Electrically heated aerosol generating system having improved heater control

The invention claimed is: 1. A method for controlling at least one electric heating element of an electrically heated aerosol generating system for heating an aerosol-forming substrate, the electrically heated aerosol generating system having a sensor configured to detect airflow indicative of a user taking a puff having an airflow duration, the method being performed by electric circuitry and comprising: increasing a heating power for the at least one heating element from zero to a power p1 when the sensor detects that an airflow rate has increased to a first threshold; maintaining the heating power at the power p1 for at least some of the airflow duration; and decreasing the heating power for the at least one heating element from the power p1 to zero when the sensor detects that the airflow rate has decreased to a second threshold, wherein the first threshold is smaller than the second threshold. 2. The method according to claim 1 , wherein the increasing the heating power for the at least one heating element from zero to the power p1 comprises increasing the heating power from zero to power p1 substantially instantly. 3. The method according to claim 1 , wherein the decreasing the heating power for the at least one heating element from the power p1 to zero comprises decreasing the heating power from the power p1 to zero substantially instantly. 4. The method according to claim 1 , wherein the decreasing the heating power for the at least one heating element from the power p1 to zero comprises decreasing the heating power from the power p1 to zero gradually. 5. The method according to claim 1 , further comprising, after the increasing the heating power for the at least one heating element from zero to the power p1: increasing the heating power for the at least one heating element from the power p1 to a power p2 greater than the power p1. 6. The method according to claim 1 , wherein the maintaining the heating power at the power p1 for the at least some of the airflow duration comprises supplying pulses of electric current to the at least one heating element at a first frequency f1 and a first duty cycle. 7. The method according to claim 4 , wherein the decreasing the heating power from the power p1 to zero further comprises gradually supplying pulses of electric current to the at least one heating element at a second frequency f2 and a second duty cycle. 8. The method according to claim 5 , wherein the increasing the heating power for the at least one heating element from the power p1 to the power p2 greater than the power p1 further comprises supplying pulses of electric current to the at least one heating element at a third frequency f3 and a third duty cycle. 9. An electrically heated aerosol generating system for heating an aerosol-forming substrate, the electrically heated aerosol generating system comprising: at least one electric heating element configured to heat the aerosol-forming substrate to form an aerosol; a power supply configured to supply power to the at least one electric heating element; and electric circuitry configured to control a supply of power from the power supply to the at least one electric heating element, the electric circuitry including a sensor configured to detect airflow indicative of a user taking a puff having an airflow duration, wherein the electric circuitry is further configured to: increase a heating power for the at least one heating element from zero to a power p1 when the sensor detects that an airflow rate has increased to a first threshold, maintain the heating power at the power p1 for at least some of the airflow duration, and decrease the heating power for the at least one heating element from the power p1 to zero when the sensor detects that the airflow rate has decreased to a second threshold, and wherein the first threshold is smaller than the second threshold. 10. The electrically heated aerosol generating system according to claim 9 , wherein the aerosol-forming substrate is a liquid substrate, the system further comprising a capillary wick configured to convey the liquid substrate to the at least one electric heating element. 11. Electric circuitry for an electrically heated aerosol generating system, the electric circuitry being configured to perform a method for controlling at least one electric heating element of the electrically heated aerosol generating system for heating an aerosol-forming substrate, the electrically heated aerosol generating system having a sensor configured to detect airflow indicative of a user taking a puff having an airflow duration, the method comprising: increasing a heating power for the at least one heating element, using the electric circuitry, from zero to a power p1 when the sensor detects that an airflow rate has increased to a first threshold; maintaining the heating power, using the electric circuitry, at the power p1 for at least some of the airflow duration; and decreasing the heating power for the at least one heating element, using the electric circuitry, from the power p1 to zero when the sensor detects that the airflow rate has decreased to a second threshold, wherein the first threshold is smaller than the second threshold. 12. A nontransitory computer readable medium encoded with a computer program product, which when run on programmable electric circuitry for an electrically heated aerosol generating system, causes the programmable electric circuitry to perform a method for controlling at least one electric heating element of an electrically heated aerosol generating system for heating an aerosol-forming substrate, the electrically heated aerosol generating system having a sensor configured to detect airflow indicative of a user taking a puff having an airflow duration, the method comprising: increasing a heating power for the at least one heating element, using the programmable electric circuitry, from zero to a power p1 when the sensor detects that an airflow rate has increased to a first threshold; maintaining the heating power, using the programmable electric circuitry, at the power p1 for at least some of the airflow duration; and decreasing the heating power for the at least one heating element, using the programmable electric circuitry, from the power p1 to zero when the sensor detects that the airflow rate has decreased to a second threshold, wherein the first threshold is smaller than the second threshold.