TH105145A - Flow sensing system - Google Patents

Abstract

DC60 (28/10/16) A flow sensing system is provided for the sensing of fluid flow that is Indication of the pumping in the aerosol generation system This sensory system includes a cognitive cycle, which Includes a sensing resistor and voltage output. This sensing resistor has been provided to detect fluid flow based on a change in resistance. This awareness cycle has been organized. In such a way that Change in resistance of This sensing resistor causes a change in the output voltage. This sensor system Also includes a signal generator, which has been established to provide a pulse to the The awareness circuit is for powering this awareness circuit. This awareness cycle is powered. When this pulse drive signal is high state And will not be empowered When a pulse drive signal This is a low status This sensor system has been established. To operate in the first mode Where the smoking cannot Get expected or detect And where this pulse drive signal has a first frequency And the second mode where the pumping is expected or detected. And where this pulse drive signal has a second frequency which is greater This frequency one is revised 10/28/2016. Flow sensing systems have been provided for the perception of fluid flow as Indication of the pumping in the aerosol generation system This sensory system consists of a cognitive cycle in which Equipped with a resistor for pressure sensing and output. This sensing resistor has been provided to detect fluid flow based on the change in resistance. This awareness cycle has been organized. In such a way that Change in resistance of This sensing resistor will cause a change in output voltage. This sensor system Also includes a signal generator, which has been established to provide a pulse to the The awareness circuit is for powering this awareness circuit. This awareness cycle is powered. When this pulse drive signal is high state And will not be empowered When a pulse drive signal This is a low status. This sensor system has been established. To operate in one method Which in this way Not expecting or checking for smoking And which in this way This pulse drive signal has a first frequency and a second mode. Which in this way Expecting or checking for smoking And in this way, this pulsed signal has a second frequency which is more than this one. Drawing for the advertisement Figure 1 ---------------------- A flow sensing system was provided for flow awareness. Fluid that is Indication of the pumping in the aerosol generation system This sensory system consists of a cognitive cycle in which Includes a sensing resistor and voltage output. This sensing resistor has been provided to detect fluid flow based on the change in resistance. This awareness cycle has been organized. In such a way that Change of resistance of The sensing resistor will cause a change in the output voltage. This sensor system It is also equipped with a signal generator, which is designed to provide a pulse to the The awareness circuit is for powering this awareness circuit. This awareness cycle is powered. When this pulse drive signal is high state And will not be empowered When a pulse drive signal This is a low status This sensor system has been established. To operate in one method Which in this way Not expecting or checking for smoking And which in this way This pulse drive signal has a first frequency and a second mode. Which in this way Expecting or checking for smoking And in this way, this pulse drive signal has a second frequency which is more than this one. Drawing for advertisement notice; Figure 1:

