An integrated circuit is provided having an active circuit. A heating element is adjacent to the active circuit and configured to heat the active circuit. A temperature sensor is also adjacent to the active circuit and configured to measure a temperature of the active circuit. A temperature controller is coupled to the active circuit and configured to receive a temperature signal from the temperature sensor. The temperature controller operates the heating element to heat the active circuit to maintain the temperature of the active circuit in a selected temperature range.

A customizable device may include a first inhalation device and a second inhalation device, each including a mouth end portion and an upstream end portion. In a storage configuration, the mouth end portion of at least one of the first inhalation device or the second inhalation device is removably coupled to the other inhalation device. In an active configuration, the upstream end portion of at least one of the first inhalation device or the second inhalation device is removably coupled to the other inhalation device. A connector hub may couple the inhalation devices.

An e-vapor device may include a housing shell configured to receive a supply packet containing a pre-vapor formulation, a mouthpiece secured to an end of the housing shell, a puncture device within the housing shell, and a heater structure within the housing shell and arranged to be in thermal contact with the pre-vapor formulation. The mouthpiece is configured to transition from a protracted position to a retracted position. The puncture device is configured to pierce the supply packet to release the pre-vapor formulation when the mouthpiece transitions to the retracted position. The heater structure is configured to vaporize the pre-vapor formulation to generate a vapor.

A control body is coupleable with a cartridge to form an aerosol delivery device, with the cartridge being equipped with an electrical load. The control body includes first and second positive conductors connectable with respectively a power supply and the electrical load. The control body includes a series pull-up resistor and switch connected to and between the first and second positive conductors. A microprocessor is configured to operate the switch in a closed state in a standby mode in which the pull-up resistor causes a logical high level of voltage at the second positive conductor when the control body and cartridge are uncoupled, and in which the electrical load is unpowered causes a logical low level of the voltage when the control body and cartridge are coupled. The microprocessor is configured to measure the voltage and control operation of functional element(s) of the aerosol delivery device based thereon.

An apparatus for treating a substrate is provided. The apparatus includes: a support member provided in a process chamber and configured to support the substrate; and a heater heating element provided in the support member and configured to heat the substrate, wherein at least a part of the heater heating element comprises a first region to which a laser trimming process is applied, at least another part of the heater heating element comprises a second region on which a resistance adjusting material layer is implemented by an electrolytic plating process, and the amount of heat generated in the first region that is at least a part of the heater heating element is increased by performing the laser trimming process and the amount of heat generated in the second region that is at least another part of the heater heating element is decreased by forming the resistance adjusting material layer.

Disclosed is an article for use with apparatus for heating smokable material to volatilize at least one component of the smokable material. The article includes smokable material, and a film defining a closed circuit of heating material. The heating material is heatable by penetration with a varying magnetic field to heat the smokable material. Also disclosed is apparatus for heating smokable material to volatilize at least one component of the smokable material. The apparatus includes a magnetic field generator for generating a varying magnetic field for use in heating the smokable material. The magnetic field generator includes a film defining a coil of electrically conductive material, and a device for passing a varying electrical current through the coil.

A vaporizer device may include a controller and a heater control circuitry. The controller may generate, based at least on a temperature of a heating coil in a cartridge coupled with the vaporizer device, an output signal for controlling a discharge of a battery of the vaporizer device. The battery may be discharged to the heating coil to increase the temperature of the heating coil and cause a vaporization of a vaporizable material contained in the cartridge. The heater control circuitry may determine the temperature of the heating coil. The heater control circuitry may further control, based on the output signal from the controller, the discharge of the battery to the heating coil. The heater control circuitry may be powered by a voltage rail coupled to a voltage regulator configured to regulate an output voltage of the battery.

A device having a first electrode and a second electrode arranged at a distance therefrom along the surface of the workpiece. At least the first electrode is arranged at a distance from the workpiece, which is preferably a foodstuff, and the distance is filled and bridged by a conductive liquid. The conductive liquid projects over the first electrode and the second electrode and establishes electrical contact of each electrode with the workpiece. The conductive liquid has the advantage, e.g. compared to a rigid contact surface, that an electrical contact is established independently of the surface shape of the workpiece, without the electrode itself having to be in contact with the workpiece.

An electrically heated aerosol-generating system for receiving an aerosol-forming substrate includes a heating element including a first electrically conductive element electrically insulated from a second electrically conductive element by an electrically insulating portion. The first and second elements are elongate and are electrically connected to each other by an electrically resistive portion. At least one electrically conductive element and the electrically resistive portion are arranged such that they are at least partially in contact with the aerosol-forming substrate.

An atomizing electronic cigarette has an atomizing core component and a liquid storage component. including an electric heater. The electric heater may have a through hole aligned with a channel passing through the liquid storage component. The cigarette can heat and uniformly vaporize liquid from the liquid storage component, with the user inhaling the vaporized liquid. The vapor generated by the atomizing process may be cooled as it flows through the channel.