Provided is a voltage output circuit. The voltage output circuit includes a processing module and N output modules, N is an integer greater than 1. The processing module includes N output ends. The N output terminals of the processing module are correspondingly connected to the N output modules, and the N output terminals of the processing module are used for respectively output control signals so as to control the corresponding output modules to output drive voltages. The voltage output circuit is provided with multiple output modules respectively controlled by multiple control signals, so that the voltage output circuit is capable of respectively providing drive voltages to multiple apparatuses of one device, and has good compatibility and high flexibility.

Provided is a voltage output circuit. The voltage output circuit includes a processing module and N output modules, N is an integer greater than 1. The processing module includes N output ends. The N output terminals of the processing module are correspondingly connected to the N output modules, and the N output terminals of the processing module are used for respectively output control signals so as to control the corresponding output modules to output drive voltages. The voltage output circuit is provided with multiple output modules respectively controlled by multiple control signals, so that the voltage output circuit is capable of respectively providing drive voltages to multiple apparatuses of one device, and has good compatibility and high flexibility.

An aerosol generating apparatus includes a load that generates heat upon receipt of electric power from a power supply and atomizes an aerosol source, an element that is used to acquire a value related to a temperature of the load, a retention unit that retains an aerosol source supplied from a storage to allow the retained aerosol source to be in a feasible state of being heated by the load, and a control unit configured to distinguish between a first state of the aerosol generating apparatus in which the aerosol source stored in the storage is insufficient in quantity, and a second state of the aerosol generating apparatus in which the storage is capable of supplying the aerosol source while the retained aerosol source is insufficient in quantity, on the basis of a change in the value related to the temperature.

An aerosol generating apparatus includes a load that generates heat upon receipt of electric power from a power supply and atomizes an aerosol source, an element that is used to acquire a value related to a temperature of the load, a retention unit that retains an aerosol source supplied from a storage to allow the retained aerosol source to be in a feasible state of being heated by the load, and a control unit configured to distinguish between a first state of the aerosol generating apparatus in which the aerosol source stored in the storage is insufficient in quantity, and a second state of the aerosol generating apparatus in which the storage is capable of supplying the aerosol source while the retained aerosol source is insufficient in quantity, on the basis of a change in the value related to the temperature.

An aerosol generating device includes: a cartridge including a liquid storage and an atomizer; and a main body including a battery, a puff sensor, and a controller configured to perform pulse width modulation (PWM) control for supplying power from the battery to the atomizer, wherein the controller performs the PWM control at a first duty ratio during a puff period and performs the PWM control at a second duty ratio lower than the first duty ratio during a non-puff period between puff periods.

An aerosol generating device includes: a cartridge including a liquid storage and an atomizer; and a main body including a battery, a puff sensor, and a controller configured to perform pulse width modulation (PWM) control for supplying power from the battery to the atomizer, wherein the controller performs the PWM control at a first duty ratio during a puff period and performs the PWM control at a second duty ratio lower than the first duty ratio during a non-puff period between puff periods.

The present invention relates to an aerosol generator that vaporizes a liquid type inhalation material, and more particularly, to a circuit capable of sensing and controlling a heater voltage, without being affected by power of a battery, in an aerosol generator using a liquid cartridge. According to the present invention, there is provided a circuit for sensing and controlling a heater voltage in an aerosol generator, the circuit including: a battery that supplies power; a microcontroller; a first FET connected to the battery and turned on/off according to a sensing control signal output from the microcontroller; a sensing resistor connected to the first FET; a second FET connected to the battery and turned on/off according to a heater control signal output from the microcontroller; and a heater resistor connected to the second FET and also connected to one end of the sensing resistor, wherein the upstream end of the sensing resistor is connected to the microcontroller, and the downstream end of the sensing resistor has one side connected to the microcontroller and the other side connected to the second FET.

The present invention relates to an aerosol generator that vaporizes a liquid type inhalation material, and more particularly, to a circuit capable of sensing and controlling a heater voltage, without being affected by power of a battery, in an aerosol generator using a liquid cartridge. According to the present invention, there is provided a circuit for sensing and controlling a heater voltage in an aerosol generator, the circuit including: a battery that supplies power; a microcontroller; a first FET connected to the battery and turned on/off according to a sensing control signal output from the microcontroller; a sensing resistor connected to the first FET; a second FET connected to the battery and turned on/off according to a heater control signal output from the microcontroller; and a heater resistor connected to the second FET and also connected to one end of the sensing resistor, wherein the upstream end of the sensing resistor is connected to the microcontroller, and the downstream end of the sensing resistor has one side connected to the microcontroller and the other side connected to the second FET.

An aerosol generating device and system determine whether an aerosol generating substance is separated from the aerosol generating device based on an amount of change in inductance while power is blocked from being supplied to a heater.

An aerosol generating device and system determine whether an aerosol generating substance is separated from the aerosol generating device based on an amount of change in inductance while power is blocked from being supplied to a heater.