Response sensitivity
Principle of airflow sensing
The keyless startup system relies on sensing changes in airflow to trigger the device to start. When the user sucks, the generated airflow enters the interior of the device through the suction nozzle. The equipment is equipped with a precise airflow sensor inside, which can quickly sense the changes in airflow. From the perspective of airflow dynamics, when airflow passes through a specific channel, it will cause changes in air pressure and flow velocity. Sensors determine whether a suction action has occurred by detecting these changes.
Factors affecting sensitivity
Channel design is crucial to sensitivity. If the airflow channel is too wide, the pressure change generated when the air flows is relatively small, and the sensor may have difficulty accurately sensing it, resulting in a response delay. However, if the channel is too narrow, although the pressure change will be more obvious, it may increase the resistance of the user's suction and affect the user experience. When designing the airflow channel, the FUMOT Vape 12000 has been carefully tuned to ensure that it can not only guarantee sufficient pressure changes for the sensor to accurately perceive, but also will not bring excessive suction resistance to the user.
In addition, the performance of the sensor also directly affects the response sensitivity. High-quality sensors can respond at the moment of airflow changes, quickly transmitting signals to the control circuit of the equipment, thereby promptly initiating the atomization process. The sensors selected by FUMOT Vape 12000 feature high sensitivity and rapid response characteristics. They can detect changes in airflow within an extremely short time when the user starts suction (usually at the millisecond level) and trigger the device to work, allowing users to hardly feel the delay and achieving an immediate response.
Stability
Air flow stability guarantee
During the continuous suction process, maintaining the stability of the airflow is crucial for the stable operation of the equipment. The FUMOT Vape 12000 ensures the stability of the airflow by optimizing the internal structure design. The shape and size of its suction nozzle and air flow channel have been carefully designed to guide the airflow smoothly into the interior of the equipment, reducing the disorder and fluctuation of the airflow. For instance, the shape of the suction nozzle is ergonomic, which can naturally guide the airflow when the user sucks and avoid irregular airflow disturbances.
Prevent false triggering mechanism
Stability is also reflected in preventing accidental triggering of the equipment. If the device is overly sensitive and starts up due to changes in external air flow (such as wind) when it is not in the suction state, it will cause waste of electricity and e-liquid. The keyless startup system of FUMOT Vape 12000 has set a reasonable trigger threshold. The device startup will only be triggered when the airflow change reaches a certain extent and the duration meets the requirements. Meanwhile, the device may also be equipped with a filtering mechanism inside, which can filter out some short-term and irregular airflow interferences, further enhancing the stability of the system and ensuring that the device only starts when the user actually sucks.
Performance in different usage scenarios
In different usage scenarios, the keyless start system of FUMOT Vape 12000 can maintain good stability. Whether in a quiet indoor environment or an outdoor environment with a gentle breeze, this system can accurately identify the user's suction actions and will not cause false triggers or non-responses due to slight changes in the external air flow. Even during rapid continuous suction or slow suction, the system can operate stably, ensuring that each suction can normally trigger the atomization process and providing users with a stable and consistent vaping experience.
The keyless start system of FUMOT Vape 12000 starts from the principle of aerodynamics. By rationally designing the airflow channel, selecting high-performance sensors, and optimizing the internal structure and trigger mechanism, it has excellent performance in terms of response sensitivity and stability, bringing users a smooth and reliable usage experience.