Personal vaporization devices which store substances to be vaporized include, for instance, inhalers for asthma treatment. These personal vaporization devices have various different components which provide feedback to a user. Some of the features include a means of indicating by visual cue, audible cue, touch feedback, haptic, vibration, heat or other sensory signal, or prompt, that a device has reached a desired or predetermined vaporization temperature or for a predetermined time. This provides a user with information as to when a device is ready for use. For example, a simple LED may glow when the personal vaporization device is ready for inhalation, or provide different patterns, colors, or strengths programmed to give feedback related to consumption of the vaporized substance. Personal vaporization devices being used for medical purposes can be equipped with additional feedback features which can give auditory and/or tactile warnings such as vibration, while the vibration can also be to disperse the active agents. There remains, however, a need for connecting the personal vaporization device, and specifically an electronic cigarette, to the safe and precise medical delivery of medicinal cannabis, for instance, via a simple haptic feedback. The present description describes a vaporization device assembly, comprising a mouthpiece, a battery with a mouthpiece end and an opposing vibration end, a first dampening spacer, comprising silicone and disposed at the mouthpiece end of the battery, and a second dampening spacer, comprising silicone and disposed at the vibration end of the battery. The device assembly further includes a printed circuit board, a vibrator and a microprocessor housed in the second dampening spacer. Additionally, a coil holder configured to accommodate a coil, a vaporization chamber, and a wick having a plurality of wick portions. The coil is configured to vaporize a vaporizable substance accommodated by the coil holder. A tank having a reservo
