CHARGING SYSTEMS FOR AEROSOL-GENERATING DEVICES

Organization Name

Altria Client Services LLC

Inventor(s)

Zack W. Blackmon of Richmond VA (US)

Thomas Tran of Richmond VA (US)

Terry Bache of Richmond VA (US)

Jarrett Keen of Richmond VA (US)

Niall Gallagher of Richmond VA (US)

Yannick Hourmand of Haslingfield (GB)

Guillaume Michel of Cambridge (GB)

Rangaraj S. Sundar of Midlothian VA (US)

Raymond W. Lau of Glen Allen VA (US)

Eric Hawes of Midlothian VA (US)

CHARGING SYSTEMS FOR AEROSOL-GENERATING DEVICES - A simplified explanation of the abstract

This abstract first appeared for US patent application 17947588 titled 'CHARGING SYSTEMS FOR AEROSOL-GENERATING DEVICES

Simplified Explanation

The abstract describes a charging system for an aerosol-generating device that includes different modes for operation. The system can detect when the device is connected to a charging device, activate a power source charger, and enable or disable a heater in the device based on the selected mode. It can also display information, detect ongoing sessions, and adjust charging accordingly.

• Detect connection to charging device
• Activate power source charger
• Enable or disable heater based on selected mode
• Display connection status
• Detect ongoing session and adjust charging

Potential Applications

The technology could be applied in various aerosol-generating devices such as e-cigarettes, vaporizers, and inhalers.

Problems Solved

This technology solves the problem of efficiently charging and controlling the heating element of an aerosol-generating device based on different modes of operation.

Benefits

The benefits of this technology include improved user experience, optimized charging, and enhanced safety features for aerosol-generating devices.

Potential Commercial Applications

The technology could be utilized in the development of next-generation aerosol-generating devices for the consumer market.

Possible Prior Art

One possible prior art could be existing charging systems for electronic devices that may not have the same level of customization and control as the described system.

Unanswered Questions

How does this technology impact the overall user experience of aerosol-generating devices?

This technology enhances the user experience by providing efficient charging and control over the heating element, ensuring a consistent and enjoyable vaping experience.

What are the safety implications of enabling or disabling the heater based on the selected mode?

Enabling or disabling the heater based on the selected mode can help prevent overheating and potential safety hazards, ensuring the device operates within safe parameters.

Original Abstract Submitted

A charging system for an aerosol-generating device includes a processor and a memory in communication with the processor and configured to store instructions is provided. The instructions define at least one of a disable mode, an intra-session mode, or an inter-session mode. The processor is configured to execute the instructions to cause the charging system to detect when the device is connected to a charging device; activate a power source charger in response to the connection to the charging device; identify a selected mode; enable or disable a heater of the capsule dependent upon the selected mode; if the heater is enabled, display a first display indicating the connection of the charging device; if the heater is enabled, detect if a session of the aerosol-generating device is ongoing; and if the session is ongoing, enable or suspend charging in response to the identification of the selected mode.