Separate age/ID verification module for aerosol delivery device

What is claimed is: 1. An aerosol delivery device comprising: a rechargeable power source configured to provide power to generate an aerosol; device electronics configured to generate the aerosol responsive to application of the power from the power source; and an authentication module comprising a separate chip or circuit board relative to the device electronics, the authentication module being inserted into the aerosol delivery device between the power source and the device electronics to control provision of the power to the device electronics for generation of the aerosol or between the power source and a charge port of the aerosol delivery device to control charging of the power source, wherein the authentication module is configured to control transitioning of the aerosol delivery device between a locked state in which provision of the power to the device electronics is prevented and an unlocked state in which the power is provided from the power source to the device electronics, wherein the authentication module comprises charge control circuitry disposed between the power source and the charge port of the aerosol delivery device, and wherein the charge control circuitry is configured to alternately enable and disable charging of the power source in the unlocked state and the locked state, respectively. 2. The aerosol delivery device of claim 1 , wherein the authentication module comprises an authentication manager configured to interface with a host device to perform an authentication process; wherein the charge control circuitry comprises charge switch circuitry operable to close responsive to operation of the authentication manager to enable recharging of the power source, and open responsive to operation of the authentication manager to prevent recharging of the power source. 3. The aerosol delivery device of claim 1 , wherein the authentication module comprises power control circuitry disposed between the power source and the device electronics; and wherein the power control circuitry is configured to alternately provide and interrupt a path for power provision from the power source to the device electronics in the unlocked state and the locked state, respectively. 4. The aerosol delivery device of claim 3 , wherein the authentication module comprises an authentication manager configured to interface with a host device to perform an authentication process; wherein the power control circuitry comprises control switch circuitry operable to close responsive to operation of the authentication manager to enable the application of power from the power source to the device electronics, and open responsive to operation of the authentication manager to prevent application of power from the power source to the device electronics. 5. An aerosol delivery device comprising: a rechargeable power source configured to provide power to generate an aerosol; device electronics configured to generate the aerosol responsive to application of the power from the power source; and an authentication module comprising a separate chip or circuit board relative to the device electronics, the authentication module being inserted into the aerosol delivery device between the power source and a charge port of the aerosol delivery device to control charging of the power source; wherein the authentication module is configured to control transitioning of the aerosol delivery device between a locked state in which provision of the power to the device electronics is prevented and an unlocked state in which the power is provided from the power source to the device electronics; wherein the authentication module comprises charge control circuitry disposed between the power source and a charge port of the aerosol delivery device; wherein the charge control circuitry is configured to alternately enable and disable charging of the power source in the unlocked state and the locked state, respectively; wherein the authentication module comprises power control circuitry disposed between the power source and the device electronics; and wherein the power control circuitry is configured to alternately provide and interrupt a path for power provision from the power source to the device electronics in the unlocked state and the locked state, respectively. 6. The aerosol delivery device of claim 5 , wherein the authentication module comprises an authentication manager configured to interface with a host device to perform an authentication process responsive to communication between the host device and an external authentication entity via a network. 7. The aerosol delivery device of claim 6 , wherein the authentication manager is configured to receive an optical or audio signal from the host device in response to completion of the authentication process to transition the aerosol delivery device from the locked state to the unlocked state. 8. The aerosol delivery device of claim 6 , wherein the authentication module further comprises a wake up manager, wherein the aerosol delivery device is initially in a sleep or low power mode prior to operation of the wake up manager, and wherein the aerosol delivery device is configured to be awoken from the sleep or low power mode prior to the authentication manager being enabled to transition the aerosol delivery device from the locked state to the unlocked state. 9. The aerosol delivery device of claim 5 , wherein the device electronics are disposed on a printed circuit board of the aerosol delivery device, and wherein the authentication module is inserted into the aerosol delivery device without modifying the printed circuit board on which the device electronics are disposed. 10. An aerosol delivery device comprising: a rechargeable power source configured to provide power to generate an aerosol; device electronics configured to generate the aerosol responsive to application of the power from the power source; and an authentication module comprising a separate chip or circuit board relative to the device electronics, the authentication module being inserted into the aerosol delivery device between the power source and a charge port of the aerosol delivery device to control charging of the power source; wherein the authentication module is configured to control transitioning of the aerosol delivery device between a locked state in which provision of the power to the device electronics is prevented and an unlocked state in which the power is provided from the power source to the device electronics; wherein the authentication module comprises charge control circuitry disposed between the power source and a charge port of the aerosol delivery device; wherein the charge control circuitry is configured to alternately enable and disable charging of the power source in the unlocked state and the locked state, respectively; wherein the authentication module comprises power control circuitry disposed between the power source and the device electronics; and wherein the power control circuitry is configured to alternately provide and interrupt a path for power provision from the power source to the device electronics in the unlocked state and the locked state, respectively; wherein the charge control circuitry comprises charge switch circuitry operable to close responsive to operation of the authentication manager to enable recharging of the power source, and open responsive to operation of the authentication manager to prevent recharging of the power source; and wherein the power control circuitry comprises control switch circuitry operable to close responsive to operation of the authentication manager to enable the application of power from the power source to the device electronics, and open re