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: EDIT 28/10/2016 1. Flow sensing system for the perception of fluid flow as indication of the pumping. In the aerosol generation system, this sensory system is set up to operate in one mode, where The smoke was not expected or detected, and in the second mode Where smoking is expected, or Detect, and includes: a sensory circuit which has a sensing resistor and a voltage output, in which this sensing resistor Has been established to detect the flow of the indicative fluid of the pumping based on A change in resistance, to which this awareness circuit is organized in such a way that This change in resistance of the sensing resistor causes a change in the output voltage -, and the signal generator is provided to supply the S1 as a pulse drive signal. To the awareness circuit for powering this sensing circuit, in such a way that this awareness circuit Power is supplied by the S1 signal when this pulse driving signal S1 is a high state. Power is not supplied when the pulse S1 is low state, where the pulse S1 is the first frequency f1 in this mode one, and Second frequency f2 greater than first frequency f1 in this second mode And where the signal generator has been arranged to switch from Mode one goes into the second mode when pumping is expected or detected by the sensing circuit 2. Flow sensing system according to claim 1, which is also continued to the source. Current which is supplied to supply a predetermined current through this sensing circuit, where the pulse signal S1 is supplied to this current source. 3. Flow sensor system according to claim 1 or claim 2, which is also included. To the differential amplifier which is arranged to amplify the output voltage of this sensing circuit 4. The flow sensing system according to claim 3 where the output of this differential amplifier Is proportional to the sensing circuit output voltage within a range of the value of the output ton This sensory cycle is saturated, and is saturated when the output ton of this awareness cycle is less than or greater than this range. 5. Flow sensing system according to one of the previous claims. , Which continues to be included With a path for sensitivity correction of this receptor system, a path for sensitivity correction This contains one or more parts of: variable resistor in this receiving circuit; The offset circuit itself corrects; And a signal generator for the supply of Sc signal that is a pulse calibration signal 6. Flow sensing system according to one of the preceding claims. Where this awareness cycle Including the Weedstone Bridge circuit which has the first and second legs. And where this output voltage is the difference between The pressure across the first leg and the pressure across the second leg 7. Aerosol generating system for substrate receiving aerosols, which As well as a flow sensing system for fluid flow sensing in this aerosol generating system that is Indication of the pumping, which this flow sensing system is in accordance with one of the preceding claims 8. Aerosol generating system according to claim 7, which also continues to : At least one heating element for this substrate heating to Forms aerosols; Where this flow sensing system is set up to activate the heating element When this flow sensing system receives the fluid flow that is the indication of the pump. 9. Methods for driving the flow sensing system for the sensing of fluid flow. Indication of the pumping in the aerosol generating system, in which the receptor system is integrated to operate In the first mode, where the pumping is not expected or detected, and in the second mode Where the smoke To be expected or detected This method includes steps of: supplying S1 as a pulse drive signal to the sensing circuit for power distribution. To this sensing circuit, in such a way that this sensing circuit is powered by signal S1 when this pulse driving signal S1 is high state. Power is not supplied when the pulse S1 is a low state, the sensing circuit includes a sensing resistor and Pressure output, which this sensing resistor is supplied to detect the flow of the fluid It is an indication of the pump based on the change in resistance of the resistor to This awareness, in which this awareness cycle is organized in such a way that a change in resistance Of the resistor for this realization causes a change in the output voltage; And this switching of the sensory system between the first and second mode of operation, where this pulse-driven S1 signal has a frequency of one f1 in this first mode, and a second frequency f2 at Than the first frequency f1 in this second mode, when the pumping is expected or detected by the sensing circuit 1 0. Method according to claim 9, where the procedure of switching the sensory system This between The first and second modes of operation include switching the sensory system from mode one where this pulse-driven S1 signal has a frequency of f1 to the second mode. Where this pulse-driven S1 signal has a second frequency f2 when the pump is detected 1 1. Method according to claim 9 or claim no.10, where the procedure Switch This recognition system, between the first and second mode of operation, includes a switch from this recognition system from Mode one where this pulse-driven S1 signal has a frequency of one, f1 goes to the second mode where this pulse-driven S1 signal has a second frequency f2 when the pump is pumped. Expect with basics On User Habits 1 2. Any one of Claims 9 through 11, which also goes through the process of supplying S2 signals to other components. In this aerosol generating system, the S2 signal is a high state when the output voltage of this aperture circuit indicates that The pumping is detected and this signal S2 is a low state when the output pressure of this sensing circuit indicates that the pump is not detected. 1. 3. What method of claim 9 to 12? One, which also goes on to include the steps of sensitivity correction of this sensory system, which include one or more steps of: correction of variable resistor resistance. In this cycle of awareness periodically; Providing self-correcting offset circuits; And the distribution of the Sc signal that is a pulse calibration signal to this recognition circuit 1 4. Method of Clause 9 to 13, which is also included to the procedure. Of the aerosol delivery to the user depending on the nature of the pump being detected. By this awareness cycle ------------------------------ 1. Flow sensor system for sensing fluid flow that indicates pumping. In aerosol generating systems In which this sensory system has been established To operate in one method Which in this way Not expecting or checking for smoking And in the second method In this way, either expect or detect pumping and it includes: a sensing circuit consisting of a sensing resistor and a pressure output. Which resistor For this acknowledgment has been held To detect fluid flow based on the change Of resistance In which this awareness cycle has been established In such a way that Change of This perceived resistor resistance causes a change in the output voltage; And a signal generator, which has been established to supply S1 as a pulse driving signal To the awareness circuit for powering this sensing cycle In such a way that This awareness cycle Power is supplied when this pulse driving S1 signal is high. And will not receive Power is supplied when this pulse driven S1 signal is low. Where the S1 is a pulse driving signal This one frequency f1 in this one mode And the second frequency f2 that is greater than the first frequency f1 in this second mode