A fluid permeable heater assembly for an aerosol-generating system includes a cap and a substantially flat electrically conductive and fluid permeable heating element. The cap includes a hollow body with a first cap opening and a second cap opening. The first cap opening is opposite to the second cap opening. The heating element is configured to vaporise aerosol-forming substrate. The heating element is mounted on the cap, such that the heating element extends across the first cap opening. A cartridge for an aerosol-generating system includes the heater assembly, a liquid storage portion, a mouth piece, and a retainer.

A swingable solar electric heater comprises an electric heater structure including a head swing element, a heating element, a timer, a base, and a safety dump switch. The head swing element is used to swing back and forth to perform radiant heating within a fixed angle, the timer is connected to the heating element, and the safety dump switch is used to turn off the heating element when the tilt angle of the base exceeds a limit. A current capture device captures the image data of the scene where the electric heater structure is located to obtain and output the corresponding current scene image. An early warning control device is used to extract each pixel value of each pixel in the current scene image, to calculate the standard deviation in the current scene image, and to send a blockage warning signal when the standard deviation exceeds a limit.

An aerosol generating device includes a heater configured to heat an aerosol generating substrate, at least one sensor configured to sense a tap input of a user, and a controller configured to receive a sensing value indicating the tap input from the at least one sensor, count a number of tap inputs based on the received sensing value being greater than a variable threshold, and operate the heater based on whether the counted number of tap inputs reaches a predetermined input number, wherein the controller adjusts the variable threshold based on the counted number of tap inputs.

A cartridge for an aerosol-generating system includes a storage container containing a supply of an aerosol-forming substrate, a fluid permeable heating element positioned across an opening in the storage container, a protective cover coupled to the storage container and covering the fluid permeable heating element, at least one air inlet, at least one air outlet, and an airflow path from the at least one air inlet to the at least one air outlet. The protective cover is configured such that a portion of the airflow path is between the protective cover and the fluid permeable heating element.

Radiant heating systems for warming an occupant of an enclosed space. The system includes a component with a surface that faces the occupant. The surface defines an A-surface quality meaning the surface is visible and is designed with styling objectives to have an aesthetic appearance. Conductive strands are exposed at the surface and a power supply supplies electric power to the conductive strands. A controller controls the electric power supplied to the conductive strands.

An electric fireplace (10) includes a fireplace housing (12) and an electrical insert (40). The fireplace housing (12) includes a base panel (30) having a base opening (230A), a back panel (32), and at least one side panel (34). The electrical insert (40) is sized and shaped to fit and be supported and retained within the base opening (230A). Additionally, the electrical insert (40) can include a heater (26), and a controller (28) including a processor that is configured to control operation of the electric fireplace (10). Further, each of the base panel (30), the back panel (32) and the at least one side panel (34) can be manufactured and installed independently of one another. The fireplace housing (12) can further include a front frame (236) that is manufactured and installed independently of each of the base panel (30), the back panel (32) and the at least one side panel (34). Still further, at least one of the back panel (32) and the at least one side panel (34) can be foldable.

A floor panel having a heating element disposed therein, the floor panel having at least two abutments for operationally coupling the panel to adjacent panels. Electrical contacts are disposed on complementary abutments or abutment walls and busbars electrically couple between complementary contacts of opposing abutments such that, when adjacent floor panels are laid together to form a floor or a portion thereof, the busbars are able to feed power to heating elements disposed in the panel. The panel have sealants and/or adhesives which protect at least one contact from fluids. Also disclosed are connector bars, adapters, and switching and protection arrangements, and optional constructions for inter-panel connectors.

A heater device includes a heater surface facing one side in a predetermined direction. The heater device includes a transmission electrode and a reception electrode arranged on the other side in the predetermined direction with respect to the heater surface, and an insulation coating layer that covers the transmission electrode and the reception electrode on the one side in the predetermined direction. The transmission electrode and the reception electrode are electrically connected to a contact detection unit, to detect contact or proximity of an object to the heater surface by a change in a capacitance therebetween. The insulation coating layer has a first component part made of an insulating member, and a second component part having a smaller relative permittivity than that of the first component part. The second component part is located between at least one of the transmission electrode or the reception electrode and the heater surface.

Radiant heating systems are provided for warming an occupant of an enclosed space. The system includes a component with a surface configured to face the occupant. The surface defines an A-surface quality meaning the surface is visible and is designed with styling objectives to have an aesthetic appearance. Conductive strands are exposed at the surface and a power supply is configured to supply electric power to the conductive strands. A controller is configured to control the electric power supplied to the conductive strands.

A fluid permeable heater assembly for an aerosol-generating system includes a cap and a substantially flat electrically conductive and fluid permeable heating element. The cap includes a hollow body with a first cap opening and a second cap opening. The first cap opening is opposite to the second cap opening. The heating element is configured to vaporize aerosol-forming substrate. The heating element is mounted on the cap, such that the heating element extends across the first cap opening. A cartridge for an aerosol-generating system includes the heater assembly, a liquid storage portion, a mouth piece, and a retainer.