to claim 9 , wherein the common power supply line comprises a power over Ethernet line. 13. A method of operating an HVAC actuator comprising an electric motor, the method comprising: storing electrical energy from a power supply in an energy buffer of the HVAC actuator and providing the electrical energy to the electric motor; limiting by a power limiting circuit of the HVAC actuator input power from the power supply to the energy buffer to a threshold lower than motor power drawn by the electric motor from the energy buffer; monitoring, by a motor controller of the HVAC actuator, an operating condition of the energy buffer; storing, by the motor controller, a safety position; and driving the electric motor to the safety position depending on the operating condition of the energy buffer, using electrical energy stored in the energy buffer. 14. An HVAC actuator, comprising an electric motor, wherein the HVAC actuator further comprises: an energy buffer configured to store electrical energy from a power supply, and to provide the electrical energy to the electric motor; and a power limiting circuit configured to limit input power from the power supply to the energy buffer to a threshold lower than motor power drawn by the electric motor from the energy buffer, wherein for a case of zero input power to the HVAC actuator, the energy buffer is configured to operate in a battery mode for driving the electric motor during a time. 15. The HVAC actuator according to claim 14 , wherein the HVAC actuator further comprises an activation switch configured to activate the HVAC actuator, from a deactivated, energy conserving state to an active state, for the case of zero input power to the HVAC actuator. 16. The HVAC actuator according to claim 14 , wherein the HVAC actuator further comprises a near field communication module configured to activate the HVAC actuator, from a deactivated, energy conserving state to an active state. 17. The HVAC actuator according to claim 14 , wherein the energy buffer is configured to accumulate and to store electrical energy during an idle time of the electric motor and to provide electrical energy to the electric motor during an active time of the electric motor. 18. The HVAC actuator according to claim 17 , wherein the power limiting circuit is configured to set the threshold such that the electrical energy stored in the energy buffer during the idle time is sufficient to drive the electric motor during the active time. 19. The HVAC actuator according to claim 14 , further comprising a regulator configured to convert input voltage of the HVAC actuator to a voltage lying in a voltage range of the energy buffer. 20. The HVAC actuator according to claim 19 , wherein the regulator is a switching regulator. 21. The HVAC actuator according to claim 19 , wherein the power limiting circuit is configured to adjust the threshold depending on a conversion efficiency of the regulator. 22. The HVAC actuator according to claim 14 , wherein the energy buffer is a Lithium-ion capacitor. 23. A system comprising a plurality of HVAC actuators according to claim 14 , connected to a common power supply line, wherein the common power supply line provides input power to the HVAC actuators, the input power in each case being limited by the power limiting circuits of the HVAC actuators. 24. The system according to claim 23 , wherein the power limiting circuits of the HVAC actuators are configured to adjust the thresholds depending on the number of HVAC actuators connected to the common power supply line. 25. The system according to claim 23 , wherein the power limiting circuits of the HVAC actuators are configured to adjust the thresholds depending on the power of the common power supply line. 26. The system according to claim 23 , wherein the common power supply line comprises a power over Ethernet line. 27. A method of operating an HVAC actuator comprising an electric motor, the method comprising: storing electrical energy from a power supply in an energy buffer of the HVAC actuator and providing the electrical energy to the electric motor; and limiting by a power limiting circuit of the HVAC actuator input power from the power supply to the energy buffer to a threshold lower than motor power drawn by the electric motor from the energy buffer, wherein for a case of zero input power to the HVAC actuator, the energy buffer is configured to operate in a battery mode for driving the electric motor during a time.