An apparatus and a method for an aerosol generating device is described, the apparatus including a charging controller. The charging controller is configured to control charging of a battery using a power supply at a charging current dependent, at least in part, on power capabilities of the power supply.

An aerosol-generating apparatus includes a housing comprising at least one light-transmitting window configured to transmit external light to an inside of the aerosol-generating apparatus; a heating element comprising a plurality of nanoparticles configured to generate heat in response to light through Surface Plasmon Resonance (SPR); a light source arranged inside the housing and configured to emit light toward the heating element; a sensor configured to detect a temperature of the heating element or a quantity of the external light transmitted to the inside of the aerosol-generating apparatus through the at least one light-transmitting window; and a processor configured to adjust a quantity of light received by the heating element by controlling the light source based on the detected temperature of the heating element or the detected quantity of the external light transmitted to the inside of the aerosol-generating apparatus.

The present disclosure relates to aerosol delivery devices comprising a power unit and a cartridge that is configured for engagement with the power unit. In particular, the cartridge can be configured for rotation about a longitudinal axis thereof so as to be insertable into a chamber of the power unit in a plurality of different orientations. Further, the aerosol delivery device can include processing circuitry that can be configured for detection of the cartridge orientation and execution of a control function assigned to the respective orientation.

The present disclosure relates to aerosol delivery devices comprising a power unit and a cartridge that is configured for engagement with the power unit. In particular, the cartridge can be configured for rotation about a longitudinal axis thereof so as to be insertable into a chamber of the power unit in a plurality of different orientations. Further, the aerosol delivery device can include processing circuitry that can be configured for detection of the cartridge orientation and execution of a control function assigned to the respective orientation.

Methods and apparatus for a vaporizer device according to various aspects of the subject technology may include an atomizer and a control circuit. The atomizer may include a plurality of chambers including a first chamber and a second chamber. The atomizer may also include a plurality of heating elements including a first heating element and a second heating element. The first heating element may be configured to apply heat to the first chamber in response to being enabled, and the second heating element may be configured to apply heat to the second chamber in response to being enabled. The control circuit may be configured to sequentially enable the plurality of heating elements.

An electronic smoking device includes an elongate housing sleeve accommodating at least part of the following components: a battery as an electric power source powering an electrically activatable atomizer including an electric heater adapted to atomize a liquid supplied from a reservoir to provide an aerosol exiting from the atomizer; a puff detector adapted to indicate an aerosol inhaling puff; and control electronics connected to the puff detector and adapted to control the heater of the atomizer. At least part of the battery, the puff detector, the control electronics and/or the atomizer is mounted on an elongate insert permitting lateral access and fitting into the housing sleeve via one of the ends of the housing sleeve.

An electronic smoking device includes an elongate housing sleeve accommodating at least part of the following components: a battery as an electric power source powering an electrically activatable atomizer including an electric heater adapted to atomize a liquid supplied from a reservoir to provide an aerosol exiting from the atomizer; a puff detector adapted to indicate an aerosol inhaling puff; and control electronics connected to the puff detector and adapted to control the heater of the atomizer. At least part of the battery, the puff detector, the control electronics and/or the atomizer is mounted on an elongate insert permitting lateral access and fitting into the housing sleeve via one of the ends of the housing sleeve.

A battery rod includes: a first connecting end and a second connecting end connectable with a vaporizer inserted into the battery rod; and a control chip connected with the first connecting end for sending a first communication signal to the vaporizer inserted into the battery rod and receiving a second communication signal from the vaporizer through the first connecting end so as to realize communication between the battery rod and the vaporizer. The first communication signal includes a first level signal as a logic high level and a second level signal as a logic low level. The second communication signal includes a third level signal as a logic high level and a fourth level signal as a logic low level. A voltage difference between the first level signal and the second level signal is greater than a voltage difference between the third level signal and the fourth level signal.

A battery rod includes: a first connecting end and a second connecting end connectable with a vaporizer inserted into the battery rod; and a control chip connected with the first connecting end for sending a first communication signal to the vaporizer inserted into the battery rod and receiving a second communication signal from the vaporizer through the first connecting end so as to realize communication between the battery rod and the vaporizer. The first communication signal includes a first level signal as a logic high level and a second level signal as a logic low level. The second communication signal includes a third level signal as a logic high level and a fourth level signal as a logic low level. A voltage difference between the first level signal and the second level signal is greater than a voltage difference between the third level signal and the fourth level signal.

The present disclosure relates to an aerosol delivery device and related methods and computer program products for controlling an aerosol delivery device based on input characteristics. For example, a method may include an aerosol delivery device determining a characteristic of a user input to the aerosol delivery device. The method may further include the aerosol delivery device determining a control function having a defined association with the characteristic. The method may additionally include the aerosol delivery device performing the control function in response to the user input.