An inductively heatable susceptor for use with an inductively heated aerosol-generating device or system includes an open-porous inductively heatable ceramic material configured to hold an aerosol-forming liquid and configured to heat the aerosol-forming liquid under the influence of an alternating electromagnetic field. A cartridge for use with an aerosol-generating device includes an aerosol-forming liquid and a susceptor. An aerosol-generating device includes a susceptor.

A method for automated manufacturing of e-vapor devices may include establishing a procession of partially assembled, oriented cartridge units of the e-vapor devices in an assembly path. The method may additionally include preparing the cartridge units for filling while the cartridge units are moving on a first drum-to-drum transport path of the assembly path. The method may also include adding liquid to the cartridge units while the cartridge units are moving in a filling workstation of the assembly path. The method may also include preparing the cartridge units for sealing while the cartridge units are moving on a second drum-to-drum transport path of the assembly path. The method further includes sealing the cartridge units while the cartridge units are moving in a sealing workstation of the assembly path.

A method for automated manufacturing of e-vapor devices may include establishing a procession of partially assembled, oriented cartridge units of the e-vapor devices in an assembly path. The method may additionally include preparing the cartridge units for filling while the cartridge units are moving on a first drum-to-drum transport path of the assembly path. The method may also include adding liquid to the cartridge units while the cartridge units are moving in a filling workstation of the assembly path. The method may also include preparing the cartridge units for sealing while the cartridge units are moving on a second drum-to-drum transport path of the assembly path. The method further includes sealing the cartridge units while the cartridge units are moving in a sealing workstation of the assembly path.

An electronic vapor provision system includes a vaporizer for vaporizing liquid for inhalation by a user of the electronic vapor provision system; a power supply for supplying power to the vaporizer to vaporize the liquid in response to a user activation of the device; and a control unit configured to estimate a user's expected activation duration and cause power to be supplied to the vaporizer for a period of time shorter than a user's activation duration.

An electronic vapor provision system includes a vaporizer for vaporizing liquid for inhalation by a user of the electronic vapor provision system; a power supply for supplying power to the vaporizer to vaporize the liquid in response to a user activation of the device; and a control unit configured to estimate a user's expected activation duration and cause power to be supplied to the vaporizer for a period of time shorter than a user's activation duration.

A welding station for welding parts of electronic cigarettes includes feeding means, set in a feeding area for feeding parts of electronic cigarettes to be welded; welding means, set in a welding area, downstream of the feeding area, for welding the parts of electronic cigarettes; and a transfer device, set between the feeding means and the welding means for receiving from the feeding means the parts of electronic cigarettes to be welded and transferring them from the feeding area to the welding area. The transfer device includes a first transfer sector and a second transfer sector, pre-arranged for receiving from the feeding means, respectively, first parts and second parts of electronic cigarettes to be welded and transferring them into the welding area. The first transfer sector and the second transfer sector are mobile in rotation about an axis, independently of one another.

A cartridge consumption system contains a first housing having a first open end and a second end, wherein the housing is adapted to contain a consumable material therein. The first open end is adapted to draw effluent from said housing therethrough, by a mouthpiece, for example. A heating element extends within the housing along the length of the housing from the second end towards the first end, the heating element adapted to directly contact and heat consumable material in thermal communication therewith. A power source such as a battery electrically communicates with the heating element, wherein the heating element is preferably a metallic mesh substrate.

A cartridge consumption system contains a first housing having a first open end and a second end, wherein the housing is adapted to contain a consumable material therein. The first open end is adapted to draw effluent from said housing therethrough, by a mouthpiece, for example. A heating element extends within the housing along the length of the housing from the second end towards the first end, the heating element adapted to directly contact and heat consumable material in thermal communication therewith. A power source such as a battery electrically communicates with the heating element, wherein the heating element is preferably a metallic mesh substrate.

A control device of an aerosol generating device includes a main control unit, and is connectable to a battery and a heater coil. The main control unit is configured to carry out one or more execution loops, a first execution loop includes applying a first power output to the heater coil for a first number of steps, disabling the first power output and thereby switching off the heater coil in a second number of steps, measuring a first heater coil voltage of the heater coil in a third number of steps, pausing with the heater coil switched off for a fourth number of steps, and measuring a first off-load battery voltage of the battery in a fifth number of steps. The main control unit is further configured to calculate an updated power output based upon the first heater coil voltage and first off-load battery voltage.

A control device of an aerosol generating device includes a main control unit, and is connectable to a battery and a heater coil. The main control unit is configured to carry out one or more execution loops, a first execution loop includes applying a first power output to the heater coil for a first number of steps, disabling the first power output and thereby switching off the heater coil in a second number of steps, measuring a first heater coil voltage of the heater coil in a third number of steps, pausing with the heater coil switched off for a fourth number of steps, and measuring a first off-load battery voltage of the battery in a fifth number of steps. The main control unit is further configured to calculate an updated power output based upon the first heater coil voltage and first off-load battery voltage.