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.

Various aspects of the present disclosure are directed to electronic cigarette temperature compensation.

Various aspects of the present disclosure are directed to electronic cigarette temperature compensation.

A test fixture for testing aerosol provision devices may include a housing, a plurality of testing modules disposed at the housing where each of the testing modules includes a cavity configured to receive a portion of an aerosol provision device, and processing circuitry operably coupled to the testing modules. Each of the testing modules may be configured to interface with an assembly of a respective one of the aerosol provision devices to transition the assembly between an initial state and a transitioned state during a functional test controlled by the processing circuitry. The processing circuitry may be configured to conduct the functional test of at least two of the testing modules simultaneously.

A test fixture for testing aerosol provision devices may include a housing, a plurality of testing modules disposed at the housing where each of the testing modules includes a cavity configured to receive a portion of an aerosol provision device, and processing circuitry operably coupled to the testing modules. Each of the testing modules may be configured to interface with an assembly of a respective one of the aerosol provision devices to transition the assembly between an initial state and a transitioned state during a functional test controlled by the processing circuitry. The processing circuitry may be configured to conduct the functional test of at least two of the testing modules simultaneously.

A temperature measurement system for determining a performance of a smoke generating device includes a temperature measuring device. The temperature measuring device includes an elongated carrier and a number of thermal sensors disposed within the elongated carrier. The elongated carrier is configured to be inserted into an elongated chamber of the smoke generating device. Each of the thermal sensors includes a sensing end exposed on an outer surface of the elongated carrier. When the elongated carrier is inserted into the elongated chamber, the sensing ends respectively detect a temperature of a number of heating members of the smoke generating device.

Various aspects of the present disclosure are directed to electronic cigarette temperature compensation.

Various aspects of the present disclosure are directed to electronic cigarette temperature compensation.

A method for functional testing of aerosol provision devices may include performing a functional state transition test of a power unit. The functional state transition test of the power unit may include extracting a unique identifier from the power unit of an aerosol provision device responsive to operable coupling of the power unit to a test fixture, determining a transition code based on the unique identifier, providing the transition code to the power unit via the test fixture to transition the power unit from an initial state to a transitioned state, and transitioning the power unit to the initial state.