Temperature Control Mode (TC Mode)? Mechanism Of Action?
Did you accidentally set the temperature control mode (TC Mode)?
For the basic to high-end e-cigarettes generation, most e-cigarettes have a power mode set.
Or do you know this pattern, but don’t know how to use it?
Vape Gen will explore this mode with you.
What is the temperature control mode (TC mode)?
In Vietnamese, also known as temperature control, it is a mode of adjusting the strength of the box/mod to maintain the coil/occ/pod at the user preset temperature (Celsius, Fahrenheit).
According to the manufacturer, maintaining a constant temperature is safer for the core, but in most cases, there is no temperature indicator on the device or vape liquid.
Basic knowledge of temperature control mode
The core wire is a resistance wire wound around a spring shaped cylinder without contacting (or connecting) the ring.
The electrical resistivity (Ω) of a wire determines the extent to which a particular combustion core (typically an alloy) can withstand the allowable current.
According to the manufacturer, maintaining a constant temperature can ensure that the burner is safer, but most devices or vape E-lquid bottles do not provide an indication of the operating temperature.
When electrical energy dissipates in a wire, heat is generated.
This means that electrons are dispersed with atoms present in the alloy, known as the Joule effect.
When you purchase an Occ/Pod from a supplier, its resistance is recorded at a fixed location.
Coil resistance temperature control mode
The resistance of a coil is usually stable, and as the temperature increases, the coil becomes a superconductor.
The resistor is then allowed to reach the set temperature.
It can also be used according to your preferences to achieve the temperature you set.
Of course, the allowable temperature cannot be exceeded too much.
This is exactly the principle of using the temperature control mode.
How do I calculate the temperature control mode?
Typically, the coil resistance (R) increases with temperature (T).
In temperature control mode, the box mod chipset can quickly measure resistance.
Basically, the chipset increases the current to a given resistance value (R).
This setpoint (R) corresponds to the desired temperature (T).
For convenience, the manufacturer provides an option to choose alpha from the type of resistance wire used: nickel (Ni), titanium (Ti), or stainless steel (SS).
Some expert modes allow the input of alpha as a number.
This allows the use of unusual alloys and adapts to new wear resistant rollers on the market.
What is the temperature control mode and when to use it?
The temperature control mode is compatible with Ni, Ti, and SS coils, with the exception of Kanthal coils.
Kanthal is a FeCrAl alloy that typically contains more impurities than any other alloy and does not provide superconductivity (linear relationship of heat resistance).
In fact, electrons are dispersed by impurities and the alloy is heated while the resistance remains constant.
A special type of Kanthal can be used in industries with temperatures up to 1425 ° C.
The most common is nicotine, which cannot exceed a concentration of 3% in Europe, although some electronic liquids have concentrations as high as 6.0%. The boiling point of nicotine is 247 ° C (or 477 ° F).
Depending on the temperature control mode, flavor can be obtained through multiple components.
Diethyl (fat), such as butter, with a taste of 88 ° C (or 190 ° F)
For acetic acid (fat mixture) with a similar taste, the temperature is higher (148 ° C or 298 ° F).
For banana aroma, isoamyl acetate evaporates at 142 ° C (or 288 ° F).
Benzaldehyde boils at 178 ° C (or 352 ° F)
248 ° C (478 ° F) cinnamaldehyde
Fruit (ethyl propionate) boils at 99 ° C (or 210 ° F)
Grape (Methyl Anthranate) 256 ° C (or 493 ° F)
Limonene at 176 ° C (or 349 ° F),
Pineapple (allyl hexanoate) at 190 ° C (or 374 ° F)
Candy (ethyl maltol) 161 ° C (or 322 ° F)
Pure mint oil at 212 ° C (or 414 ° F)
Vanilla oil contains vanilla at 295 ° C (or 563 ° F).