Apparatus for testing an electronic smoking (e-smoking) device includes an electronic circuit for electronically activating an e-smoking device to convert a wicking fluid therein into a plurality of puffs, and a wireless controller for controlling the electronic circuit. The electronic circuit is configured for activating the e-smoking device based on wireless signals received at the wireless controller. The apparatus is further configured for measuring a characteristic of the e-smoking device, wherein, optionally, the characteristic is a rate of conversion of the wicking fluid to vapor as a function of time for the plurality of puffs.

Apparatus for testing an electronic smoking (e-smoking) device includes an electronic circuit for electronically activating an e-smoking device to convert a wicking fluid therein into a plurality of puffs, and a wireless controller for controlling the electronic circuit. The electronic circuit is configured for activating the e-smoking device based on wireless signals received at the wireless controller. The apparatus is further configured for measuring a characteristic of the e-smoking device, wherein, optionally, the characteristic is a rate of conversion of the wicking fluid to vapor as a function of time for the plurality of puffs.

An exemplary smoking topography circuit of an electronic aerosol smoking article, includes at least one sensor configured to measure user interaction with the smoking article, a processor, and memory. The processor is configured to detect a smoking event based an output of the at least one sensor, collect data associated with the smoking event, and arrange the data in a pattern that associates the smoking event to shifts in battery voltage. The memory is configured to store the data pattern in a structured multi-byte format.

An exemplary smoking topography circuit of an electronic aerosol smoking article, includes at least one sensor configured to measure user interaction with the smoking article, a processor, and memory. The processor is configured to detect a smoking event based an output of the at least one sensor, collect data associated with the smoking event, and arrange the data in a pattern that associates the smoking event to shifts in battery voltage. The memory is configured to store the data pattern in a structured multi-byte format.

A sensor apparatus may include a conduit structure including an inner surface defining a conduit extending through an interior of the conduit structure, an inlet structure coupled to an end of the conduit structure, and a plurality of sensor devices in hydrodynamic contact with the conduit. The inlet structure may couple with an outlet end of an external tobacco element to hold the outlet end of the external tobacco element in fluid communication with an inlet opening of the conduit structure, such that the conduit structure may receive a generated aerosol from the external tobacco element at the inlet opening, and draw an instance of aerosol through the conduit towards an outlet opening. The instance of aerosol may include at least a portion of the generated aerosol. Each sensor device may generate sensor data indicating a pressure of the instance of aerosol through a separate portion of the conduit.

A sensor apparatus may include a conduit structure including an inner surface defining a conduit extending through an interior of the conduit structure, an inlet structure coupled to an end of the conduit structure, and a plurality of sensor devices in hydrodynamic contact with the conduit. The inlet structure may couple with an outlet end of an external tobacco element to hold the outlet end of the external tobacco element in fluid communication with an inlet opening of the conduit structure, such that the conduit structure may receive a generated aerosol from the external tobacco element at the inlet opening, and draw an instance of aerosol through the conduit towards an outlet opening. The instance of aerosol may include at least a portion of the generated aerosol. Each sensor device may generate sensor data indicating a pressure of the instance of aerosol through a separate portion of the conduit.

A sensor apparatus may include a channel structure configured to couple with an external element and a fluid conduit, such that the channel structure may receive a fluid, at least partially drawn through the external element from an ambient environment, and direct the fluid through the fluid conduit. A sensor may generate sensor data indicating a flow rate of the fluid through the fluid conduit based on monitoring a variation in a pressure at a location in hydrodynamic contact with the fluid conduit and in relation to an ambient pressure of the ambient environment. The sensor apparatus may enable generation of improved topography information associated with flows of fluid drawn from the external element based on measuring a local pressure at the location in hydrodynamic contact with the fluid conduit and determining the ambient pressure based on monitoring the local pressure over time.

A sensor apparatus may include a channel structure configured to couple with an external element and a fluid conduit, such that the channel structure may receive a fluid, at least partially drawn through the external element from an ambient environment, and direct the fluid through the fluid conduit. A sensor may generate sensor data indicating a flow rate of the fluid through the fluid conduit based on monitoring a variation in a pressure at a location in hydrodynamic contact with the fluid conduit and in relation to an ambient pressure of the ambient environment. The sensor apparatus may enable generation of improved topography information associated with flows of fluid drawn from the external element based on measuring a local pressure at the location in hydrodynamic contact with the fluid conduit and determining the ambient pressure based on monitoring the local pressure over time.

An apparatus is provided, including: a housing; a first assessment section defining a first airflow pathway and including a first conduit including inlet and outlet ends, the inlet end to receive a mouth end of an aerosol-generating system or a smoking article, a first pump in fluid communication with the first conduit outlet end and to draw fluid through the first conduit from the inlet end to the outlet end, and a first cover arranged on the housing; and a second assessment section defining a second airflow pathway and including a second conduit including inlet and outlet ends, the inlet end to receive a mouth end of an aerosol-generating device or a smoking article, a second pump in fluid communication with the second conduit outlet end and to draw fluid through the second conduit from the inlet end to the outlet end, and a second cover arranged on the housing.

An apparatus is provided, including: a housing; a first assessment section defining a first airflow pathway and including a first conduit including inlet and outlet ends, the inlet end to receive a mouth end of an aerosol-generating system or a smoking article, a first pump in fluid communication with the first conduit outlet end and to draw fluid through the first conduit from the inlet end to the outlet end, and a first cover arranged on the housing; and a second assessment section defining a second airflow pathway and including a second conduit including inlet and outlet ends, the inlet end to receive a mouth end of an aerosol-generating device or a smoking article, a second pump in fluid communication with the second conduit outlet end and to draw fluid through the second conduit from the inlet end to the outlet end, and a second cover arranged on the housing.