A fixing structure of a wiring member includes: a wiring member including at least one wire-like transmission member; a heat generation layer provided to surround a periphery of the wiring member; an adherend to which the wiring member is fixed; and a joint layer provided on at least a portion between the heat generation layer and the adherend and a portion between the heat generation layer and the wiring member, wherein the heat generation layer is a layer which can generate heat by induction heating, the joint layer is a layer having bond properties by heat transmitted from the heat generation layer at a time of induction heating, and is joined to the heat generation layer and at least one of the adherend and the wiring member.

A fixing structure of a wiring member includes: a wiring member including at least one wire-like transmission member; a heat generation layer provided to surround a periphery of the wiring member; an adherend to which the wiring member is fixed; and a joint layer provided on at least a portion between the heat generation layer and the adherend and a portion between the heat generation layer and the wiring member, wherein the heat generation layer is a layer which can generate heat by induction heating, the joint layer is a layer having bond properties by heat transmitted from the heat generation layer at a time of induction heating, and is joined to the heat generation layer and at least one of the adherend and the wiring member.

A fixing structure of a wiring member includes: a wiring member including at least one wire-like transmission member; a joint member including an adhesive layer, a heat generation layer, and a joint layer; and an adherend to which the wiring member is fixed, wherein the heat generation layer is a layer which can generate heat by induction heating and is provided between the adhesive layer and the joint layer, the joint layer is a layer having bond properties when heat is transmitted from the heat generation layer at a time of induction heating, the adhesive layer is fixed to one of the wiring member and the adherend, and the joint layer is fixed to another one of the wiring member and the adherend.

Provided is an evaporation apparatus configured to form an organic layer made from organic material on a substrate, the apparatus including: a container configured to contain the organic material, at least a portion of which is composed of conductor; a heating coil disposed around the container; a DC power supply; an inverter connected to the DC power supply; a primary coil connected to the inverter; and a secondary coil connected to the heating coil, wherein the primary coil and the secondary coil form a matching transformer.

A heating apparatus for heating a cavity inside a chamber. The apparatus may include a first heater at the bottom of the chamber, a second heater at the top of the chamber, at least one air inlet connected to the chamber; and at least one air outlet connected to the chamber.

An aerosol-generating device is provided, including: a heating arrangement including an induction coil, first, second, and third contacts; and a controller, in which the first contact is arranged contacting a proximal end of the induction coil, in which the second contact is arranged contacting a distal end of the induction coil, in which the third contact is arranged contacting the induction coil between the first and the second contacts, in which the first, the second, and the third contacts are electrically connected to the controller, in which the controller is configured to control supply of an alternating electrical current between only a pair of the first, the second, and the third contacts, and in which the first and the second contacts are fixed contacts and the third contact is configured as a movable contact. A method for heating a heating arrangement of an aerosol-generating device is also provided.

An aerosol-generating device is provided, including: at least two heating arrangements, each heating arrangement including a heating coil, first, second, and third contacts, the first contact being arranged contacting a distal end of the heating coil, the second contact being arranged contacting a proximal end of the heating coil, and the third contact being arranged contacting the heating coil between the first and second contacts, and a sliding arrangement, the heating coils being arranged side by side parallel to a longitudinal axis of the device, the sliding arrangement being arranged adjacent the heating coils and configured to slide parallel to the longitudinal axis and parallel to the heating coils, the third contacts being mounted on the sliding arrangement, and an electrical contact point between each third contact and each respective heating coil being adaptable by sliding the sliding arrangement.

A liquid-conveying susceptor assembly is provided for conveying and inductively heating an aerosol-forming liquid under an influence of an alternating magnetic field, the assembly including: an array of inductively heatable longitudinal filaments arranged side by side; and an array of transverse filaments arranged side by side and crossing the longitudinal filaments transverse to a length extension of the longitudinal filaments, in which the transverse filaments only extend along a length portion of the longitudinal filaments such that the assembly further includes at least one grid portion and at least one non-grid portion, in which in the grid portion the transverse filaments and the longitudinal filaments cross each other, in which in the non-grid portion the assembly only includes the longitudinal filaments, but no transverse filaments, and in which length dimension of the non-grid portion is at least 20 percent of a length dimension of the longitudinal filaments.

An aerosol-generating device configured to receive an aerosol-generating article is provided, including: an elongate housing having a distal end and a proximal end; a light source; and a controller configured to control the light source, in which, in use, the proximal end of the housing points towards a consumer, in which the proximal end of the housing includes an illumination portion made from translucent material, in which the light source is optically coupled to the illumination portion, and in which the illumination portion is configured to surround the aerosol-generating device in use. An aerosol-generating system including the aerosol-generating device and an aerosol-generating article is also provided. A method of operating the aerosol-generating system is also provided.

An aerosol generating device for generating aerosol from an aerosol generating material is disclosed. The aerosol generating device includes a first heating unit and a second heating unit both arranged to heat, but not burn, an aerosol generating material in use. A controller is arranged to control the first and second heating units wherein during the course of a session the controller is arranged to set the first heating unit: (i) a target operating temperature T1 during a time period t1-t2; (ii) a target operating temperature T2 during a time period t2-t3; (iii) a target operating temperature T3 during a time period t3-t6; and (iv) a target operating temperature T4 during a time period t6-t7; wherein temperature T1>T2>T3>T4 and time t0<t1<t2<t3<t4<t5<t6<t7.