Which electronic technologies are used in vape products?
vape products are electronic technology-based products that use electronic devices to heat and atomize a liquid tobacco product or nicotine solution, prompting the user to inhale the mist. The following are some of the more common electronic technologies in vape products:
1, battery technology: vape products must be the battery as a source of energy, generally with rechargeable lithium batteries or non-rechargeable alkaline batteries.
2, heating technology: vape products usually use heating coils or ceramic tablets and other heating elements to heat the liquid in the smoke.
3, sensor technology: sensors in vape products are used to detect the strength and duration of the user’s inhalation to reduce the working state of the heating element.
4, control chip technology: the control chip in the vape product is used to manage the battery power, heating element temperature, and power to ensure the stability and safety of the electronic cigarette product.
5, wireless communication technology: Some high-end vape products may include wireless communication technology, such as Bluetooth and Wi-Fi, which can be connected to devices such as smartphones to provide better functionality and data exchange.
The basic structure of a vape product mainly includes a lithium battery, a charging circuit and interface, a cigarette cartridge (with tobacco oil inside), a heated resistive wire, a central controller (MCU), and a sensor for airflow detection. vape products use heated cigarette resistance wire and tobacco oil to simulate the same taste as real cigarettes. Usually, the resistance value of the resistance wire of the vape is usually around 0.4Ω~3.8Ω. The traditional method is to use the battery to directly heat the cigarette resistance, but also in series between the battery and the cigarette resistance to adjust the output power of a switching tube. However, the maximum output power of this method will be limited by the battery voltage, while the battery voltage is unstable, resulting in unstable output power, which affects the taste of smoking, and therefore usually adds a boost circuit to promote electronic cigarette products to obtain a higher and more stable output voltage, so as to improve the taste of vape products.