RU2024103129A - METHOD FOR CALIBRATING INDUCTION HEATING DEVICE - Google Patents

Claims (33)

1. A method for calibrating an induction heating device for an aerosol generating system, performed by a controller, comprising: obtaining a sequence of calibration values of an induction heating device for an aerosol generating system, wherein the sequence of calibration values is associated with a calibration curve, wherein the induction heating device includes an inductor that is configured to connect to a current collector for heating the aerosol-generating substrate, wherein the sequence of calibration values contains one of a series of conductivity values and a sequence of resistance values, and wherein the value in the series of calibration values is related to the calibration temperature of the pantograph; smoothing the sequence of calibration values to obtain a sequence of smoothed calibration values; determining the first derivative of the sequence of smoothed calibration values; estimating the maximum value of the first derivative of the sequence of smoothed calibration values; determining at least one of the aligned characteristic and a peak point value based on a first threshold associated with the estimated maximum value of the first derivative; And operating the induction heating device in accordance with the determined at least one of the leveled characteristic and the peak point value. 2. The method according to claim 1, characterized in that smoothing the sequence of calibration values and determining the first derivative of the sequence of smoothed calibration values are performed in one calculation. 3. The method according to claim 1 or 2, characterized in that estimating the maximum value of the first derivative of the sequence of smoothed calibration values includes comparing the value of the first derivative of the sequence of smoothed calibration values with a specified number of values of the first derivative of the sequence of smoothed calibration values. 4. The method according to claim 1 or 2, characterized in that the value of the first derivative of the sequence of smoothed calibration values is evaluated as the maximum value if the average value of a given number of previous values of the first derivative of the sequence of smoothed calibration values is higher than the value of the first derivative of the sequence of smoothed calibration values. 5. Method according to any one of paragraphs. 1-4, characterized in that the first threshold is a fraction of the maximum value of the first derivative of the sequence of smoothed calibration values. 6. Method according to any one of paragraphs. 1-5, further comprising stopping heating of the induction heating device when the first derivative of the smoothed calibration value sequence rises again after the maximum value of the first derivative of the smoothed calibration value sequence. 7. The method of claim 6, wherein the repeated increase in the first derivative of the sequence of smoothed calibration values after the maximum value of the first derivative of the sequence of smoothed calibration values is determined if the average value of a specific number of consecutive first derivative values increases over time. 8. Method according to any one of paragraphs. 1-7, characterized in that it further includes determining the type of calibration curve by classifying the calibration curve; And selecting, based on a particular type of calibration curve, at least one parameter to calibrate. 9. The method according to claim 8, characterized in that the calibration curve is classified based on the slope of the calibration curve. 10. Method according to any one of paragraphs. 1-9, further comprising stopping heating of the induction heating device in response to determining at least one of a flattened characteristic and a peak point value. 11. An induction heating device for an aerosol generating system, comprising a controller configured to: obtaining a sequence of calibration values of the induction heating device, wherein the sequence of calibration values is associated with a calibration curve; smoothing the sequence of calibration values to obtain a sequence of smoothed calibration values; determining the first derivative of the sequence of smoothed calibration values; estimating the maximum value of the first derivative of the sequence of smoothed calibration values; And determining at least one of the aligned characteristic and a peak point value based on a first threshold associated with the estimated maximum value of the first derivative, wherein the induction heating device is operated in accordance with a determined at least one of the leveled characteristic and the peak point value, wherein the induction heating device comprises an inductor that is configured to connect to a current collector for heating the aerosol-forming substrate, wherein the calibration value sequence comprises one of a conductivity value sequence and a resistance value sequence, and wherein a value in the calibration value sequence is associated with a calibration temperature pantograph. 12. An induction heating device according to claim 11, characterized in that it contains: a power supply for supplying DC and DC power supply voltage; an electronic circuit of the power supply connected to a power source, wherein the electronic circuit of the power supply comprises: DC to AC converter; an inductor, wherein the inductor is connected to the DC-AC converter to generate an alternating magnetic field when excited by an AC current from the DC-AC converter; And a controller, wherein the controller is configured to control the power supplied to the electronic circuit of the power supply to ensure an increase in the temperature of the pantograph. 13. The induction heating device of claim 12, wherein obtaining the sequence of calibration values involves measuring a current associated with the electronic power supply circuitry of the induction heating device. 14. An aerosol generating system containing an induction heating device according to any one of claims. 10-13 and an aerosol generating article, wherein the aerosol generating article comprises an aerosol generating substrate and a current collector.